EP4332292A1 - Module de verrouillage de porte de machine à laver et machine à laver - Google Patents

Module de verrouillage de porte de machine à laver et machine à laver Download PDF

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Publication number
EP4332292A1
EP4332292A1 EP22794669.6A EP22794669A EP4332292A1 EP 4332292 A1 EP4332292 A1 EP 4332292A1 EP 22794669 A EP22794669 A EP 22794669A EP 4332292 A1 EP4332292 A1 EP 4332292A1
Authority
EP
European Patent Office
Prior art keywords
door
positioning
rod
washing machine
unlocking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP22794669.6A
Other languages
German (de)
English (en)
Other versions
EP4332292A4 (fr
Inventor
Kai Liu
Xiaochun Liu
Mingliang YU
Yongshun HOU
Peishi Lv
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Qingdao Haier Drum Washing Machine Co Ltd
Haier Smart Home Co Ltd
Original Assignee
Qingdao Haier Drum Washing Machine Co Ltd
Haier Smart Home Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN202110459695.XA external-priority patent/CN115247349B/zh
Priority claimed from CN202110461360.1A external-priority patent/CN115247352B/zh
Priority claimed from CN202110459683.7A external-priority patent/CN115247348B/zh
Priority claimed from CN202110459686.0A external-priority patent/CN115247346B/zh
Application filed by Qingdao Haier Drum Washing Machine Co Ltd, Haier Smart Home Co Ltd filed Critical Qingdao Haier Drum Washing Machine Co Ltd
Publication of EP4332292A1 publication Critical patent/EP4332292A1/fr
Publication of EP4332292A4 publication Critical patent/EP4332292A4/fr
Withdrawn legal-status Critical Current

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Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F39/00Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00 
    • D06F39/12Casings; Tubs
    • D06F39/14Doors or covers; Securing means therefor
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/42Safety arrangements, e.g. for stopping rotation of the receptacle upon opening of the casing door
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F23/00Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry 
    • D06F23/02Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry  and rotating or oscillating about a horizontal axis
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/30Driving arrangements 
    • D06F37/302Automatic drum positioning

Definitions

  • the invention relates to the field of drying household appliances, in particular, to a door locking unit of a washing machine, and also to a washing machine.
  • the current washing machine is usually provided with an unlocking unit for unlocking the door, but the unlocking unit only has the function of unlocking, and cannot realize the function of locating the locking position of the washing tub and/or the door. In the process of actually unlocking the door, it should be ensured that the washing tub and/or the door are positioned at a preset position to prevent the rotation of the washing tub from affecting the unlocking process during the unlocking process.
  • An objective of the present invention is to provide a positioning and unlocking unit, which can ensure that the washing tub and/or the machine door are locked in a preset position to unlock the door.
  • the present invention provides a positioning and unlocking unit for a washing machine, comprises a casing; a positioning rod arranged in the casing, the positioning rod capable of extending out of the casing and correspondingly extending into a positioning hole arranged on a washing tub and/or a machine door; a door opening rod arranged in the casing, the door opening rod capable of extending out of the casing to drive to unlock; and a transmission assembly.
  • the positioning rod is extended into the positioning hole for a first movement stroke and then when extending outward for a second movement stroke, the door opening rod is driven to extend to the outside of the casing by the transmission assembly.
  • the positioning and unlocking unit for a washing machine can drive the door opening rod to unlock after the positioning rod is inserted in the positioning hole, so it is ensured that the washing tub and/or the machine door is unlocked at the preset locked position.
  • the transmission assembly comprises, a first rack arranged on the positioning rod and extending along a movement direction of the positioning rod; a third rack, arranged on the door opening rod and extending along the movement direction of the door opening rod; and a fourth gear assembly, provided with a first meshing surface and a second meshing surface.
  • the first meshing surface is engaged and connected the three rack on which the first movement stroke and the second movement stroke are generated, and the second meshing surface is separated from the first rack in the first movement stroke and engaged with the first rack in the second movement stroke.
  • the movement directions of the positioning rod and the door opening rod extending outward are perpendicular to each other, and the first rack is perpendicular to the third rack.
  • the structure of the first rack and the third rack can achieve the movement of the positioning rod vertical to that of the door opening rod.
  • the positioning rod is extended downward and out of the casing, and the first rack is extended in the vertical direction.
  • the door opening rod is extended out of the casing in the horizontal direction, and the third rack is extended in the horizontal direction.
  • the fourth gear assembly is arranged above the third rack, and under the first rack in the first movement stroke, and the first rack is arranged on the left or right side of the fourth gear assembly.
  • the positioning rod is provided with a second rack on which the positioning rod is driven to move downward in a vertical direction, and the second rack is arranged in parallel with the first rack.
  • the second rack is engaged and connected with a second gear assembly, and the second gear assembly is engaged and connected with a power assembly for driving movement.
  • the power assembly comprises a motor, and an output gear sleeved on an output shaft of the motor.
  • the output gear is engaged and connected with a reduction gear set, the final output gear of the reduction gear set is meshed with the second gear assembly.
  • a third gear assembly is arranged between the second gear assembly and the third rack, and the third gear assembly is respectively meshed with the second gear assembly and the third rack.
  • the specific arrangement of the second gear assembly, the third gear assembly, the reduction gear set and the positioning rod in the housing is as follows.
  • the rotating shaft of the second gear assembly is in parallel with the rotating shaft of the motor, and the second gear assembly has a vertical center plane passing through the rotating shaft.
  • Both the reduction gear set and the third gear assembly are arranged on the same side relative to the vertical center plane, and the positioning rod is arranged on the other side relative to the vertical center plane.
  • a running block is fixed on the positioning rod, and the first rack and the second rack are arranged on the running block.
  • the bottom surfaces of the first rack and the second rack are all flush with the bottom surface of the running block.
  • a length of the second rack is larger than a length of the first rack; further preferably, the length of the second rack is equal to a total length of the positioning rod extending outward in the first movement stroke and the second movement stroke.
  • the length of the first rack is equal to the length of the door opening rod extending outward in the second movement stroke.
  • a horizontal distance between the rotation shaft of the fourth gear assembly and the rotation shaft of the third gear assembly is set as L1, and L1 is less than the total length of the door opening rod extending outward in the first running stroke and the second running stroke.
  • a vertical distance between the rotation shaft of the second gear assembly and the rotation shaft of the fourth gear assembly is set as L2, and L2 is equal to the length of the positioning rod extending outward in the first movement stroke.
  • the present invention has the following beneficial effects compared with the prior art.
  • Another object of the present invention is to provide a washing machine door lock detection unit, which can accurately detect the unlocking of the door lock and the positioning of the washing tub and/or the machine door by detecting the position of the positioning rod.
  • the invention provides a door lock detection unit for a washing machine, comprising, a positioning and unlocking device in which a positioning rod and a door opening rod are arranged.
  • the positioning and unlocking device is configured to operate a positioning movement and a unlocking movement.
  • the positioning movement comprises, the positioning rod correspondingly extending into the positioning hole provided on the door and/or the washing tub of the washing machine;
  • the unlocking movement comprises, the positioning rod driving the door opening rod to operate to unlock the door.
  • a detection device is comprised to be used for detecting the position of the positioning rod, and detecting whether the positioning movement and unlocking movement are completed.
  • the door lock detection unit of the present invention can detect the unlocking condition of the door lock and the positioning condition of the washing tub and/or the machine door by detecting the position of the positioning rod.
  • the positioning rod moves along the same linear trajectory; and the detection device detects the position of the positioning rod moving in the linear trajectory.
  • the positioning rod is extended into the positioning hole along the linear trajectory.
  • the unlocking movement the positioning rod inserted into the positioning hole continues to move a outward long the linear trajectory, and drives the door opening rod to operate to unlock the door in outward moving. Since the movement trajectory of the positioning rod is relatively simple and only a linear trajectory, it is more convenient to detect the position of the positioning rod.
  • the detection device is a photosensitive detection device
  • a light shielding plate is provided on the positioning rod
  • a photoelectric panel for emitting light and the photosensitive detection device are disposed at a predetermined position of the linear movement trajectory.
  • At least a part of light sources of the photoelectric panel and the photosensitive detection device are fixedly installed on two sides of the light shielding plate opposite to each other.
  • the photoelectric panel is configured to emit detection light towards the photosensitive detection device, and the light shielding plate shades the detection light emitted by the photoelectric panel when moving to the corresponding position together with the positioning rod.
  • a direction of the detection light emitting from the photoelectric panel to the photosensitive detection device is perpendicular to the movement direction of the positioning rod.
  • the photosensitive detection device comprises a first photosensitive detector and a second photosensitive detector.
  • the first photosensitive detector is arranged on a position of the positioning rod where the positioning movement is executed and corresponding to the position of the light shading plate.
  • the second photosensitive detector is arranged on a position of the positioning rod where the unlocking movement is executed and corresponding to the position of the light shading plate.
  • the first photosensitive detector can detect whether the positioning rod completes the movement of the positioning stage, and the second photosensitive detector can correspondingly detect whether the positioning rod completes the movement of the unlocking stage.
  • the photoelectric panel is provided with a guide hole being extended along the movement direction of the positioning rod for a certain length.
  • the light shading plate is inserted in the guide hole, corresponds to a section of the positioning rod, and moves together with the positioning rod.
  • the first photosensitive detector and the second photosensitive detector are respectively arranged one side of the guide hole.
  • the movement direction of the light shading plate and the positioning rod is perpendicular to the direction of the detection light emitting from the photoelectric panel to the photosensitive detection device.
  • first photosensitive detector and the second photosensitive detector are both provided with control switches, and the control switches are both connected with the motor for providing power for the movement of the door opening rod and the positioning rod. Since the first photosensitive detector and the second photosensitive detector are connected with the motor respectively, the motor can be controlled to turn on the first photosensitive detector and the second photosensitive detector in moving process. That is, the first photosensitive detector and the second photosensitive detector are turned on only during the movement of the positioning rod, to prevent wasting energy.
  • the photosensitive detection device is capable of transmitting a position signal.
  • the door lock detection unit of the washing machine includes a signal receiving device for receiving the position signal.
  • a guide rail groove is provided at the position of the positioning hole of the machine door and/or the washing tub, and the guide rail groove is formed by the positioning hole extending in the movement direction of the positioning rod.
  • the positioning rod inserted in the positioning hole is embedded in the guide rail groove to move.
  • the bottom of the positioning rod is fixedly provided with a slider
  • the guide rail groove is provided with a groove in which the slider is inserted
  • a detection device is installed in the groove for detecting whether the slider is inserted into the groove. That is, the door lock detection unit provided of the present invention can also detect whether the positioning rod is moved in proper place through the arrangement of the guide rail groove, the slider and the groove.
  • the door lock detection unit of the washing machine includes a door closing detection device for detecting whether the machine door is closed in a proper place.
  • the door closing detection device includes a magnet arranged on the machine door, a Hall sensor is installed on the housing and/or the outer tub, and the Hall sensor is used to detect the position of the magnet.
  • the Hall sensor is installed at a place where the magnet arranged on the machine door is detected in closing and locking the machine door.
  • the magnet arranged on the machine door is detected by the Hall sensor.
  • the magnet arranged on the door is not detected by the Hall sensor. It can be detected whether the door locking unit is locked in proper place through the setting of the magnet and the Hall sensor.
  • the door locking device comprises a door hook fixed on the machine door, and a lock body corresponding to the position of the door hook, and the machine door is closed in the proper place to make the lock body lock the door hook.
  • the present invention has the following beneficial effects compared with the prior art.
  • a washing machine of the invention comprises: a washing tub, rotatably arranged in the washing machine; a washing tub door, arranged on the washing tub and being capable of opening and closing the opening of the washing tub; a door locking unit, for locking the washing tub door being closed; and a positioning and unlocking unit, having a positioning structure for locking the washing tub at a set position, and a unlocking structure being used for being driven to unlock the door locking unit by the positioning structure after the washing tub is locked at the set position.
  • the washing machine of the invention can realize the positioning of the washing tub during the process of opening and closing the machine door, and can ensure that the washing tub is unlocked after being positioned.
  • the positioning and unlocking unit includes a door opening rod and a positioning rod.
  • the door locking unit includes a limiting component for keeping the machine door in a locked state.
  • the positioning rod is individually extended into the positioning hole arranged on the washing tub and/or the washing tub door, or the positioning rod drives the door opening rod to contact with and trigger the limiting component to move after extending in the positioning hole.
  • the door locking unit is fixed on the washing tub door, and the positioning and unlocking unit is correspondingly fixed on the wall of the outer tub.
  • a front flange is arranged on the outer tub and corresponds to the position of the washing tub door.
  • An unlocking hole for the door opening rod to pass through is provided on the front flange of the outer tub.
  • the door opening rod is in contact with the limiting component through the unlocking hole; and a sealing member is arranged at the unlocking hole.
  • the door opening rod of the positioning and unlocking unit needs to pass through the unlocking hole on the front flange of the outer tub, and the front flange of the outer tub may come into contact with water, so a seal member can be provided at the unlocking hole for tightness.
  • the washing machine comprises a door lock detection unit for detecting whether the door locking unit locks the washing tub door, detecting whether the positioning and unlocking unit locks the washing tub at the set position, and detecting whether the washing tub door is unlocked by the positioning and unlocking unit.
  • a control method for the aforementioned washing machine of the invention comprises: controlling the positioning and unlocking unit to lock the washing tub at a set position when the washing tub door needs to be opened, and then the washing tub door being operated to be opened.
  • the control method for the washing machine of the invention can ensure that the washing tub is locked at a preset position to open the machine door, prevent danger caused by opening the machine door from happening during the running of the washing machine, and can ensure the normal opening operation of the machine door.
  • the door lock detection unit detects whether the washing tub is locked at the set position by the positioning and unlocking unit, the positioning and unlocking unit is controlled to unlock the door locking unit after determining that the washing tub is locked at the set position, and the washing tub door is operated to be opened after the door lock detection unit detects that the positioning and unlocking unit is unlocked.
  • the positioning rod of the positioning and unlocking unit is controlled to extend into the positioning hole when the positioning and unlocking unit is controlled to lock the washing tub at the set position.
  • the door lock detection unit is controlled to detect the position of the positioning rod when the door lock detection unit detects whether the washing tub is locked at the set position by the positioning and unlocking unit.
  • the positioning rod of the door locking unit is controlled to extend into the positioning hole and drive the door opening rod to contact with and trigger the limiting component to move.
  • control method for closing the door includes the following steps. After the washing tub door is opened and the laundry are put in, and when the washing tub door needs to be closed, the door lock detection unit is controlled to detect whether the positioning unlocking unit locks the washing tub at the set position. The operation of closing the washing tub door is executed when it is determines that the positioning unlocking unit keeps the washing tub being locked at the set position.
  • the door locking unit is controlled to lock the washing tub door, and the door lock detection unit detects whether the washing tub door is locked.
  • the positioning and unlocking unit is controlled to release the washing tub from being locked at the set position.
  • the door lock detection unit is controlled to detect whether the positioning and unlocking unit releases the washing tub from being locked at the set position, and the washing machine is controlled to run after determining that the washing tub is released from being locked at the set position.
  • the door locking detection unit detects whether the positioning rod is extended into the positioning hole.
  • the positioning rod of the positioning and unlocking unit is controlled to extend out of the positioning hole.
  • the door lock detection unit detects whether the positioning rod extends out of the positioning hole.
  • the present invention has the following beneficial effects compared with the prior art.
  • Another object of the present invention is to provide a door locking unit of a washing machine, in which the limiting component in the door locking unit of the washing machine has a reasonable structure, so the effect of guiding the rotational movement of the locking portion is achieved.
  • a door locking unit of a washing machine in the invention includes, a door hook fixed with a machine door, a locking portion being capable of rotating to hook the door hook, and a limiting component moving to the locking portion hooking with the door hook for limitation.
  • a guiding slope is arranged on the limiting component, the locking portion is driven to move to be in contact with the guiding slope of the limiting component, and the guiding slope guides the locking portion to rotate.
  • the structural of the limiting component in the door locking unit of the washing machine of the present invention is reasonable, and can guide the locking portion to rotate according to the set trajectory.
  • the limiting component is provided with a limiting column with a shape of basically rectangle, and the guiding slope is provided on the limiting column near a top corner of the locking portion.
  • the guiding slope is a slope being downward extended from the top of the limiting column, and the guiding slope is used for guiding the locking portion to rotate clockwise.
  • a side surface being as a second limiting surface of the limiting column is connected with the guiding slope and close to the locking portion capable of rotating, and a side surface of the locking portion is a third limiting surface corresponding to the second limiting surface.
  • the second limiting surface and the third limiting surface are in limited contact with each other.
  • a limiting surface for locking the locking portion is also provided on the limiting column. The limiting surface of the locking portion and the guiding slope are arranged on the same limiting column, so that the structure of the limiting component is relatively simple.
  • the limiting component has a base perpendicular to the limiting column, and the limiting column and base compose "L"-shaped structure in middle of which there is a space.
  • the locking portion being in static is embedded in the space.
  • An end surface of the locking portion perpendicular to the rotation shaft abuts against the first limiting surface of the limiting column.
  • the door locking unit of the washing machine has a shell, a limiting component is arranged in the shell, and a compression spring is arranged between the shell and the side surface of the limiting component perpendicular to the rotation shaft of the locking portion. The limiting component being in static compresses the compression spring.
  • one end of the limiting component is extended to the outside of the shell (3).
  • the one end the limiting component being not provided with the compression spring is extended to the outside of the shell.
  • the limiting component can be extended to the outside of the shell, so that the limiting component can be activated by other external structures to unlock the door.
  • the specific structure of the rotatable locking portion is as follows.
  • a support rod is fixed in the shell.
  • the locking portion is sleeved on the support rod, and torsion springs are respectively sleeved on the support the rod and on both sides of the locking portion.
  • the door hook comprises a hook portion extending into the shell, and the hook portion is provided with a locking hole for hooking the locking portion.
  • a guide rail for guiding the hook portion to extend into is arranged in the shell, and the guide rail is extended from the top of the shell corresponding to the door hook toward the interior of the housing.
  • the locking portion is set as a "C"-shaped structure with an opening facing to the door hook, and the opening of the locking portion is locked with the locking hole of the door hook.
  • the door locking unit for the washing machine further comprises a door manually opening portion embedded in the shell; and the door manually opening portion drives the limiting component to move. By setting the door manually opening portion, the door can be unlocked by pressing the door manually opening portion.
  • a first contact surface protruding outward is provided on the limiting component, and the second contact surface of the door manually opening portion is correspondingly set as being inclined outwards and upward from the bottom.
  • the first contact surface is in contact with the second contact surface when the door manually opening portion is pressed.
  • the shell is provided with a mounting hole for inserting the door manually opening portion, a button is provided on the top of the door manually opening portion, the button is protruded out of the installation hole; and the bottom of the door manually opening portion is provided with a compression spring.
  • the button on the door manually opening portion is convenient for pressing, and the compression spring is convenient for reset after pressing.
  • the present invention has the following beneficial effects compared with the prior art.
  • the present invention provides a washing machine, in which a washing tub for washing laundry is arranged, and a washing tub door 42 is arranged on the washing tub.
  • a supporting shell and/or an outer tub is arranged outside the washing tub, and a washing machine door 43 is disposed on the supporting shell and/or the outer tub at a position corresponding to the washing tub door 42 of the washing tub.
  • the washing machine of the present invention is provided with a door lock system for locking and unlocking the door.
  • the door lock system includes a door locking unit 40 that is used for locking the washing machine door after being closed, and a positioning unlocking unit 41 that is used for unlocking the door locking unit 40 accordingly.
  • the positioning and unlocking unit 41 can also position the locking position of the washing tub.
  • the structure of the door lock can be applied to the washing machine door 43 and/or the washing tub door 42.
  • the door locking unit 40 can be applied to the washing tub door 42, and can also be applied to the washing machine door 43.
  • the door locking unit 40 includes a door hook fixed with the washing machine door, and a locking device fixed on the washing tub or on the supporting shell. When the washing machine door is closed, the door hook is correspondingly extended into the locking device and is hooked by the locking device to lock the washing machine door.
  • a door hook is provided on the washing tub door 42 and a locking device may be is provided on the washing tub to lock the washing tub door 42.
  • a door hook is provided on the washing machine door 43 and a locking device is provided on the supporting shell to lock the washing machine door 43.
  • the positioning and unlocking unit 41 has a positioning rod 22.
  • the positioning rod 22 is capable of penetrating through a positioning hole to realize the position.
  • the positioning and unlocking unit 41 also has a door opening rod 23.
  • the door opening rod 23 can activate to disengage the door hook from the locking device of the door locking unit after the desired movement, to realize the unlocking of the door. That is, the positioning and unlocking unit 41 of the present invention can realize the positioning function and the unlocking function.
  • the positioning and unlocking unit 41 can be set on the washing tub corresponding to the door locking device on the washing tub door 42, and the positioning hole can be set on the front flange of the washing tub, so that the position where the washing tub is locked together the washing tub door 42 is positioned.
  • the positioning and unlocking unit 41 can be arranged on the supporting shell.
  • the door locking system of the washing machine of the present invention can enable the washing tub door 42 and the washing machine door 43 to be opened or locked separately.
  • the door locking system can also realize to position the position where the washing tub is locked together the door.
  • the present invention also provides a method for controlling the inner door and outer door with respect to the above-mentioned door locking system, and the method of the present invention can reasonably control to open or close the inner door and outer door.
  • the door locking unit 40 for locking and unlocking a machine door.
  • the door locking unit 40 includes a door hook 1 fixed with the machine door.
  • the door hook 1 is capable of moving with the machine door during the process of closing the machine door.
  • the door locking unit 40 also includes a lock body for locking the door hook 1.
  • the lock body has a shell. When the machine door is closed, the door hook 1 is extended into the lock body and is locked by the lock body, thereby locking the machine door.
  • the lock body includes a locking portion 4 being rotatable.
  • the locking portion 4 can hook the door hook 1 when rotating in one direction, and can be disengaged from the door hook 1 when the rotating in the opposite direction.
  • the lock body also includes a limiting component 2 for limiting the movement state of the locking portion 4.
  • the limiting component 2 abuts against the locking portion 4 to keep the locking portion 4 being in stationary, thereby ensuring that the locking portion 4 continuously and stably locks the door hook 1.
  • the limiting component 2 can be moved to release the limit on the locking portion 4.
  • the locking portion 4 rotates in the opposite direction, and the locking portion is disengaged from the door hook 1 to unlock the machine door.
  • the lock body includes a shell 3 in which a locking portion 4 is rotatably arranged.
  • a support rod 10 is arranged in the shell 3, and both ends of the support rod 10 are fixed on the shell 3 of the lock body.
  • the locking portion 4 being capable of rotating is sleeved on the support rod 10, and the locking portion 4 is fixed in the shell 3 by the support rod 10.
  • the limiting component 2 has a structure similar to an "L" shape. When the locking device does not start to move, the locking portion 4 is embedded in the space of the "L"-shaped structure of the limiting component.
  • the "L"-shaped structure is composed of a limiting column 44 being vertical and a horizontal base vertical to the limiting column.
  • the locking portion 4 When the locking portion 4 is embedded in the space of the "L"-shaped structure, the surface 5 of the locking portion 4 being perpendicular to the rotation axis abuts against a first limiting surface 6 of the limiting column 44. That is, at the beginning of the movement, the locking portion 4 and the limiting block 2 are engaged with each other to limit the position.
  • a compression spring is arranged between the shell 3 and the side of the limiting component 2 that is perpendicular to the rotation shaft of the locking portion 4.
  • the limiting component 2 compresses the compression spring when it is stationary at the beginning of movement. That is, when the locking portion 4 is in a stationary state, the limiting component 2 is limited by the locking portion 4 being in stationary state, and the limiting component 2 compresses the compression spring.
  • a guiding slope 7 is provided on the limiting column 44 at the edge position corresponding to the locking portion 4 being capable of rotating.
  • the locking portion 4 being rotating can be in contact with the guiding slope 7 of the limiting component 2 being in moving.
  • the locking portion 4 rotates according to a set trajectory under the guiding action of the guiding slope 7 in contact therewith.
  • the guiding slope 7 is a slope being downward extended from the top of the limiting column 44 and being gradually oblique to the shell, so that the locking portion 4 in contact with the guiding slope 7 is easily guided to rotate clockwise by the guiding slope 7.
  • the locking portion 4 being in rotating clockwise is easy to hook the door hook 1, and the locking portion 4 being hooked in the door hook 1 abuts against the limiting component 2 for limitation. That is, the locking portion 4 is locked by the limiting component 2.
  • Figure 3 shows the specific structure that the limiting column 44 abuts the locking portion 4 hooking the door hook 1.
  • the limiting column 44 has a second limiting surface 8 parallel to the rotation axis of the locking portion 4, the locking portion 4 has a third limiting surface 9 parallel to the rotation axis, and the second limiting surface 8 of limiting column 44 is contact with the third limiting surface 9 of the locking portion 4 after being rotated. That is, the limiting column 44 can lock the locking portion 4 hooking the door hook 1, thereby locking the machine door.
  • the second limiting surface 8 of the limiting column 44 is connected with the guiding slope 7, and the second limiting surface 8 is on the side close to the locking portion 4 being capable of rotating.
  • the locking portion 4 rotates, and is guided by the guiding slope 7 to be contact with the second limiting surface 8 of the limiting column 44 for limitation, so the limiting component 2 can lock the locking portion 4.
  • the second limiting surface 8 does not limit the position of the third limiting surface 9, and the locking portion 4 rotates in the opposite direction under the action of the torsion spring 11, so that the locking portion 4 is disengaged from the door hook 1.
  • portion of the limiting component 2 is disposed outside the shell 3, so that other structures can push the limiting component 2.
  • the compression spring provided on the limiting component 2 is in a compressing state.
  • other structures push the portion of the limiting component 2 located outside the shell 3, and the limiting component 2 is driven to move for unlocking under the action of the compression spring.
  • the door hook 1 is separated from the locking portion, and the machine door is unlocked.
  • the end of the limiting component 2 without the compression spring is in the outside of the shell 3, and the portion extending to the outside of the shell 3 is used for being driven the limiting component 2 to move by the other structure.
  • the specific structure of the door hook 1 is shown in the figure 1 .
  • the door hook 1 includes a fixing portion 15 fixed to the machine door.
  • the fixing portion 15 can be provided with screw holes and bolt holes, and the door hook 1 is fixed on the door by screw connection.
  • other fixing structures such as snaps may also be arranged on the fixing portion 15 to fix the door hook 1 on the machine door.
  • the door hook 1 is provided with screw holes.
  • the machine door is provided with an installation groove for installing the door hook 1, the fixing portion 15 of the door hook 1 can be embedded in the installation groove, and the fixing portion 15 of the door hook 1 is fixed in the installation groove through screw connection.
  • the fixing portion 15 on the door hook 1 is disposed outside the shell 3 and is fixed on the machine door.
  • the door hook 1 further includes a hook portion 12 connected with the fixing portion 15.
  • the hook portion 12 extends toward the interior of the shell 3 from the position connected to the fixing portion 15, and a part of the hook portion 12 in the interior of the shell 3 is provided with a locking hole 13.
  • the door hook 1 moves with the machine door, and the hook portion 12 of the door hook 1 is contacted with the locking structure.
  • the hook portion 12 triggers the locking portion 4 to the rotate, and a part of the locking portion 4 is inserted into the locking hole 13.
  • the door hook is connected with the locking portion 4 in insertion mode to lock the door hook, so that the machine door is locked.
  • the door hook 1 needs to move according to a preset trajectory, so that the locking hole 13 on the door hook 1 is engaged with the locking portion 4, and the machine door is locked. Therefore, in order to better define the running trajectory of the door hook 1, a guide rail 14 for guiding the door hook 1 to run is provided in the shell 3 of the locking structure.
  • the guide rail 14 is extended from the top of the shell 3 corresponding to the door hook 1 toward the interior of the shell 3.
  • the hook portion 12 of the door hook 1 is inserted in the guide rail 14.
  • the hook portion 12 runs in the direction set by the guide rail 14. As described above, the door can be guaranteed to be properly locked and unlocked.
  • the door hook 1 when the machine door is closed, the door hook 1 is inserted into the locking portion 4, the door hook 1 is contacted the locking portion 4, and drives the locking portion 4 to be inserted into the locking hole 13 on the door hook 1.
  • the locking portion 4 is set as a "C"-shaped structure with an opening 16 facing the locking hole 13, and the opening 16 of the "C"-shaped structure can be inserted into the locking hole 13 of the door hook 1.
  • the locking portion 4 is rotated by being contacted with the door hook 1. During the rotation, the locking hole 13 of the door hook 1 is inserted into the opening 16 of the "C"-shaped structure.
  • the limiting component 2 moves to a position where the "C"-shaped structure abuts against the limiting component 2, so that the door hook 1 remains being locked by the "C"-shaped structure, thereby the machine door is locked.
  • the second limiting surface 8 of the limiting component 2 abuts on the third limiting surface 9 of the locking portion 4 for limitation.
  • the third limiting surface 9 is the surface of "C"-shaped structure of the locking portion 4 opposite to the opening 16.
  • the locking structure also needs to be provided with a torsion spring 11, so that the locking portion 4 of the locking structure rotates in unlocking, and the "C"-shaped structure of the locking portion 4 is disengaged from the door hook 1.
  • the torsion spring 11 is sleeved on the support rod 10, and is arranged on both end surfaces of the locking portion 4 that are perpendicular to the rotation axis.
  • the structure of the limiting component 2 in the door locking unit 40 provided in this embodiment is reasonable.
  • the limiting component 2 includes a plurality of surfaces which can be in contact with the locking portion 4. Through the arrangement of the surfaces, the locking portion 4 is limited by the limiting component 2 to not rotate in stationary state. After the locking portion 4 is driven to move, it is guided by the limiting component 2 to rotate according to the set trajectory, and the locking portion 4 hooks the door hook 1 and is locked by the limiting component 2.
  • the structure of the door locking unit 40 provided in this embodiment is reasonable, so that the machine door can be locked and unlocked by pushing the part of the limiting component 2 located outside the shell 3. The machine door can be locked and unlocked only by the movement of the limiting component 2, and the operation is relatively simple.
  • This embodiment provides a door locking unit 40 on the basis of Embodiment 1.
  • the door locking unit 40 has the door hook 1, the locking portion 4 and the limiting component 2 as described above.
  • the door hook 1 can be interlocked with the locking portion 4 to lock the machine door, and the limiting component 2 is used to keep the door hook 1 stably interlocking with the locking portion 4, or to disengage the door hook 1 from the locking portion 4.
  • the difference between the door locking unit 40 of the present embodiment and the door locking unit 40 of Embodiment 1 is that, the door locking unit 40 of the present embodiment is provided with a door manually opening portion 17 by which the movement of the limiting component 2 is manually controlled, so that the door locking unit 40 can be manually controlled to unlock the machine door.
  • the shell 3 of the door locking unit 40 is provided with a mounting hole into which the door manually opening portion 17 is inserted.
  • the top of the door manually opening portion 17 is provided with a button 20 being protruded, which is convenient for pressing the door manually opening portion 17 downward.
  • the button 20 protrudes from the surface of the shell 3 of the door locking unit 40, so that the button 20 can be pressed when it is required.
  • the door manually opening portion 17 inserted into the shell 3 has a surface being contacted with the surface of the limiting device. The surfaces in contact with each other are respectively the first contact surface 18 of the limiting component 2 and the second contact surface 19 of the door manually opening portion 17.
  • the limiting component 2 is provided with a contact portion that can be in contact with the door manually opening portion 17 being in embedded.
  • the contact portion is disposed on the side of the limiting component 2 close to the door manually opening portion 17, corresponding to the door manually opening portion.
  • the first contact surface 18 is set on the contact portion, and the first contact surface 18 is set as a curved surface being protruded outward.
  • the second contact surface 19 of the door manually opening portion 17 is correspondingly set as an inclined surface gradually inclining outward from the bottom. The door manually opening portion 17 moves downward through pressing the button 20.
  • the second contact surface 19 pushes the first contact surface 18, that is, the limiting block 2 is driven to move.
  • the compression spring located at the end of the limiting component 2 is in a compressed state when the door is locked. Once the limiting component 2 is driven to move, the compression spring drives the limiting component 2 to disengage from the locking structure, thereby making the door hook 1 disengage from the locking structure to complete the unlocking of the door.
  • a compression spring is also arranged on the door manually opening portion, for example, the compression spring can be arranged at the bottom of the door manually opening portion.
  • the door manually opening portion After pressing the button 20 of the door manually opening portion for unlocking, the door manually opening portion is reset under the action of the compression spring.
  • the second contact surface 19 and the first contact surface 18 cooperate to limit the position, and the second contact surface 19 is finally stuck by the first contact surface 18. It is ensured that the door manually opening portion 17 is reset to the preset position, and the door manually opening portion can be used normally next time.
  • the door manually opening portion 17 is arranged inside the locking device, it can be ensured that the door can be manually unlocked under any circumstances.
  • This embodiment provides a positioning and unlocking unit 41 of a machine door for unlocking the machine door and positioning the locking position.
  • the positioning and unlocking unit 41 is suitable for all washing machine doors, and is especially suitable for unlocking the washing tub door 42 disposed on the washing tub.
  • the positioning and unlocking unit 41 as shown in figure 5 , has a door opening rod 23 and a positioning rod 22.
  • the positioning rod 22 is used for positioning the locking position
  • the door opening rod 23 is used for unlocking the machine door.
  • both the positioning rod 22 and the door opening rod 23 remain stationary inside the positioning and unlocking unit 41.
  • the positioning and unlocking unit 41 performs positioning and unlocking, it is subject to two movement stages.
  • the first stage is the positioning stage.
  • the positioning rod 22 extends to the outside of the positioning and unlocking unit 41, and is inserted into the positioning hole for positioning the positioning rod 22.
  • the positioning rod 22 passes through the positioning hole to realize to position the washing tub.
  • the positioning hole can be set on the washing tub door 42 and/or the washing tub.
  • the washing machine stops running the washing tub and the washing tub door 42 are positioned at a preset position. At this time, the position of the positioning hole corresponds that of the positioning rod 22.
  • the washing tub and/or the washing tub door 42 can be locked in a preset position.
  • the positioning hole can be provided on the front flange of the outer tub. Once the washing machine stops running, the washing tub door 42 and the washing tub are positioned at the preset position. At this time, the positioning hole on the front flange of the washing tub corresponds to the positioning rod 22, and the positioning rod 22 is controlled to move downward to the positioning hole. Thereby the washing tub and/or the washing tub door 42 can be positioned at the locking position.
  • a guide groove can also be provided at the positioning hole of the front flange of the washing tub, and the positioning rod 22 can be embedded in the guide groove to accurately define the movement trajectory of the positioning rod 22.
  • a sliding block can also be provided on the positioning rod 22, and a groove in which the sliding block is inserted is provided on the guide groove. After the positioning rod 22 completes the movement for positioning, the sliding block can be controlled to be embedded in the groove. In this way, by arranging a detection device in the guide groove and/or groove, the detection device can detect whether the positioning is completed.
  • the positioning rod 22 and/or the sliding block move to the preset position in the guide groove and/or groove, and the detection device detects the positioning rod 22 and/or the sliding block.
  • the positioning and unlocking unit 41 in the embodiment cannot only use the positioning rod 22 to position the washing tub and the machine door, and but also can use the detection device to detect whether the positioning is successfully completed.
  • the door opening rod 23 moves in the horizontal direction to the outside of the positioning and unlocking unit 41. That is, the door opening rod 23 moves toward the door locking unit 40, so that the door opening rod 23 triggers the door locking unit 40 to unlock.
  • the positioning rod 22 is inserted into the positioning hole, and the door opening rod 23 extends toward the door locking unit 40 for a certain distance. So, when the unlocking operation is performed later, the door opening rod 23 can continue to extend outward and extend to a position where being contact with the door locking unit 40, to trigger door locking unit to unlock.
  • the door opening rod 23 moves in the horizontal direction and the positioning rod 22 moves in the vertical direction as an example.
  • the desired movement trajectories of the door opening rod 23 and the positioning rod 22 can also be adjusted.
  • the movement directions of the door opening rod 23 and the positioning rod 22 are perpendicular to each other. After the installation direction of the positioning and unlocking unit 41 is changed, the door opening rod 23 can also be moved in the vertical direction, and the positioning rod 22 can be moved in the horizontal direction.
  • the positioning unlocking unit 41 is in the unlocking stage.
  • the door opening rod 23 continues to move toward the outside of the positioning and unlocking unit 41 in the horizontal direction, and the door opening rod 23 contacts and triggers the door locking unit 40 arranged on the machine door, so that the door locking unit 40 is unlocked.
  • the positioning and unlocking unit 41 of this embodiment is first in the positioning stage and then in the unlocking stage during operation, so that the washing tub and the machine door are locked at the preset positions before unlocking, and the washing tub and the machine door are locked at the preset positions in the unlocking process of the machine door.
  • the structures of the positioning and unlocking unit 41 such as the positioning rod 22 of this embodiment can also be used to ensure that the washing tub and the machine door are locked at preset positions. That is, the positioning and unlocking unit 41 in this embodiment can enable the washing tub to be at a preset position during the process of opening and closing the machine door of the washing machine.
  • the positioning unlocking unit 41 includes a first drive system for providing power for the movement in the positioning stage.
  • the first drive system includes a motor 24.
  • the motor 24 includes an output shaft that outputs rotational motion.
  • An output gear 25 is sleeved on the output shaft, and the output gear 25 is meshed with a first gear 35.
  • a first gear assembly 26 is mainly used for decelerating and transmitting the rotational motion, and the first gear assembly 26 is a reduction gear set.
  • the first gear assembly 26 includes the first gear 35 with a larger number of teeth and a second gear 36 with a smaller number of teeth.
  • the first gear 35 and the second gear 36 are coaxially arranged.
  • the output gear 25 is meshed with the first gear 35 with a larger number of teeth, and the rotation of the first gear 35 can drive the second gear 36 to rotate. That is, through the connection between the output gear 25 and the first gear 35 of the first gear assembly 26, the rotational movement output by the motor 24 is decelerated.
  • the first gear assembly 26 is meshed with the second gear assembly 27.
  • the second gear 36 of the first gear assembly 26 is meshed with the second gear assembly 27.
  • the second gear assembly 27 provides power to drive the door opening rod 23 and the positioning rod 22 to respectively move in the desired direction.
  • the second gear assembly 27 drives the positioning rod 22 to move downward, and the third gear assembly 31 drives the door opening rod 23 to move outward for a distance. Since the second gear assembly 27 provides power for the positioning rod 22 and the door opening rod 23, the second gear assembly 27 needs to bear a relatively large force, so the strength of the second gear assembly 27 needs to be enhanced.
  • a reinforcing rib is arranged on the second gear assembly 27.
  • the purpose of setting the third gear assembly 31 is to make the door opening rod 23 is extended out for a certain distance during the unlocking stage.
  • the positioning rod 22 continues to drive the door opening rod 23 to extend outwards, so the total length of the door opening rod 23 extending out is ensured, and the door opening rod 23 must be able to contact with the door locking unit to trigger the unlocking.
  • the first gear assembly 26, the second gear assembly 27, and the third gear assembly 31 are all fixed gears whose rotation shafts are fixed.
  • the positioning and unlocking unit 41 further includes a running block 28.
  • the running block 28 is embedded in the positioning rod 22, and the positioning rod 22 can move with the running block 28.
  • a second rack 29 is provided on the running block 28 at a position corresponding to the second gear assembly 27, and the second rack 29 is engaged with the second gear assembly 27.
  • the second gear assembly 27 can drive the second rack 29 to move, and further drives the running block 28 and the positioning rod 22 to move, and finally the positioning rod 22 realizes the positioning movement.
  • the second gear assembly 27 is connected with the second rack 29 to provide power for the movement of the positioning rod 22 in the positioning stage.
  • the positioning and unlocking unit 41 has a casing 21.
  • the first gear assembly 26, the second gear assembly 27, and the third gear assembly 31 are all arranged in the casing 21, and both the positioning rod 22 and the door opening rod 23 can be retracted in the casing 21, so it results that more structures are in the casing 21.
  • the rotation shaft of the second gear assembly 27 is arranged parallel to the rotation shaft of the motor 24.
  • the second gear assembly 27 has a vertical center plane passing through the rotation shaft, and the first gear assembly 26 and the third gear assembly 31 are arranged on the same side relative to the vertical center plane.
  • the positioning rod 22 is arranged on the other side relative to the vertical center plane.
  • the positioning rod 22 and the third gear assembly 31 are arranged on the two sides of the second gear assembly 27 respectively, so that the movements of the positioning rod 22 and the door opening rod 23 are not interfered with each other.
  • the first gear assembly 26, the second gear assembly 27, and the third gear assembly 31 are connected in sequence, and there is a height difference between the first gear assembly 26 and the third gear assembly 31, so the first gear assembly 26 and the third gear assembly 31 are provided on the same side.
  • the positioning and unlocking unit 41 can simultaneously control the door opening rod 23 and the positioning rod 22 to move.
  • the motor 24 first drives the first gear assembly 26 to rotate at a reduced speed, and then the first gear assembly 26 drives the second gear assembly 27 to rotate.
  • the rotation of the second gear assembly 27 drives a third rack 30 and the third gear assembly 31 to rotate.
  • the positioning rod 22 is driven to move downward, and simultaneously the door opening rod 23 to move toward the outside of the positioning and unlocking unit 41 in the horizontal direction.
  • the positioning and unlocking unit 41 is provided with a fourth gear assembly 33 which can push the door opening rod 23 to move further outward.
  • the fourth gear assembly 33 is also a fixed gear with a fixed rotating shaft.
  • the fourth gear assembly 33 is arranged above the third rack 30 of the door opening rod 23, and the fourth gear assembly 33 is always contact with the third rack 30 of the door opening rod 23. Once the fourth gear assembly 33 starts to rotate, the first meshing surface on the fourth gear assembly 33 is in meshing connection with the third rack 30.
  • the first rack 32 is set on the surface of the running block 28 corresponding to the fourth gear assembly 33, and the first rack 32 continues to descend with the running block 28 during the positioning stage.
  • the running block 28 and the first rack 32 thereon move to a preset position.
  • the fourth gear assembly 33 is set at a position where it can be engaged and connected with the first rack 32 moving to the preset position.
  • the first rack 32 of the running block 28 reaches the position where it engages with the fourth gear assembly 33, to drive the fourth gear assembly 33 to rotate, and then the fourth gear assembly 33 pushes the door opening rod 23 to perform an unlocking movement.
  • the door opening rod 23 again extends toward the outside of the positioning and unlocking unit 41 and triggers the door locking unit 40, so that the door locking unit 40 completes the unlocking action.
  • the vertical distance between the rotation shaft of the fourth gear assembly 33 and the door opening rod 23 is equal to the vertical distance between the rotation shaft of the third gear assembly 31 and the door opening rod 23. In this way, the force on the door opening rod 23 can be relatively uniform, and the door opening rod 23 can be ensured to move in the horizontal direction.
  • a rectangular protrusion 34 is provided on the running block 28.
  • a second rack 29 is provided on the side of the protrusion 34 corresponding to the second gear assembly 27.
  • the first rack 32 is provided on the other side of the protrusion 34 parallel with the side on which the second rack 29 is arranged. A.
  • the positioning rod 22 can be driven by the second gear assembly 27, and the positioning rod 22 can also drive the fourth gear assembly 33 to move, thereby saving space in the casing 21.
  • the lower end of the first rack 32 and the lower end of the second rack 29 are flush with the lower end of the running block 28, so that the shape of the protrusion 34 is relatively simple. Since the positioning rod 22 is driven to extend downward by the second rack 29 during the whole movement of the positioning stage and the unlocking stage, the length of the second rack 29 is sufficient to allow the positioning rod 22 to complete the whole movement of the positioning stage and the unlocking stage. That is, the length of the second rack 29 is greater than or equal to the total length of the positioning rod 22 extending outward in the positioning stage and the unlocking stage.
  • the length of the second rack 29 is equal to the total length of the positioning rod 22 extending outward during the movement of the positioning stage and the movement of the unlocking stage.
  • L5 is a length for which it goes through that the positioning rod 22 moves downward in the positioning stage.
  • L4 is a length for which it goes through that the positioning rod 22 moves downward in the unlocking stage. So the length of the second rack 29 is equal to L4 plus L5.
  • the first rack 32 drives the door opening rod 23 to move in the unlocking stage, the length of the first rack 32 satisfies the movement of the door opening rod 23 in the unlocking stage, so the length of the first rack 32 is greater than or equal to the length extending outward of the door opening rod 23 in the unlocking stage.
  • the length of the second rack 29 is larger than the length of the first rack 32.
  • both the fourth gear assembly 33 and the third gear assembly 31 drive the third rack 30 on the door opening rod 23 to move.
  • the horizontal distance between the rotation shaft of the fourth gear assembly 33 and the rotation shaft of the third gear assembly 31 is L1
  • the third rack 30 starts to move leftward from the position in contact with the third gear assembly 31. If L 1 is greater than the total length extending outwards of the door opening rod 23 in the positioning stage and the unlocking stage, the third rack 30 may not be in meshing contact with the fourth gear assembly 33. So L1 is smaller than the total length extending outwards of the door opening rod 23 in the positioning stage and the unlocking stage.
  • the second rack 29 of the positioning rod 22 begins to mesh with the second gear assembly 27 at the position of the rotating shaft
  • the first rack 32 of the positioning rod 22 begins to mesh with the fourth gear assembly 33 at the position of the rotating shaft.
  • the vertical distance between the rotation shaft of the second gear assembly 27 and the rotation shaft of the fourth gear assembly 33 is L2
  • the length of L2 is greater than or equal to the length extending outward of the positioning rod 22 in the positioning stage, to ensure the positioning rod 22 completes the movement in the positioning stage. Therefore, in order to save the space in the housing of the positioning and unlocking unit, preferably, the length of L2 is equal to the length extending outward of the positioning rod 22 in the positioning stage.
  • the positioning and unlocking unit 41 in this embodiment includes the door opening rod 23 and the positioning rod 22.
  • the structure in the positioning and unlocking unit 41 enables the positioning rod 22 to position the locking position of the washing tub, and enables the door opening rod 23 to realize to unlock the door.
  • the positioning rod 22 inserting into the positioning hole drives the door opening rod 23 to perform the unlocking movement, so that the washing tub and/or the machine door are locked in the preset position before unlocking.
  • the door lock detection unit of the washing machine in this embodiment can be used to detect the state of the machine door lock.
  • the door lock may include the door locking unit 40 in Embodiment 1 and Embodiment 2, and the positioning and unlocking unit 41 in Embodiment 3.
  • the door lock detection unit of the washing machine includes a door opening rod 23 for triggering to unlock the door lock, and a positioning rod 22 for positioning the door lock and/or the washing tub.
  • the door opening rod 23 and the positioning rod 22 can be linked with each other.
  • the door lock detection unit of the washing machine also includes a detection device for detecting the positioning rod 22 and judging the state of the door lock.
  • the positioning rod 22 realizes the positioning of the washing tub and/or the door, and then the positioning rod 22 drives the door opening rod 23 to move. Therefore, when the door opening rod 23 does not perform unlocking the machine door, or the door opening rod 23 has finished unlocking the machine door, the positioning rod 22 also has different movement states and/or moves to different positions. So the positioning rod 22 can be detected by the detection device to determine the movement state of the door lock.
  • the door opening rod 23 In the process of actually unlocking the machine door, the door opening rod 23 needs to be contacted and trigger the door locking unit 40 as described in Embodiments 1 and 2.
  • the detection device is not arranged between the door opening rod 23 and the door locking unit 40. As a result, it is difficult to detect the door opening rod 23.
  • the door opening rod 23 is interlocked with the positioning rods 22, such as the positioning and unlocking unit 41 in Embodiment 3, as described above, the movement of the positioning rod 22 can be detected to detect whether the door lock is unlocked.
  • the door opening rod 23 and the positioning rod 22 go through different movement stages in the process of unlocking and positioning, and different stages respectively correspond to different states of the door lock. Therefore, the state of the door lock can be determined by detecting the movement stage of the positioning rod 22.
  • the positioning and unlocking unit 41 in Embodiment 3 the positioning and unlocking unit 41 can control the positioning rod 22 and the door opening rod 23 to perform the movements in the positioning stage and the unlocking stage.
  • the positioning rod 22 is inserted into the positioning hole to achieve positioning.
  • the door opening rod 23 is extended out of the positioning and unlocking device.
  • the door lock When the positioning rod 22 and the door opening rod 23 complete the movement of the positioning stage, the door lock is in a locked state, and the washing tub and the machine door are in a state of being locked in the preset position.
  • the door opening rod 23 and the positioning rod 22 complete the unlocking stage the door lock is in an unlocked state, and the washing tub and the machine door are still locked in the preset position.
  • the position of the positioning rod 22 changes constantly in the positioning stage and the unlocking stage, so the detection device can detect the position of the positioning rod 22 to determine the movement stage of the positioning rod 22, and then to determine the above state of the machine door and the door lock.
  • the positioning and unlocking unit 41 can also be different from the positioning and unlocking unit 41 in Embodiment 3. As long as the door opening rod 23 is linked with the positioning rod 22, and the positioning rod 22 is in different positions in different movement stages, it can be determined the state of the door lock and/or the machine door according to the position of the positioning rod 22.
  • the positioning rod 22 moves along the same linear trajectory during the positioning stage and the unlocking stage, and the detection device can detect the movement position of the positioning rod 22 in the linear trajectory.
  • the positioning rod 22 moves in a linear trajectory, so that the movement trajectory of the positioning rod 22 is relatively simple.
  • the trajectory of the movement position of the positioning rod 22 is easily detected, and the detection device is easily arranged.
  • the positioning and unlocking unit 41 in Embodiment 3 can realize that the positioning rod 22 moves along the same linear trajectory in the positioning stage and the unlocking stage.
  • the detection device is arranged in the linear movement trajectory of the positioning rod 22.
  • the detection device may be an image acquisition device or an electrical signal detection device.
  • a photosensitive detection device As shown in figure 7 , a light shielding plate 37 is arranged on the positioning rod 22, and a photosensitive detection device is arranged at the linear movement trajectory of the positioning rod 22.
  • a photoelectric panel 38 for emitting light is disposed at a position corresponding to the linear movement trajectory of the positioning rod 22.
  • the light shading plate 37 is fixed on the positioning rod 22, and the positioning rod 22 drives the light shading plate 37 to move.
  • the light shading plate 37 shades the light in different positions, and the photosensitive detection device detects the different positions shading light, so the position of the positioning rod 22 can be positioned.
  • part of the light sources of the photoelectric panel 38 and the photosensitive detection device are arranged on both sides of the light shading plate 37, so that part of the light emitted by the photoelectric plate 38 to the photosensitive detection device is shaded by the light shading plate 37.
  • the light shading plate 37 is provided on the running block 28 fixed on the positioning rod 22.
  • a guide hole 39 is provided on the photoelectric panel 38, and the light shading plate 37 can be inserted into the guide hole 39 correspondingly and run along the direction defined by the guide hole 39, so that the movement of the light shading plate 37 can be limited.
  • the photosensitive detection device is arranged along the guide hole 39, so that it can be ensured that the photosensitive detection device detects that the light is shaded.
  • the photosensitive detection device includes a first photosensitive detector and a second photosensitive detector.
  • the first photosensitive detector is arranged at the position of the positioning rod 22 where the positioning stage is executed and corresponding to the position of the light shading plate 37.
  • the second photosensitive detector is arranged at the position of the positioning rod 22 where the unlocking stage is executed and corresponding to the position of the light shading plate 37.
  • Both the first photosensitive detector and the second photosensitive detector are arranged on the photoelectric plate 38. In this way, when the first photosensitive detector detects that the light is shaded, the positioning rod 22 completes the movement of the positioning stage. When the second photosensitive detector detects that the light is shaded, the positioning rod 22 completes the movement of the unlocking stage.
  • Either the first photosensitive detector or the second photosensitive detector is composed of a detector sensitive to light.
  • a control switch may be provided in both the first photosensitive detector and the second photosensitive detector, and the control switch is connected with the motor 24 that provides energy for the movement of the door opening rod 23 and the positioning rod 22.
  • the first photosensitive detector and the second photosensitive detector can be controlled to work when the motor 24 starts to run, so as to reduce energy consumption and prolong the life of the photosensitive detectors.
  • All the photosensitive detectors can transmit position signals.
  • the door lock detection unit of the washing machine also includes a signal receiving device for receiving the position signals. The door lock detection unit of the washing machine can determine the state of the door lock according to the position signal sent by the photosensitive detector.
  • the washing tub is provided with a positioning hole for the positioning rod 22 to be inserted in.
  • a guide rail groove is set at the position of the positioning hole, and the positioning rod 22 inserted into the positioning hole is in the guide rail groove to move.
  • the bottom of the positioning rod 22 is fixedly provided with a slider.
  • the guide rail groove is provided with a groove in which the slider is inserted.
  • a detection device is installed in the groove, and the detection device can detect whether the slider is inserted into the groove. After the positioning rod 22 completes all movements of the positioning stage and the unlocking stage, the slider on the positioning rod 22 is inserted in the groove, so the detection device disposed in the groove can be used to detect whether the positioning rod 22 moves to the proper place.
  • This embodiment also provides a locking detection device for detecting whether the door is locked in proper place.
  • the locking detection device includes a magnet arranged on the machine door, and a Hall sensor is arranged on the washing tub at a corresponding position for detecting the position of the magnet.
  • the magnet on the machine door reaches the preset position, and the Hall sensor correspondingly detects the magnet to determine that the machine door is locked in proper place.
  • washing tub door 42 Since the washing tub door 42 needs to rotate together with the washing tub, the washing tub door 42 cannot be controlled to automatically close by the electric signal.
  • a door lock device is arranged on the washing tub door 42 as described in Embodiments 1 and 2, so the washing tub door 42 is locked under the action of closing the door. Therefore, when the washing tub door 42 is manually closed and locked, there is a situation that the machine door is not locked in proper place.
  • the above mentioned magnet and Hall sensor can be used to detect whether the machine door is locked in proper place.
  • the door lock device in Embodiments 1 and 2 has the door hook 1 and the locking portion 4 as described above.
  • the locking portion 4 When the locking portion 4 is not locked, the rotatable locking portion 4 generates force on the door hook 1.
  • the machine door fixedly connected with the door hook 1 cannot be driven to stay in the locking position under the action of the door hook 1, the corresponding magnet is not in the preset position, and the Hall sensor cannot detect the magnet.
  • the door lock detection unit in this embodiment can accurately determine the state of the door lock by detecting the position of the positioning rod 22.
  • the door lock detection unit further includes a locking detection device for detecting whether the machine door is accurately locked. That is, the door lock detection unit in this embodiment can comprehensively detect the door locking process, unlocking process, and positioning process.
  • the washing machine includes the positioning and unlocking unit 41 as described in Embodiment 3, and the door locking unit 40 as described in Embodiment 1 or Embodiment 2.
  • the positioning and unlocking unit 41 is disposed at a position corresponding to the door locking unit 40, and the positioning and unlocking unit 41 is contacted and cooperated with the door locking unit 40 to complete the unlocking of the machine door.
  • the door opening rod 23 of the positioning and unlocking unit 41 is corresponded to the limiting component 2 extending to the outside of the housing 3 of the door locking unit 40.
  • the door opening rod 23 automatically moves in the unlocking stage, to drive the limiting component 2 to perform the unlocking movement, and the movement of unlocking the machine door is completed.
  • the installation position and structure of the door opening rod 23 in the positioning and unlocking unit 41 can be adjusted, so that the moving direction of the door opening rod 23 can be adjusted.
  • the movement direction of the door opening rod 23 in this embodiment is consistent with the axial direction of the limiting component 2, that is, the door opening rod 23 pushes the limiting component 2 to move along the axial direction of the limiting component 2.
  • the door opening rod 23 of the positioning and unlocking unit 41 can also be adjusted as moving in a direction perpendicular to the axial direction of the limiting component 2. That is, the door opening rod 23 pushes the side of the limiting component 2 to drive the limiting component 2, and other structures remain unchanged. The machine door can be unlocked.
  • the washing machine has a washing tub, and a washing tub door 42 is arranged on the washing tub.
  • the washing tub door 42 needs to rotate together with the washing tub. Therefore, as mentioned above, the washing tub door 42 cannot be controlled to be automatically closed by electric signal. Therefore, the door locking unit 40 as described in Embodiments 1 and 2 can be arranged on the washing tub door 42, so that the washing tub door 42 can be locked by the action of closing the washing tub door 42.
  • the positioning and unlocking unit 41 may be fixed on the outer tub and/or the washing machine shell, and correspond to a position of the door locking unit 40.
  • the door locking unit 40 is fixed on the washing tub door 42, and the positioning and unlocking unit 41 is fixed on the outer tub.
  • the door opening rod 23 In order that the door opening rod 23 is in contact with the limiting component 2, the door opening rod 23 passes through the front flange of the outer tub. Therefore, an unlocking hole for the door opening rod 23 to pass through is provided on the front flange of the outer tub. Since the front flange of the outer tub may be exposed to water, a sealing member is preferably provided at the unlocking hole in order to ensure the sealing performance.
  • the washing machine in this embodiment further includes the door lock detection unit of the washing machine as described in Embodiment 5.
  • the door lock detection unit can detect whether to lock the machine door by the door locking unit 40, and can also detect whether to unlock and position the machine door by the positioning and unlocking unit 41.
  • This embodiment provides a control method of the washing machine on the basis of the above mentioned embodiments.
  • the washing tub door 42 is arranged on the washing tub, and rotates together with the washing tub during the washing process.
  • the washing tub door 42 is provided with the door locking unit 40 as Embodiments 1 and 2.
  • a washing tub door 42 is correspondingly provided on the washing tub, and a washing machine door 43 is provided on the outer tub and/or a shell of the washing machine corresponding to the position of the washing tub door 42.
  • the washing tub door 42 and the washing machine door 43 can be opened and closed independently.
  • This embodiment is especially suitable for a washing machine having only one washing tub inside.
  • the control method of the washing machine in this embodiment reasonably sets the operations to be performed by the washing tub door 42 and the washing machine door 43 when opening and closing the doors, so as to ensure the normal operation of opening and closing the double doors.
  • the control method of this embodiment includes, detecting whether the washing machine stops running before opening and closing the double doors.
  • the washing machine stops running the washing tub is locked.
  • the washing machine needs to perform the following other programs, such as the washing program.
  • the washing tub starts the next operation from the set locking position, so it is detected whether the washing tub is locked at the preset locking position.
  • the detection device on the washing tub is used for detecting whether the washing tub is locked.
  • the positioning and unlocking unit 40 is controlled to lock the washing tub at the set position.
  • the positioning rod 22 of the positioning and unlocking unit 41 is controlled to complete the movement of the positioning stage as described in Embodiment 3, and then the operation of opening the washing tub door is executed.
  • the door lock detection unit detects whether the washing tub is locked at the set position by the positioning and unlocking unit 41. Specifically, the door lock detection unit described as in Embodiment 4 is used for detecting the position of the positioning rod 22, and it is determined whether the positioning rod 22 is inserted into the positioning hole to lock the washing tub at the preset position.
  • the positioning and unlocking unit 41 is controlled to unlock the door locking unit 40.
  • the door lock detection unit detects that the positioning and unlocking unit 41 completes the unlocking, and the washing tub door to be opened. Specifically, when the positioning and unlocking unit 41 unlocks the door locking unit 40, the positioning rod 22 of the positioning and unlocking unit 41 is controlled to complete the movement of the unlocking stage as described in the third embodiment. And when the door lock detection unit detects whether to unlock, as described in Embodiment 4, the door lock detection unit detects whether the unlock is completed by detecting the position of the positioning rod 22.
  • the washing tub door is opened and the laundry is put in.
  • the door lock detection unit is controlled to detect whether the positioning unlocking unit 41 still locks the washing tub at the set position.
  • the operation of closing the washing tub door is executed.
  • the door lock detection unit needs to detect the specific position of the positioning rod 22 to determine whether the positioning rod 22 remains inserted into the positioning hole, and then determine whether the washing tub remains locked in a preset position.
  • the door locking unit 40 When the machine door is closed, the door locking unit 40 is controlled to lock the washing tub door, and the door lock detection unit detects whether the washing tub door is locked. Specifically, as described in Embodiments 1 and 2, the door locking unit 40 locks the washing tub door under the action of closing the door. The door lock detection unit can detect whether the washing tub door is locked, as the locking detection device described in Embodiment 4.
  • the positioning and unlocking unit 41 is controlled to release the washing tub from being locked at the set position. Specifically, as described in Embodiment 3, the motor 24 of the positioning and unlocking unit 41 rotates reversely, to drive the positioning rod 22 to extract out of the position hole and release the washing tub from being locked.
  • the door lock detection unit is controlled to detect whether the positioning unlocking unit 41 releases the washing tub from being locked at the set position. Specifically, the door lock detection unit detects the position of the positioning rod 22, and determines whether there is the contact to limit on the washing tub being locked at the set position in determining the positioning rod 22 to be extended out of the positioning hole. After determining that the limitation on the washing tub being locked in the set position is released, the washing machine is allowed to run, so that the washing tub can rotate to execute the subsequent operations.
  • the washing machine generally has a washing tub door 42 located on the washing tub located inside, and a washing machine door 43 located on the outer tub and/or the shell of the washing machine located outside.
  • the washing tub door 42 is controlled to keep locked first in the operation of opening the washing machine door 43. So, in opening the washing machine door 43, it is avoided that the washing tub door 42 moves to cause the inner and outer double doors to collide.
  • the washing tub door 42 is controlled to be locked first, and the washing machine door 43 is controlled to be unlocked after detecting that the washing tub door 42 is successfully locked, and then the washing machine door 43 is opened.
  • the specific control method is: controlling the washing tub door 42 to be unlocked after detecting that the washing machine door 43 is opened.
  • the door locking unit 40 and the positioning unlocking unit 41 are provided on the washing tub door 42, the washing tub door 42 can be locked and unlocked when the washing tub is locked at a preset position. That is, the washing tub door 42 can be kept locked during the opening of the washing machine door 43, and be unlocked after the washing machine door 43 is opened.
  • the operation of opening the door includes the following steps:
  • the washing machine is not used until the laundry is fed into the washing machine again and the door is closed.
  • the washing tub is locked at the preset locking position, so that the washing tub can start to run from the preset locking position when the washing machine needs to run again. It is convenient for the washing machine to run normally the washing program. That is, after the operation of opening the double doors is completed and before the operation of closing the double doors is performed, the washing tub is kept locked at the preset locking position.
  • the washing tub door 42 and the washing machine door 43 are closed in sequence. After closing the washing tub door 42, the washing tub door 42 is locked, and it is detected whether the washing tub door 42 is locked at a preset position.
  • the door locking unit 40 is arranged on the washing tub door 42. Once the washing tub door 42 is properly closed, the washing tub door 42 can be locked by the door locking unit 40. In addition, it can also be detected whether the washing tub door 42 is closed and locked at the proper position through the magnet arranged on the washing tub door 42 as described above. In the above control method, it can be ensured that the washing tub door 42 is closed at a proper position by detecting whether the washing tub door 42 is locked at a preset position.
  • the control method in this embodiment is set reasonably.
  • the washing tub door 42 is locked after being closed, so that the washing tub door 42 is not affected when the washing machine door 43 is closed.
  • the close of the washing machine door 43 is operated only after it is determined that the washing tub door 42 is locked at the preset locking position, so that the washing machine door 43 is closed after the washing tub door 42 is properly closed.
  • the washing machine door 43 is locked after closing the washing machine door 43.
  • the washing machine can start executing other programs such as the washing program.
  • the washing tub needs to perform a desired movement in executing the following programs by the washing machine, so the washing tub is required to be unlocked.
  • the inner and outer double doors are kept locked after being closed, so as to prevent the washing machine door 43 from being opened in the operation of the washing machine to affect the normal operation of the washing machine.
  • the positioning and unlocking unit 41 in the above mentioned embodiment, the locking and unlocking of the washing tub can be realized by using the positioning and unlocking unit 41.
  • the washing tub is unlocked and the washing tub door 42 is locked by the control method.
  • the operation of closing the door includes the following steps:

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Main Body Construction Of Washing Machines And Laundry Dryers (AREA)
EP22794669.6A 2021-04-27 2022-04-19 Module de verrouillage de porte de machine à laver et machine à laver Withdrawn EP4332292A4 (fr)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
CN202110459695.XA CN115247349B (zh) 2021-04-27 2021-04-27 一种洗衣机门锁模块
CN202110461360.1A CN115247352B (zh) 2021-04-27 2021-04-27 一种洗衣机及其控制方法
CN202110459683.7A CN115247348B (zh) 2021-04-27 2021-04-27 一种洗衣机定位解锁模块
CN202110459686.0A CN115247346B (zh) 2021-04-27 2021-04-27 一种洗衣机门锁检测模块
PCT/CN2022/087618 WO2022228198A1 (fr) 2021-04-27 2022-04-19 Module de verrouillage de porte de machine à laver et machine à laver

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EP4332292A1 true EP4332292A1 (fr) 2024-03-06
EP4332292A4 EP4332292A4 (fr) 2024-10-16

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EP22794669.6A Withdrawn EP4332292A4 (fr) 2021-04-27 2022-04-19 Module de verrouillage de porte de machine à laver et machine à laver

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WO (1) WO2022228198A1 (fr)

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DE102023119510A1 (de) * 2023-07-24 2025-01-30 Emz-Hanauer Gmbh & Co. Kgaa Verschlussvorrichtung für eine Tür eines Haushaltsgerätes

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Publication number Priority date Publication date Assignee Title
GB8410796D0 (en) * 1984-04-27 1984-06-06 Hotpoint Ltd Interlock mechanism
DE3738613A1 (de) * 1987-11-13 1989-05-24 Miele & Cie Mantelbeschickbare trommelwaschmaschine
US5546772A (en) * 1994-05-02 1996-08-20 Whirlpool Corporation Tub door system for a top loading horizontal axis automatic washer
JP2000014980A (ja) * 1998-07-03 2000-01-18 Hitachi Ltd 電気洗濯機
KR101463512B1 (ko) * 2013-02-08 2014-11-20 두얼메카닉스 주식회사 세탁기용 도어락 장치
CN105442257B (zh) * 2015-12-31 2017-09-08 温州天健电器有限公司 一种洗衣机门锁
TR201908868A2 (tr) * 2019-06-14 2020-12-21 Arcelik As Bi̇r ki̇li̇t i̇çeren yikayici/kurutucu
CN112281411B (zh) * 2019-07-26 2023-09-12 青岛海尔洗涤电器有限公司 一种洗衣机
CN110565329B (zh) * 2019-09-16 2021-05-28 温州天健电器有限公司 一种电器门锁
CN110512960B (zh) * 2019-09-16 2020-09-29 温州天健电器有限公司 一种电器门锁
CN110820267B (zh) * 2019-11-27 2022-12-20 无锡小天鹅电器有限公司 衣物处理设备的门体组件和衣物处理设备

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