Vertical intelligent storage cabinet
Technical Field
The utility model relates to the technical field of storage, in particular to a vertical intelligent storage cabinet.
Background
The material is stored and is required to process or the material after processing is accomplished, and the current storage is usually placed on the storage rack and is deposited when storing, and open storage rack extremely easily makes the material by external environment pollution to need constantly put into and take out when depositing, traditional storage rack needs the manual work to constantly bend down or climb to get and put like this, not only appears the potential safety hazard easily, has reduced the efficiency that the material was deposited in the removal degree yet, and for this reason, we propose a vertical intelligent storage cabinet.
Disclosure of utility model
The utility model aims to provide a vertical intelligent storage cabinet, which aims to solve the problems in the background technology.
In order to achieve the purpose, the vertical intelligent storage cabinet comprises a storage rack, wherein a plurality of groups of sealing plates are arranged on the outer surface of the storage rack, feeding and discharging holes for feeding and discharging are formed in two sides of the storage rack, blocking mechanisms for preventing materials from entering and discharging are arranged on two sides of the sealing plates and corresponding to the feeding and discharging holes, a first bearing mechanism and a second bearing mechanism are arranged on two sides of the inner wall of the storage rack, a power mechanism for driving the first bearing mechanism and the second bearing mechanism to synchronously rotate is arranged on one side of the storage rack, a plurality of groups of retaining mechanisms are arranged on the first bearing mechanism and the second bearing mechanism, and a placing rack for placing the materials is fixedly arranged on the two groups of corresponding retaining mechanisms.
Further, the first mechanism that bears and the second mechanism that bears are the same and all include first mounting bracket, first initiative chain wheel dish, second mounting bracket, first driven chain wheel dish and first connecting chain, fixed mounting has first mounting bracket and the second mounting bracket that sets up perpendicularly on the storage frame, rotate on the first mounting bracket and be connected with first initiative chain wheel dish, rotate on the second mounting bracket and be connected with first driven chain wheel dish, be connected through first connecting chain between first initiative chain wheel dish and the first driven chain wheel dish, first initiative chain wheel dish that first mechanism and second bear the mechanism passes through drive shaft fixed connection.
Further, power unit includes first mount, second initiative chain rim plate, second driven chain rim plate, second connection chain and first driving motor, one side fixed mounting of storage frame has first mount, one side rotation of storage frame installs second initiative chain rim plate, the one end fixedly connected with second driven chain rim plate of drive shaft, second initiative chain rim plate passes through the second connection chain with second driven chain rim plate and is connected, fixed mounting has first driving motor on the first mount, first driving motor's output and second initiative chain rim plate fixed connection.
Further, the retaining mechanism comprises a first retainer, a second retainer, connecting rods and a connecting shaft, two groups of first retainers are fixedly installed on the storage rack, the second retainers connected with the first retainer are fixedly installed on the storage rack and located at the top and the bottom of the first retainer, the second retainers are arranged in a semicircular mode with a first driving chain wheel disc and a first driven chain wheel disc being coaxial, two groups of connecting rods are arranged on the first connecting chain, the two groups of connecting rods are connected through rotation of the connecting shaft, one side of the connecting shaft is connected with the storage rack through rotation of a mounting disc, the other side of the connecting shaft is connected with a limiting wheel through rotation of the retaining rods, and the limiting wheel is clamped inside the first retainer.
Further, the blocking mechanism comprises a third mounting frame, a first synchronous belt pulley, a third mounting frame, a second synchronous belt pulley and a second synchronous belt, two groups of third mounting frames are fixedly arranged on one side of the storage frame and correspond to the position of the feeding and discharging port, the first synchronous belt pulley is rotationally connected to the third mounting frame, two groups of fourth mounting frames are fixedly arranged on the other side of the storage frame, the second synchronous belt pulley is rotationally connected to the fourth mounting frames, a second fixing frame is fixedly connected to one side of the storage frame, two groups of second driving motors are fixedly arranged on the second fixing frame, the output end of each second driving motor is fixedly connected with the corresponding second synchronous belt pulley, the second synchronous belt pulley is connected with the corresponding first synchronous belt pulley through the corresponding second synchronous belt, two groups of slide rails are fixedly arranged on one side of the storage frame, and two groups of protection plates are slidingly connected to the slide rails through slide blocks and fixedly connected with the corresponding second synchronous belt.
Further, a third fixing frame is fixedly connected to one side of the first bearing mechanism, and a camera is fixedly installed on the third fixing frame.
Compared with the prior art, the storage rack has the advantages that the storage rack can be used for intensively storing materials, the arranged sealing plate can prevent the stored materials from being polluted by the external environment, the arranged material inlet and outlet ports are convenient for workers to discharge and take materials, when the material inlet and outlet ports are used for storing or taking out the materials, the power mechanism can drive the placing rack connected with the first bearing mechanism and the second bearing mechanism to rotate, so that the other placing rack is moved to the position of the material inlet and outlet ports, the arranged retaining mechanism can prevent the placing rack from tilting and shaking during transferring, and the arranged blocking mechanism can block the material inlet and outlet ports, so that the material can be prevented from being discharged by users without permission.
Drawings
FIG. 1 is a schematic diagram of a first perspective view of the present utility model;
FIG. 2 is a schematic perspective view of the seal plate removed according to the present utility model;
FIG. 3 is a schematic view of a first perspective view of a first bearing mechanism according to the present utility model;
FIG. 4 is a schematic diagram of a second perspective view of the first bearing mechanism according to the present utility model;
FIG. 5 is an enlarged schematic view of the structure A of the present utility model;
FIG. 6 is a schematic diagram of a second perspective view of the present utility model;
FIG. 7 is an enlarged schematic view of the structure B of the present utility model;
fig. 8 is an enlarged schematic view of the structure C of the present utility model.
In the drawing, a storage rack, a2 sealing plate, a 3 feeding and discharging port, a 4 blocking mechanism, a 5 first bearing mechanism, a 6 second bearing mechanism, a 7 power mechanism, an 8 holding mechanism, a 9 placing rack, a 10 first mounting rack, a 11 first driving chain wheel disk, a 12 second mounting rack, a 13 first driven chain wheel disk, a 14 first connecting chain, a 15 driving shaft, a 16 first fixing rack, a 17 second driving chain wheel disk, a 18 second driven chain wheel disk, a 19 second connecting chain, a 20 first driving motor, a 21 first holding rack, a 22 second holding rack, a 23 connecting rod, a 24 connecting shaft, a 25 mounting disk, a 26 holding rod, a 27 limiting wheel, a 28 third mounting rack, a 29 first synchronous pulley, a 30 fourth mounting rack, a 31 second synchronous pulley, a 32 second synchronous belt, a 33 second fixing rack, a 34 second driving motor, a 35 sliding rail, a 36 sliding block, a 37 protecting plate, a 38 pressing block, a 39 third fixing rack and a 40 camera.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-8, the utility model provides a technical scheme that the vertical intelligent storage cabinet comprises a storage rack 1, wherein a plurality of groups of sealing plates 2 are arranged on the outer surface of the storage rack 1, a material inlet and outlet 3 for material inlet and outlet is formed in two sides of the storage rack 1, a blocking mechanism 4 for preventing materials from entering and exiting is arranged at the position corresponding to the material inlet and outlet 3 on two sides of the sealing plates 2, a first bearing mechanism 5 and a second bearing mechanism 6 are arranged on two sides of the inner wall of the storage rack 1, a power mechanism 7 for driving the first bearing mechanism 5 and the second bearing mechanism 6 to synchronously rotate is arranged on one side of the storage rack 1, a plurality of groups of retaining mechanisms 8 are arranged on the first bearing mechanism 5 and the second bearing mechanism 6, and a placing rack 9 for placing the materials is fixedly arranged on the two groups of corresponding retaining mechanisms 8.
Wherein, can concentrate the depositing through setting up storage frame 1 to the material, and the closing plate 2 of setting can prevent that external environment from polluting the material of depositing, the material blowing and getting of material are made things convenient for the staff to the business turn over discharge gate 3 that sets up afterwards, and when business turn over discharge gate 3 deposit or material take out after accomplishing power unit 7 can utilize first loading mechanism 5 and second loading mechanism 6 to drive rack 9 rotation, thereby remove another rack 9 to the position of business turn over discharge gate 3, and the tilting can not take place to rock when the holding mechanism 8 of setting can prevent that rack 9 from transporting, and the blocking mechanism 4 of setting can block business turn over discharge gate 3, thereby can prevent that the user from discharging from getting by oneself.
Referring to fig. 1, fig. 2, fig. 6, fig. 7 and fig. 8, the blocking mechanism 4 includes a third mounting frame 28, a first synchronous pulley 29, a fourth mounting frame 30, a second synchronous pulley 31 and a second synchronous belt 32, two groups of third mounting frames 28 are fixedly mounted on one side of the storage frame 1 and corresponding to the position of the feeding and discharging port 3, the first synchronous pulley 29 is rotatably connected to the third mounting frame 28, two groups of fourth mounting frames 30 are fixedly mounted on the other side of the storage frame 1, a second synchronous pulley 31 is rotatably connected to the fourth mounting frame 30, a second fixing frame 33 is fixedly connected to one side of the storage frame 1, two groups of second driving motors 34 are fixedly mounted on the second fixing frame 33, the output end of the second driving motor 34 is fixedly connected with the second synchronous pulley 31, the second synchronous pulley 31 is connected with the first synchronous pulley 29 through the second synchronous belt 32, two groups of slide rails 35 are fixedly mounted on one side of the storage frame 1, two groups of protection plates 37 are slidably connected to the slide rails 35 through slide blocks 36, and the two groups of protection plates 37 are fixedly connected with the second synchronous pulley 31 through the second synchronous belt 32.
When the material is required to be taken and discharged, two sets of second driving motors 34 are started, the second driving motors 34 can drive the two sets of second synchronous pulleys 32 to rotate, then the second synchronous belts 32 can rotate along the first synchronous pulleys 29, the rotating second synchronous belts 32 can drive the protection plates 37 and the sliding blocks 36 to move along the sliding rails 35, and the two sets of second synchronous belts 32 can drive the two sets of protection plates 37 to move respectively, so that the protection plates 37 can be far away from the material inlet and outlet 3, and the material discharging step is performed.
Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the first bearing mechanism 5 and the second bearing mechanism 6 have the same structure and all include first mounting bracket 10, first initiative chain wheel 11, second mounting bracket 12, first driven chain wheel 13 and first connecting chain 14, the first mounting bracket 10 and the second mounting bracket 12 that the fixed mounting set up perpendicularly on the storage rack 1, the first initiative chain wheel 11 that rotates on the first mounting bracket 10 is connected with, the first driven chain wheel 13 that rotates on the second mounting bracket 12 is connected with, be connected with through first connecting chain 14 between first initiative chain wheel 11 and the first driven chain wheel 13, the first initiative chain wheel 11 that first bearing mechanism 5 and second bearing mechanism 6 passes through drive shaft 15 fixed connection, power unit 7 includes first mount 16, second initiative chain wheel 17, second driven chain wheel 18, second connecting chain 19 and first driving motor 20, one side fixed mounting of storage rack 1 has first mount 16, one side of storage rack 1 rotates second motor 17, second driving chain wheel 17 and first driving chain wheel 17 are connected with first driving chain wheel 20 through first connecting chain wheel 17, second driving motor 17 and first driving chain wheel 20 fixed connection.
After the placement of the material on one of the groups of placement frames 9 is completed, the first driving motor 20 is started to operate, the second driving chain wheel 17 and the second connecting chain 19 can be utilized to drive the second driven chain wheel 18 and the driving shaft 15 to rotate by the rotation of the first driving motor 20, the first driving chain wheel 11 can be driven by the rotating driving shaft 15 to rotate by the rotating driving shaft 15, the first connecting chain 14 can be driven to rotate along the first driving chain wheel 11 and the first driven chain wheel 11 by the rotating driving chain wheel 11, and thus the placement frames 9 connected with the first connecting chain 14 can be driven to rotate and transfer.
Referring to fig. 1, 2, 4 and 5, the holding mechanism 8 includes a first holder 21, a second holder 22, a connecting rod 23 and a connecting shaft 24, two sets of first holders 21 are fixedly mounted on the storage rack 1, the second holders 22 connected with the first holders 21 are fixedly mounted on the storage rack 1 and located at the top and bottom of the first holders 21, the second holders 22 are arranged in a semicircle shape coaxial with the first driving chain wheel 11 and the first driven chain wheel 13, two sets of connecting rods 23 are provided on the first connecting chain 14, the two sets of connecting rods 23 are rotationally connected through the connecting shaft 24, one side of the connecting shaft 24 is rotationally connected with the storage rack 9 through a mounting plate 25, the other side of the connecting shaft 24 is rotationally connected with a limiting wheel 27 through a holding rod 26, and the limiting wheel 27 is clamped inside the first holders 21.
Wherein, when first connecting chain 14 drives rack 9 and removes, rack 9 is connected with first connecting chain 14 through connecting rod 23, connecting axle 24 and mounting disc 25, and the spacing wheel 27 that the retaining rod 26 is connected can the joint in the inside of first holder 21 and second holder 22 when first connecting chain 14 removes to can prevent that connecting axle 24 and mounting disc 25 from appearing the skew and rocking.
Referring to fig. 1, 2 and 3, a third fixing frame 39 is fixedly connected to one side of the first carrying mechanism 5, and a camera 40 is fixedly mounted on the third fixing frame 39, where the camera 40 can monitor the storage condition inside the storage rack 1.
When in use, firstly, when the material is required to be taken and placed, two groups of second driving motors 34 are started to operate, the second driving motors 34 can drive the two groups of second synchronous pulleys 32 to rotate, then the second synchronous belts 32 can rotate along the first synchronous pulleys 29, the rotating second synchronous belts 32 can drive the protection plates 37 and the sliding blocks 36 to move along the sliding rails 35, the two groups of second synchronous belts 32 can drive the two groups of protection plates 37 to move respectively, so that the protection plates 37 can be far away from the material inlet and outlet 3, the material placing step is carried out, after the material placement of one group of placing racks 9 is completed, the first driving motors 20 are started to operate, the rotation of the first driving motors 20 can drive the second driven chain wheel plates 18 and the driving shafts 15 to rotate by using the second driving chain wheels 17 and the second connecting chains 19, the rotating driving shaft 15 can drive the first driving chain wheel disc 11 to rotate, the rotating first driving chain wheel disc 11 can enable the first connecting chain 14 to rotate along the first driving chain wheel disc 11 and the first driven chain wheel disc 11, so that the placing frame 9 connected with the first connecting chain 14 can be driven to rotate and transfer, when the first connecting chain 14 drives the placing frame 9 to move, the placing frame 9 is connected with the first connecting chain 14 through the connecting rod 23, the connecting shaft 24 and the mounting disc 25, and when the first connecting chain 14 moves, the limiting wheels 27 connected with the retaining rods 26 can be clamped inside the first retaining frame 21 and the second retaining frame 22, and therefore the connecting shaft 24 and the mounting disc 25 can be prevented from deviating and shaking.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.