CN111992425B

CN111992425B - A kind of automatic gluing equipment for textiles and its working method

Info

Publication number: CN111992425B
Application number: CN202010682429.9A
Authority: CN
Inventors: 陈怡�
Original assignee: Shanghai Tongzheng Technical Service Center LP
Current assignee: Dongguan Zhengxin Textile Technology Co ltd
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2021-08-03
Anticipated expiration: 2040-07-15
Also published as: CN111992425A

Abstract

The invention discloses an automatic gluing equipment for textiles and a working method thereof, comprising a support frame, a first moving frame, a second moving frame and three carrying trays, and upper buckle frames are arranged on both sides of the upper end of the support frame , and a moving bracket 1 and a moving bracket 2 are installed between the two upper buckle frames, and lower buckle frames are arranged on both sides of the bottom of the support frame. The beneficial effects of the invention are as follows: the glue liquid is discharged from the glue nozzle to carry out gluing treatment on the printing part of the textile; The textiles on the carrier tray are glued. On the one hand, the transportation capacity of the equipment for the textiles is greatly improved. It is more time-saving and labor-saving to use; three carrier trays uniformly transport the glued textiles to one end of the support frame, which is convenient for the uniform collection of textiles.

Description

Automatic gluing equipment for textiles and working method thereof

Technical Field

The invention relates to a gluing device, in particular to an automatic gluing device for textiles and a working method thereof, and belongs to the technical field of application of gluing devices for textiles.

Background

The gluing equipment is used more and more frequently in the field of textile processing, and after the textile is printed, glue is applied to the printed part of the textile through the gluing equipment, so that the printed part of the textile is not easy to deform and fade, and the printed part of the textile is more attractive.

The existing gluing equipment for textiles still has great defects when in use, the existing gluing equipment for the textiles can transport and move a small amount of carriers, the automation degree of gluing treatment on the textiles by the existing gluing equipment is low, time and labor are wasted during use, the efficiency of gluing the textiles by the existing gluing equipment is low, the precision of gluing is poor, the gluing quality of the textiles by the existing gluing equipment is not uniform enough, and the existing gluing equipment cannot quickly dry the glued textiles in time after gluing the textiles, so that the subsequent processing efficiency of the textiles is seriously influenced, and the glued textiles are easily bonded.

Disclosure of Invention

The invention aims to solve the problems that the existing gluing equipment bears a small quantity of textiles which can be transported and moved; the automation degree of the existing gluing equipment for gluing the textiles is low, and time and labor are wasted during use; the prior gluing equipment has low efficiency of gluing textiles and poor precision of gluing work; the existing gluing equipment does not glue the textile evenly enough and has poor gluing quality; and after the existing gluing equipment is used for gluing the textile, the glued textile can not be quickly dried in time, the subsequent processing efficiency of the textile is seriously influenced, and the problem that the glued sizing material on the textile is easy to bond is solved.

The purpose of the invention can be realized by the following technical scheme: the automatic gluing equipment for the textiles comprises a support frame, a first moving support, a second moving support and three carrying and conveying discs, wherein upper buckling frames are arranged on two sides of the upper end of the support frame, the first moving support and the second moving support are arranged between the two upper buckling frames, lower buckling frames are arranged on two sides of the bottom of the support frame, and the three carrying and conveying discs are arranged above the two lower buckling frames;

the middle part of the inner side of the upper buckle frame is provided with a first empty groove, and a plurality of first clamping teeth are arranged below the inner part of the first empty groove;

the first moving support and the second moving support are both provided with an installation frame, both ends of the installation frame are provided with a first motor, the middle part of the side wall of one side of the installation frame is horizontally provided with a toothed bar, both the upper side and the lower side of the toothed bar are provided with buckling rails, sleeve blocks are sleeved on the buckling rails, one end of each sleeve block is welded with a moving frame, the middle part of the moving frame is vertically provided with a first hydraulic cylinder, and the lower part of each hydraulic cylinder is connected with a first hydraulic shaft in an extending manner;

one end of the first motor is rotatably connected with a first gear, the first gear and the first motor are both connected into the first empty groove, the first gear is meshed with the first clamping tooth, a second motor is arranged at the middle edge of one end of the transfer frame, and one end of the second motor is rotatably connected with the second gear;

a glue box is vertically arranged at the bottom of the first hydraulic shaft on the first moving support, and a drying rack is vertically arranged at the bottom of the first hydraulic shaft on the second moving support;

the glue applying device comprises a glue box, a glue delivering pipe, a glue discharging nozzle, a glue applying seat and a glue spraying pipe, wherein the glue delivering pipe is vertically arranged on one side below the glue box, the glue discharging nozzle is arranged at the bottom of the glue delivering pipe, and the glue applying seat is vertically arranged on the other side below the glue box;

the top of the rubber coating base is provided with a second hydraulic cylinder, a third motor is connected below the second hydraulic cylinder in an extending mode through a second hydraulic shaft, and a rotary coating pad in a conical structure is connected below the third motor in a rotating mode through an output shaft;

a top plate is arranged at the top of the drying rack, a fixed rod is vertically welded below the middle of the top plate, a motor II is vertically arranged below the fixed rod, two ends of the motor II are rotatably connected with a swing frame in a U-shaped structure through rotating shafts, an air heater is vertically arranged in the middle of the bottom of the swing frame, and one end of the air heater is connected with a blast port through a ventilation pipe;

a second empty groove is formed in the middle of the upper end of each of the two lower buckling frames, and a plurality of second clamping teeth are arranged below the inner wall of one side of each second empty groove at equal intervals;

a supporting frame in a hollow cuboid structure is arranged on the carrying disc, a motor V is arranged at one end of the side wall of one side of the supporting frame, and one end of the motor V is rotatably connected with the conveying belt through an output shaft;

two hydraulic cylinders III are vertically arranged at two ends of the bottom of the supporting frame, the upper parts of the hydraulic cylinders III are connected with the supporting frame through hydraulic shafts III in an extending mode, a motor III is arranged at the bottom of the hydraulic cylinders III, and a gear III is rotatably connected below the motor III;

six motors on two sides below the carrying and conveying disc are connected to two empty grooves II of the lower buckling frames respectively, the gear III is meshed with the gear II, the motor VI on the carrying and conveying disc drives the gear III to be meshed with the gear II to roll, the carrying and conveying disc is driven to move left and right to adjust, the hydraulic cylinder tee joint pushes the supporting frame and the conveying belt to move up and down to adjust through the hydraulic shaft III, the height of the textile is changed, the support is moved to flexibly move and adjust the position of the glue outlet nozzle, and the efficiency of the device for gluing the textile and the precision of gluing work are greatly improved.

The invention is further improved in that: the upper end and the lower end of the outer side of the first empty groove are provided with a first sliding groove, the upper end and the lower end of the first motor close to the one end of the gear are provided with first sliding plates matched with the first sliding grooves, the first sliding plates on the first motor are respectively connected to the first sliding grooves on the outer side of the first empty groove and are connected to the first sliding grooves in a sliding mode through the first sliding plates, and the first motor drives the first moving support and the second moving support to move more stably and firmly.

The invention is further improved in that: the middle parts of the upper end and the lower end of the buckling rail are both concave arc-shaped settings, both sides of the middle part of the sleeve block are provided with arc-shaped protrusions matched with the buckling rail, the middle parts of the upper end and the lower end of the buckling rail are embedded and connected through the arc-shaped protrusions on the sleeve block, the sleeve block is guaranteed to move more stably, a plurality of three clamping teeth matched with the two phases of gears are arranged at equal intervals at the bottom of the toothed bar, the two gears are meshed with the three clamping teeth, the two motors drive the two gears to mesh with the three clamping teeth at the bottom of the toothed bar, the glue box is driven to move, and the glue outlet is moved to a printing part of a textile.

The invention is further improved in that: the glue solution box is the cavity setting, and communicates each other between glue solution box, rubber tube and the jiao zui inside, the jiao zui is the toper structure, and the glue solution box leads to the glue nozzle department of delivering to through the rubber tube with the glue solution, and the jiao zui leads to the glue solution and carries out rubberizing processing to the stamp department of fabrics, and the equal radian such as jiao zui bottom sets up a plurality of and goes out the gluey branch hole, makes the glue solution that the jiao zui leads to out cover more evenly on the fabrics.

The invention is further improved in that: the sliding grooves II are formed in the inner wall tops of the two sides of the empty groove II, the sliding plates II are arranged on the two sides of the motor, the sliding plates II on the two sides of the motor are respectively connected to the sliding plates II on the two sides of the empty groove II, and the sliding plates II are clamped in the sliding grooves II in a sliding mode, so that the carrying and conveying disc can move more stably and firmly.

The invention is further improved in that: the conveyer belt is located the inside top of holding in the palm dress frame, and the conveyer belt keeps away from the one end of five motors and has cup jointed and revolve the roller, revolves the roller both ends and all is connected to respectively through the bearing and holds in the palm dress frame both sides lateral wall, rotates through revolving roller cooperation conveyer belt, guarantees that the conveyer belt rotates more steadily, in the same direction as smooth.

The invention is further improved in that: glue solution case, roof bottom all are provided with infrared sensor, detect the stamp position of discernment fabrics and by the rubber coated position through infrared sensor, and infrared sensor and the inside PLC controller communication connection who sets up of support frame, carry out the rubber coating through the part on the PLC controller control this equipment and handle the fabrics.

The working method of the automatic gluing equipment for the textiles is characterized by comprising the following steps:

the method comprises the following steps: the method comprises the following steps that textiles to be rubberized are respectively placed on conveying belts of three carrying and conveying discs to be conveyed, in the process that the conveying belts drive the textiles to move, a motor on a moving support I drives a gear I to be meshed with a first clamping tooth in a first empty groove of an upper buckle frame to roll, a glue box and a glue outlet nozzle are driven to move back and forth to adjust, a motor II drives a gear II to be meshed with a third clamping tooth at the bottom of a toothed bar to roll, the glue box and the glue outlet nozzle are driven to move, the glue outlet nozzle is moved to a printing position of the textiles, a hydraulic cylinder I drives the glue box and the glue outlet nozzle to move downwards to adjust through a hydraulic shaft, the glue outlet nozzle is close to the printing position of the textiles, and the glue outlet nozzle conducts gluing treatment on the printing position of the textiles through glue;

step two: after the glue outlet nozzle coats the textile, the first support is moved to immediately drive the glue coating seat to move to a position close to the coated part of the textile, the second hydraulic cylinder pushes the rotary coating pad to be attached to the coated position of the textile through the second hydraulic shaft, and the third motor drives the rotary coating pad to rotate through the output shaft to uniformly coat the glue;

step three: after the rotary smearing pad on the equipment evenly smears the smeared position of the textile, the second support is moved to drive the drying frame to move to the position close to the smeared position of the textile, the hot air blower blows hot air to the smeared position through a blast port, the position of the textile smeared position is dried, the motor four-way drives the swing frame to swing through the rotary shaft, and the position of the hot air blower blowing hot air to the textile is adjusted.

Compared with the prior art, the invention has the beneficial effects that:

1. when the device is used, textiles to be glued are respectively placed on the conveying belts of three carrying disks to be conveyed, in the process that the conveying belts drive the textiles to move, a motor on a moving support I drives a gear I to be meshed with a latch I to roll in a first empty groove of an upper buckle frame, a glue box and a glue outlet nozzle are driven to move back and forth and adjust, a motor II drives a latch III at the bottom of a gear II meshing rack rod to roll, the glue box and the glue outlet nozzle are driven to move, the glue outlet nozzle is moved to a printing position of the textiles, a hydraulic cylinder I drives the glue box and the glue outlet nozzle to move downwards and adjust through a hydraulic shaft, the glue outlet nozzle is close to the printing position of the textiles, the glue outlet nozzle carries out gluing treatment on the printing position of the textiles through glue, the device respectively carries the textiles through the three carrying disks, and the moving support moves the glue outlet nozzle to carry out gluing treatment on the textiles on different carrying disks, on the one hand, very big improvement this equipment to the transportation bearing capacity of fabrics, on the other hand, it is higher to guarantee that this equipment carries out the degree of automation of rubber coating processing work to fabrics, and this equipment uses labour saving and time saving more.

2. In the process of gluing the textile by the glue outlet nozzle on the first moving support, the six motors on the conveying disc drive the gear three-meshed latch two to roll, the conveying disc is driven to move left and right to adjust, the hydraulic cylinder three-way pushes the supporting frame and the conveying belt to move up and down to adjust through the hydraulic shaft three, the height of the textile is changed, the support is moved to flexibly move and adjust the position of the glue outlet nozzle, and the efficiency of gluing the textile and the precision of gluing work of the equipment are greatly improved.

3. After the glue outlet nozzle is used for gluing the textiles, the first movable support immediately drives the glue smearing seat to move a glued part close to the textiles, the second hydraulic cylinder pushes the glued position of the rotary smearing pad attached to the textiles through the second hydraulic shaft, the third motor drives the rotary smearing pad to rotate through the output shaft to smear glue evenly, the equipment is enabled to be more uniform and accurate in gluing and covering of the printed part of the textiles, the quality of the equipment for gluing the textiles is improved, the first movable support on the equipment can drive the rotary smearing pad to be flexibly adjusted, and the rotary smearing pad on the equipment can quickly conduct glue smearing and even smearing on the textiles located at different positions.

4. The rotary smearing pad on the equipment evenly smears the smeared positions of the textiles, the second support is moved to drive the drying frame to move the smeared positions close to the textiles, a hot air blower blows hot air to the smeared positions through a blast port, the textiles can be quickly dried, the motor four-way drives the swing frame to swing through the rotary shaft, the hot air blower can change the inclined positions of the hot air blower quickly and flexibly, the blast port blows air to the textiles at different positions and different angles, quick drying processing is achieved, the three carrying and conveying discs convey the glued textiles to one end of the supporting frame in a unified mode, and unified material receiving processing of the textiles is facilitated.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall perspective structure of the present invention.

FIG. 2 is an enlarged view of the area A in FIG. 1 according to the present invention.

FIG. 3 is a schematic view of the structure of the stent of the present invention.

Fig. 4 is a schematic structural diagram of the motor of the present invention.

Fig. 5 is a schematic structural diagram of a second motor of the present invention.

FIG. 6 is a schematic diagram of the glue tank structure of the present invention.

Fig. 7 is a schematic structural view of the glue spreading base of the present invention.

FIG. 8 is a schematic view of a drying rack according to the present invention.

FIG. 9 is an enlarged view of the detail of the area B in FIG. 1 according to the present invention.

FIG. 10 is a schematic view of a carrier tray according to the present invention.

Fig. 11 is a schematic diagram of a hydraulic cylinder according to the present invention.

In the figure: 1. a support frame; 2. mounting a buckling frame; 3. moving the first support; 4. moving a second support; 5. a glue solution tank; 6. A drying rack; 7. a lower buckle frame; 8. a carrying disc; 801. supporting and installing the frame; 9. a first empty groove; 10. a first latch; 11. a first sliding chute; 12. installing a frame; 13. a first motor; 14. a rack bar; 15. buckling a rail; 16. sleeving blocks; 17. a transfer frame; 18. a second motor; 19. a first hydraulic cylinder; 20. a first hydraulic shaft; 21. a first gear; 22. a first sliding plate; 23. A second gear; 24. a glue outlet; 25. a glue smearing seat; 26. a second hydraulic cylinder; 27. a second hydraulic shaft; 28. a third motor; 29. rotating and smearing the pad; 30. a top plate; 31. fixing the rod; 32. a fourth motor; 33. rotating the shaft; 34. placing a frame; 35. a hot air blower; 36. a tuyere; 37. a second empty groove; 38. a second latch; 39. a second chute; 40. a fifth motor; 41. a conveyor belt; 42. a hydraulic cylinder III; 43. a hydraulic shaft III; 44. a sixth motor; 45. a third gear; 46. and a second sliding plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, an automatic gluing device for textiles includes a support frame 1, a first moving support 3, a second moving support 4 and three carrying trays 8, wherein both sides of the upper end of the support frame 1 are provided with a first upper buckling frame 2, the first moving support 3 and the second moving support 4 are installed between the two upper buckling frames 2, both sides of the bottom of the support frame 1 are provided with a second lower buckling frame 7, and the three carrying trays 8 are arranged above the space between the two lower buckling frames 7;

wherein, the middle part of the inner side of the upper buckle frame 2 is provided with a first empty groove 9, and a plurality of first latch teeth 10 are arranged below the inner part of the first empty groove 9;

the first moving support 3 and the second moving support 4 are both provided with a mounting frame 12, both ends of the mounting frame 12 are provided with a first motor 13, the middle part of the side wall of one side of the mounting frame 12 is horizontally provided with a toothed bar 14, both the upper side and the lower side of the toothed bar 14 are provided with buckling rails 15, sleeve blocks 16 are sleeved on the buckling rails 15, one ends of the sleeve blocks 16 are welded with a moving and carrying frame 17, the middle part of the moving and carrying frame 17 is vertically provided with a first hydraulic cylinder 19, and a first hydraulic shaft 20 extends and is connected below the first hydraulic cylinder 19;

one end of the first motor 13 is rotatably connected with a first gear 21, the first gear 21 and the first motor 13 are both connected into the first empty groove 9, the first gear 21 is meshed with the first latch 10, a second motor 18 is arranged at the middle edge of one end of the transfer frame 17, and one end of the second motor 18 is rotatably connected with a second gear 23;

a glue box 5 is vertically arranged at the bottom of the first hydraulic shaft 20 on the first moving support 3, and a drying rack 6 is vertically arranged at the bottom of the first hydraulic shaft 20 on the second moving support 4;

wherein, one side below the glue solution tank 5 is vertically provided with a glue passing pipe, the bottom of the glue passing pipe is provided with a glue outlet nozzle 24, and the other side below the glue solution tank 5 is vertically provided with a glue smearing seat 25;

a second hydraulic cylinder 26 is arranged at the top of the glue smearing seat 25, a third motor 28 is connected below the second hydraulic cylinder 26 through a second hydraulic shaft 27 in an extending mode, and a rotary smearing pad 29 in a conical structure is connected below the third motor 28 in a rotating mode through an output shaft;

a top plate 30 is arranged at the top of the drying rack 6, a fixed rod 31 is vertically welded below the middle of the top plate 30, a motor four 32 is vertically arranged below the fixed rod 31, two ends of the motor four 32 are rotatably connected with a swing frame 34 in a U-shaped structure through rotary shafts 33, an air heater 35 is vertically arranged in the middle of the bottom of the swing frame 34, and one end of the air heater 35 is connected with a blast port 36 through a ventilation pipe;

the middle parts of the upper ends of the two lower buckle frames 7 are provided with a second empty groove 37, and a plurality of second latch teeth 38 are arranged below the inner wall of one side of the second empty groove 37 at equal intervals;

the carrying disc 8 is provided with a supporting frame 801 in a hollow cuboid structure, one end of the side wall of one side of the supporting frame 801 is provided with a motor five 40, and one end of the motor five 40 is rotatably connected with the conveyor belt 41 through an output shaft;

two hydraulic cylinders III 42 are vertically arranged at two ends of the bottom of the supporting frame 801, the upper parts of the hydraulic cylinders III 42 are connected with the supporting frame 801 in an extending mode through hydraulic shafts III 43, a motor III 44 is arranged at the bottom of the hydraulic cylinders III 42, and a gear III 45 is rotatably connected below the motor IV 44;

six motors 44 on two sides below the carrying disc 8 are respectively connected to two empty grooves 37 of the two lower buckle frames 7, a gear third 45 is meshed with a latch second 38, the six motors 44 on the carrying disc 8 drive the gear third 45 to be meshed with the latch second 38 to roll, the carrying disc 8 is driven to move left and right to adjust, a hydraulic cylinder third 42 pushes the supporting frame 801 and the conveyor belt 41 to move up and down to adjust through a hydraulic shaft third 43, the height of textiles is changed, the position of the glue outlet nozzle 24 can be flexibly adjusted through moving the support 3, and the textile gluing efficiency and the gluing work precision of the device are greatly improved.

The upper end and the lower end of the outer side of the first empty groove 9 are provided with first sliding grooves 11, the upper end and the lower end of the end, close to the first gear 21, of the first motor 13 are provided with first sliding plates 22 matched with the first sliding grooves 11, the first sliding plates 22 on the first motor 13 are connected to the first sliding grooves 11 on the outer side of the first empty groove 9 respectively and are connected to the first sliding grooves 11 in a sliding mode through the first sliding plates 22, and therefore the first motor 13 is enabled to drive the first moving support 3 and the second moving support 4 to move more stably and firmly.

The middle parts of the upper end and the lower end of the buckling rail 15 are both concave arc-shaped settings, both sides of the middle part of the sleeve block 16 are provided with arc-shaped protrusions matched with the buckling rail 15, the middle parts of the upper end and the lower end of the buckling rail 15 are embedded through the arc-shaped protrusions on the sleeve block 16, it is ensured that the sleeve block 16 moves more stably, a plurality of teeth III matched with the two gears 23 are arranged at equal intervals at the bottom of the toothed bar 14, the two gears 23 are meshed with the three teeth, the motor 18 drives the two gears 23 to be meshed with the three teeth at the bottom of the toothed bar 14 to roll, the glue box 5 and the glue outlet 24 are driven to move, and the glue outlet 24 is moved to the printing part of the textile.

Glue solution box 5 is the cavity setting, and communicates each other between glue solution box 5, rubber tube and the glue outlet 24 inside, and glue outlet 24 is the toper structure, and glue solution box 5 leads to the glue outlet 24 department through rubber tube with the glue solution, and glue outlet 24 leads to the glue solution and carries out the rubberizing to the stamp department of fabrics, and the equal radian such as glue outlet 24 bottom sets up a plurality of and goes out the gluey branch hole, makes the glue solution that glue outlet 24 leads to out cover more evenly on the fabrics.

The sliding grooves II 39 are formed in the upper portions of the inner walls of the two sides of the empty groove II 37, the sliding plates II 46 are arranged on the two sides of the motor six 44, the sliding plates II 46 on the two sides of the motor six 44 are connected to the sliding plates II 46 on the two sides of the empty groove II 37 respectively, and the sliding plates II 46 are clamped in the sliding grooves II 39 in a sliding mode, so that the carrying disc 8 can move more stably and firmly.

Conveyer belt 41 is located the inside top of holding in the palm dress frame 801, and the conveyer belt keeps away from the one end of five 40 motors and has cup jointed the roller soon, revolves the roller both ends and all is connected to respectively through the bearing and holds in the palm dress frame 801 both sides lateral wall, and through revolving the rotation of roller cooperation conveyer belt, guarantee that the conveyer belt rotates more steadily, in the same direction as smooth.

The glue solution box 5 and the bottom of the top plate 30 are respectively provided with an infrared sensor, the infrared sensors with the models of OS137-3 are used for detecting and identifying the printing positions and the positions to be glued of the textiles, the infrared sensors are in communication connection with a PLC (programmable logic controller) arranged inside the support frame 1, and the PLC with the model of CPM1A is used for controlling components on the equipment to glue the textiles.

the method comprises the following steps: respectively putting textiles to be rubberized on conveying belts 41 of three carrying and conveying discs 8 for conveying, in the process that the conveying belts 41 drive the textiles to move, a motor I13 on a moving support I3 drives a gear I21 to be meshed with a latch I10 to roll in an empty groove I9 of an upper buckle frame 2, a glue solution tank 5 and a glue outlet 24 are driven to move back and forth for adjustment, a motor II 18 drives a gear II 23 to be meshed with a latch III at the bottom of a toothed rod 14 to roll, the glue solution tank 5 and the glue outlet 24 are driven to move, the glue outlet 24 is moved to the printing position of the textiles, a hydraulic cylinder I19 drives the glue solution tank 5 and the glue outlet 24 to move downwards for adjustment through a hydraulic shaft I20, the glue outlet 24 is close to the printing position of the textiles, and the glue outlet 24 conducts gluing treatment on the printing position of the textiles through glue solution;

step two: after the glue outlet nozzle 24 coats the textile, the first support 3 is moved to immediately drive the glue coating seat 25 to move to a position close to the coated part of the textile, the second hydraulic cylinder 26 pushes the second rotary coating pad 29 to be attached to the coated part of the textile through the second hydraulic shaft 27, and the third motor 28 drives the second rotary coating pad 29 to rotate through the output shaft to uniformly coat the glue;

step three: after the rotary smearing pad 29 on the equipment evenly smears the smeared positions of the textiles, the second support 4 is moved to drive the drying frame 6 to move close to the smeared positions of the textiles, hot air is blown to the smeared positions by the hot air blower 35 through the blast port 36 to dry the smeared positions of the textiles, the fourth motor 32 drives the swing frame 34 to swing through the rotary shaft 33, and the position of the hot air blower 35 blowing hot air to the textiles is adjusted.

When the gluing device is used, textiles to be glued are respectively placed on the conveyor belts 41 of the three carrying and conveying discs 8 to be conveyed, in the process that the conveyor belts 41 drive the textiles to move, the first motor 13 on the first moving support 3 drives the first gear 21 to be meshed with the first latch 10 in the first empty groove 9 of the upper buckle frame 2 to roll, the glue tank 5 and the glue outlet nozzle 24 are driven to move back and forth to be adjusted, the second motor 18 drives the second gear 23 to be meshed with the third latch at the bottom of the toothed bar 14 to roll, the glue tank 5 and the glue outlet nozzle 24 are driven to move, the glue outlet nozzle 24 is moved to a printing part of the textiles, the first hydraulic cylinder 19 drives the glue tank 5 and the glue outlet nozzle 24 to move downwards through the first hydraulic shaft 20 to adjust, the glue outlet nozzle 24 is close to the printing part of the textiles, the glue outlet nozzle 24 conducts gluing treatment on the printing part of the textiles through the glue, the three carrying and conveying discs 8 respectively, the moving support 3 drives the glue outlet nozzle 24 to conduct gluing treatment on the textiles on different carrying and conveying discs 8, on one hand, the transportation bearing capacity of the equipment for textiles is greatly improved, on the other hand, the automation degree of the equipment for gluing the textiles is higher, and the equipment is more time-saving and labor-saving to use;

in the process of gluing the textile by the glue outlet nozzle 24 on the first moving support 3, the six motors 44 on the carrying disc 8 drive the third gear 45 to be meshed with the second latch 38 to roll, the carrying disc 8 is driven to move leftwards and rightwards to be adjusted, the third hydraulic cylinder 42 pushes the supporting frame 801 and the conveyor belt 41 to move upwards and downwards through the third hydraulic shaft 43 to be adjusted, the height of the textile is changed, the moving support 3 can flexibly move and adjust the position of the glue outlet nozzle 24, and the efficiency of the device for gluing the textile and the precision of the gluing work are greatly improved;

after the glue outlet nozzle 24 coats the textile, the first moving support 3 immediately drives the glue coating seat 25 to move to a position close to the coated part of the textile, the second hydraulic cylinder 26 pushes the second rotary coating pad 29 to be attached to the coated position of the textile through the second hydraulic shaft 27, the third motor 28 drives the second rotary coating pad 29 to rotate through the output shaft to uniformly coat the glue, so that the equipment can coat the printed part of the textile uniformly and accurately, the coating quality of the equipment on the textile is improved, the first moving support 3 on the equipment can drive the first rotary coating pad 29 to flexibly adjust, and the rotary coating pad 29 on the equipment can quickly coat the textile at different positions uniformly;

after the rotary smearing pad 29 on the equipment evenly smears the glued positions of the textiles, the second support 4 is moved to drive the drying frame 6 to move to be close to the glued positions of the textiles, hot air is blown to the glued positions through the air blowing ports 36 by the hot air fan 35, the glued positions of the textiles can be quickly dried, the fourth motor 32 drives the swing frame 34 to swing through the rotary shaft 33, the inclined positions of the hot air fan 35 can be quickly and flexibly changed, the air blowing ports 36 blow the textiles at different positions and different angles, quick drying processing is achieved, the three conveying discs 8 uniformly convey the glued textiles to one end of the support frame 1, and uniform material receiving processing of the textiles is facilitated.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. An automatic gluing device for textiles, comprising a support frame (1), a moving frame one (3), a moving frame two (4) and three carrying trays (8), characterized in that: the support Upper buckle frames (2) are arranged on both sides of the upper end of the frame (1), and a shifting bracket (3) and a shifting bracket two (4) are installed between the two upper buckle frames (2). The supporting frame (1) ) Both sides of the bottom are provided with lower buckle frames (7), and three carrier trays (8) are arranged above between the two lower buckle frames (7);

Wherein, the middle part of the inner side of the upper buckle frame (2) is provided with an empty slot 1 (9), and a plurality of clamping teeth 1 (10) are arranged under the inner part of the empty slot 1 (9);

A mounting frame (12) is arranged on the first moving bracket (3) and the second moving bracket (4), and a motor one (13) is arranged at both ends of the mounting frame (12), and one side of the mounting frame (12) is installed A toothed rod (14) is horizontally arranged in the middle part of the side wall, and buckle rails (15) are arranged on the upper and lower sides of the toothed rod (14), and a sleeve block (16) is sleeved on the buckled rail (15). One end of the block (16) is welded with a transfer frame (17), and a hydraulic cylinder (19) is vertically arranged in the middle of the transfer frame (17), and a hydraulic shaft (19) is stretched and connected below the hydraulic cylinder (19). 20);

One end of the motor one (13) is rotatably connected with a gear one (21), and the gear one (21) and the motor one (13) are both connected to the empty slot one (9), and the gear one (21) and the card The first tooth (10) is meshed, the second motor (18) is arranged at the middle edge of one end of the transfer frame (17), and the second motor (18) is rotatably connected with the second gear (23) at one end;

A glue tank (5) is vertically arranged at the bottom of the hydraulic shaft one (20) on the first moving bracket (3), and a drying rack (6) is vertically arranged at the bottom of the hydraulic shaft one (20) on the second moving bracket (4). );

Wherein, one side of the glue tank (5) is vertically provided with a rubber pipe, and the bottom of the rubber pipe is provided with a glue outlet (24), and the other side of the bottom of the glue tank (5) is provided with a glue smear vertically. seat(25);

Wherein, the top of the gluing seat (25) is provided with a second hydraulic cylinder (26), and a third motor (28) is connected to the lower part of the second hydraulic cylinder (26) through the second hydraulic shaft (27). 28) A rotary wiper pad (29) with a conical structure is connected to the lower part through the rotation of the output shaft;

The top of the drying rack (6) is provided with a top plate (30), and a fixing rod (31) is vertically welded under the middle of the top plate (30), and a motor four (32) is vertically arranged below the fixing rod (31), and Both ends of the fourth motor (32) are connected to a swing frame (34) in a U-shaped structure through a rotating shaft (33). A hot air blower (35) is vertically arranged in the middle of the bottom of the swing frame (34). 35) One end is connected with a blower port (36) through a ventilation pipe;

Two hollow grooves (37) are arranged in the middle of the upper ends of the two lower buckle frames (7), and a plurality of two clamping teeth (38) are arranged at equal intervals under the inner wall of one side of the two hollow grooves (37);

The carrying tray (8) is provided with a holding frame (801) in the shape of a hollow cuboid. A motor five (40) is provided on one side wall of the holding frame (801) at one end, and the motor five (40) One end is rotatably connected to the conveyor belt (41) through the output shaft;

Wherein, two hydraulic cylinders (42) are vertically arranged at both ends of the bottom of the supporting frame (801), and the hydraulic shaft three (43) and the supporting frame (801) extend above the hydraulic cylinders (42). connection, the bottom of the hydraulic cylinder three (42) is provided with a motor six (44), and a gear three (45) is rotatably connected below the motor six (44);

The motors six (44) on both sides of the lower side of the carrier tray (8) are respectively connected to the two empty slots (37) of the two lower buckle frames (7), and the gear three (45) is meshed with the two locking teeth (38);

There are chute 1 (11) on the upper and lower ends of the outer side of the empty slot 1 (9), and the motor 1 (13) close to the gear 1 (21) is provided with a chute 1 (11) on the upper and lower sides. Slide one (22), the two slides one (22) on the motor one (13) are respectively connected to the two chute one (11) outside the empty slot one (9);

The middle parts of the upper and lower ends of the buckle rail (15) are provided in a concave arc shape, and both sides of the middle part of the sleeve block (16) are provided with circular arc protrusions that are adapted to the buckle rail (15), and the tooth rod (14) The bottom is provided with a number of clamping teeth 3 adapted to the second gear (23) at equal intervals, and the second gear (23) is meshed with the clamping teeth 3;

The glue tank (5) is hollow, and the glue tank (5), the glue pipe and the inside of the glue outlet (24) communicate with each other. The glue outlet (24) has a conical structure, and the glue outlet (24) A number of glue dispensing holes are set at the bottom of the same arc;

Two sliding grooves (39) are provided on the inner walls of the two sides of the empty groove two (37), two sliding plates (46) are provided on both sides of the sixth motor (44), and two sliding plates (46) are provided on both sides of the sixth motor (44). 46) are respectively connected to the slide plates two (46) on both sides of the two empty grooves (37);

The conveyor belt (41) is located above the inside of the supporting frame (801), and the end of the conveyor belt away from the fifth motor (40) is sleeved with a rotary roller, and both ends of the rotary roller are connected to the two sides of the supporting frame (801) through bearings respectively. wall;

The glue tank (5) and the bottom of the top plate (30) are provided with infrared sensors, and the infrared sensors are connected in communication with the PLC controller provided inside the support frame (1);

The working method of the automatic gluing equipment for textiles specifically includes the following steps:

Step 1: Put the textiles to be glued on the conveyor belts (41) of the three carrying trays (8) for transportation. During the process of moving the textiles by the conveyor belts (41), move the motor one on the support one (3). (13) Drive the gear one (21) to engage the tooth one (10) in the slot one (9) of the upper buckle frame (2) to roll, and drive the glue tank (5) and the glue nozzle (24) to move back and forth to adjust , and the second motor (18) drives the second gear (23) to mesh with the three teeth at the bottom of the gear rod (14) to roll, and drives the glue tank (5) and the glue outlet (24) to move, so that the glue outlet (24) moves To the printing part of the textile, the hydraulic cylinder 1 (19) drives the glue tank (5) and the glue nozzle (24) to move downward through the hydraulic shaft 1 (20) to adjust, and move the glue nozzle (24) close to the printing part of the textile , and the glue nozzle (24) discharges glue to glue the printed part of the textile;

Step 2: After the glue nozzle (24) applies glue to the textile, the first moving bracket (3) drives the glue base (25) to move close to the glued part of the textile, and the second hydraulic cylinder (26) passes through the second hydraulic shaft (27) Push the wiper pad (29) to fit the position where the textile is to be glued, and the motor three (28) drives the wiper pad (29) to rotate through the output shaft to spread the glue evenly;

Step 3: After the swirl pad (29) on the equipment is evenly applied to the glued part of the textile, the second moving bracket (4) drives the drying rack (6) to move close to the glued part of the textile, and the hot air blower (35 ) blowing hot air through the blowing port (36) to the glued part, drying the glued part of the textile, and the motor four (32) drives the swing frame (34) to swing through the rotating shaft (33) to adjust the heat The position where the fan (35) blows hot air to the textile.

2. The working method of the automatic gluing equipment for textiles as claimed in claim 1, wherein the method specifically comprises the following steps:

Step 2: After the glue nozzle (24) applies glue to the textile, the first moving bracket (3) drives the glue base (25) to move close to the glued part of the textile, and the second hydraulic cylinder (26) passes through the second hydraulic shaft (27) Push the wiper pad (29) to fit the position where the textile is to be glued, and the motor three (28) drives the wiper pad (29) to rotate through the output shaft to evenly spread the glue;