CN221607382U - Automatic double-sided adhesive tape sticking machine - Google Patents

Abstract

The utility model provides an automatic double-sided adhesive tape sticking machine, which comprises a frame, a movable processing platform mechanism, a feeding mechanism, a visual detection mechanism, an adhesive tape sticking mechanism, a discharging mechanism and a movable processing platform mechanism, wherein the movable processing platform mechanism is arranged on the frame and used for bearing and conveying workpieces, the feeding mechanism is used for feeding the workpieces, the visual detection mechanism is used for detecting position information of the workpieces on the movable processing platform mechanism, the adhesive tape sticking mechanism is used for sticking the workpieces, the discharging mechanism is used for containing the adhered workpieces, the feeding mechanism, the adhesive tape sticking mechanism and the discharging mechanism are sequentially arranged along the conveying direction of the movable processing platform mechanism, and the movable processing platform mechanism is positioned in a camera shooting area of the visual detection mechanism. The automatic double-sided adhesive tape sticking machine can effectively finish automatic, accurate and quick production of adhesive tape sticking of products, has high degree of automation and good consistency of products, greatly saves labor cost and effectively improves production efficiency and production quality.

Description

Automatic double-sided adhesive tape sticking machine

Technical Field

The utility model relates to the technical field of automatic rubberizing equipment, in particular to an automatic double-sided rubberizing machine.

Background

Double-sided adhesives are widely used in various fields for adhering two different components together. When the adhesive tape is used, the adhesive tape with the adhesive layer is adhered to the surface of one part, then the adhesive tape is torn off, so that the adhesive layer is reserved on the surface of a material, and then the adhesive tape is adhered to other objects.

At present, when a large amount of double-sided adhesive tape is adhered to products, a double-sided adhesive tape adhering machine is often adopted. However, the double-sided adhesive tape sticking machine in the prior art has lower automation degree, the positions of products need to be monitored and corrected manually, the misplacement of adhesive tape sticking is prevented, and the labor cost is increased; in addition, the compaction effect of the double-sided tape rubberizing machine in the prior art is poor, so that the adhesive tape is easy to deviate during rubberizing, and the reject ratio of products is increased.

Disclosure of utility model

The application aims to solve the problems, and provides an automatic double-sided adhesive tape sticking machine which solves the technical problems that products are easy to deviate and have poor pressing effect in the double-sided adhesive tape sticking process.

To achieve the above object, the present application provides an automatic double-sided tape dispenser comprising

A frame;

the movable processing platform mechanism is arranged on the frame and used for bearing and conveying workpieces;

A feeding mechanism for feeding the workpiece;

A visual inspection mechanism for detecting positional information of a workpiece on the movable processing platform mechanism;

The rubberizing mechanism is used for rubberizing the workpiece;

a blanking mechanism for accommodating the rubberized workpiece;

The feeding mechanism, the rubberizing mechanism and the blanking mechanism are sequentially arranged along the conveying direction of the movable processing platform mechanism, and the movable processing platform mechanism is located in the image pickup area of the visual detection mechanism.

Compared with the prior art, the automatic double-sided adhesive tape sticking machine provided by the utility model has the advantages that the operations such as automatic feeding, automatic adhesive tape sticking and automatic blanking are realized by arranging the movable processing platform mechanism, the feeding mechanism, the visual detection mechanism, the adhesive tape sticking mechanism and the blanking mechanism, the automatic, accurate and rapid production of adhesive tape sticking of products can be effectively completed, the degree of automation is high, the consistency of products is good, the labor cost is greatly saved, the production efficiency and the production quality are effectively improved, and the cost reduction and synergy are realized for enterprises.

For a better understanding and implementation, the present application is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic diagram of an automatic double-sided tape dispenser according to one embodiment of the present application;

FIG. 2 is a schematic diagram of a movable tooling platform mechanism according to one embodiment of the present application;

Fig. 3 is a schematic structural diagram of a feeding mechanism according to an embodiment of the present application;

FIG. 4 is a schematic view of an assembly of a platform lift drive and a lift platform according to an embodiment of the present application;

FIG. 5 is a schematic view of a first clamping device according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a rubberizing mechanism according to one embodiment of the application;

FIG. 7 is a schematic view of another angle of the rubberizing mechanism according to one embodiment of the application;

FIG. 8 is a schematic view of another angle of the rubberizing mechanism according to one embodiment of the application;

FIG. 9 is a schematic diagram of a cutting device according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a blanking mechanism in an embodiment of the present application.

Reference numerals in the drawings:

1-frame, 2-movable processing platform mechanism, 3-feeding mechanism, 4-visual inspection mechanism, 5-rubberizing mechanism, 6-blanking mechanism, 21-second track moving device, 22-processing platform, 23-rotary driving device, 31-platform lifting driving device, 32-lifting platform, 33-first clamping device, 41-bracket, 42-camera device, 51-portal frame, 52-first track moving device, 53-first mounting plate, 54-tape feeding device, 55-tape pushing device, 56-pressing device, 57-cutting device, 61-storage platform, 62-second clamping mechanism, 211-lead screw linear motion module, 212-second track, 311-second mounting plate, 312-first driving motor, 313-screw, 314 screw sleeve, 331-first support frame, 332-first transverse driving track, 333-first longitudinal driving track, 334-first suction cup lifting cylinder, 335-first suction cup, 421-machine, 422-illuminating lamp, 551-pushing cylinder, 552-first clamping plate, 554-second clamping plate, 571-second clamping plate, 211-lead screw linear motion module, 212-second transverse driving cylinder, 624-lifting cylinder, 623-lifting cylinder, 624-first transverse driving roller, clamping plate, rolling die set, 623-lifting cylinder, rolling die set, fixture, 5712-first blade mounting plate, 5713-first blade, 5721-second blade mounting plate, 5722-second blade.

Detailed Description

Referring to fig. 1 to 10, the embodiment provides an automatic double-sided tape dispenser, specifically, the automatic double-sided tape dispenser includes a frame 1, a movable processing platform mechanism 2 disposed on the frame 1 for carrying and conveying a workpiece, a feeding mechanism 3 for feeding the workpiece, a visual detection mechanism 4 for detecting position information of the workpiece on the movable processing platform mechanism 2, a tape dispenser mechanism 5 for dispensing the workpiece, a discharging mechanism 6 for receiving the glued workpiece, wherein the feeding mechanism 3, the tape dispenser mechanism 5 and the discharging mechanism 6 are sequentially disposed along a conveying direction of the movable processing platform mechanism 2, and the movable processing platform mechanism 2 is located in a camera region of the visual detection mechanism 4.

The frame 1 is a cuboid structure, and plays roles of fixing and supporting, and various control devices can be installed in the frame to control various components of the automatic double-sided adhesive tape sticking machine. In other embodiments, the frame 1 may be a cylinder or other shaped structure.

The movable processing platform mechanism 2 comprises a second track moving device 21 and a processing platform 22, wherein the second track moving device 21 is arranged on the frame 1, and the processing platform 22 is arranged on the moving end of the second track moving device 21. Specifically, the second rail moving device 21 includes a screw rod linear motion module 211 and a second rail 212, the motion direction of the screw rod linear motion module 211 is parallel to the second rail 212, and the processing platform 22 is mounted on the moving end of the screw rod linear motion module 211 and slides on the second rail 212. The processing platform 22 moves under the drive of the screw rod linear motion module 211, and the second rail 212 keeps stable when the processing platform 22 moves. In this embodiment, the number of the movable processing platform mechanisms 2 is two, and the two movable processing platform mechanisms are arranged in parallel, so that the processing efficiency can be improved. In other embodiments, the number of movable processing platform mechanisms 2 may be 3 or other, and the second track movement device 21 may be driven by a conveyor belt driving module or other driving module.

Further, the movable processing platform mechanism 2 further includes a rotation driving device 23, the rotation driving device 23 is vertically disposed on the moving end of the second track moving device 21, and the output end of the rotation driving device is provided with the processing platform 22. The rotation driving device 23 can rotate and adjust the workpiece to a proper rubberizing angle according to the position information of the workpiece shot by the visual detection mechanism 4. Specifically, the rotation driving device 23 is a rotation electric cylinder. In other embodiments, the rotary drive 23 may also be a rotary cylinder or other rotary drive.

The feeding mechanism 3 comprises a platform lifting driving device 31, a lifting platform 32 and a first clamping device 33, wherein the platform lifting driving device 31 is fixed on the frame 1, the lifting platform 32 is in transmission connection with the platform lifting driving device 31, and the first clamping device 33 is arranged above the lifting platform 32. The platform lifting driving device 31 is used for driving the lifting platform 32 to lift, so that a worker can conveniently place a workpiece on the lifting platform 32, and the first clamping device 33 is used for clamping the workpiece of the lifting platform to the movable processing platform mechanism 2. Specifically, the platform lifting driving device 31 includes a second mounting plate 311, a first driving motor 312, a screw 313 and a screw sleeve 314, where the second mounting plate 311 is fixed on the frame 1, the second mounting plate 311 has a threaded hole, the screw 313 is matched with the threaded hole in a vertical horizontal plane, the first driving motor 312 is in transmission connection with the screw 313, the screw sleeve 314 is fixed on the top end of the screw 313, and the lifting platform 32 is disposed on the screw sleeve 314. The first driving motor 312 drives the screw 313 to rotate, the external thread of the screw 313 is matched with the internal thread of the threaded hole to enable the screw 313 to lift, and the screw sleeve 314 and the lifting platform 32 positioned at the top end of the screw 313 lift along with the screw 313. The platform lifting driving device 31 further comprises a plurality of columns parallel to the screw 313, the columns are fixed on the second mounting plate 311, the lifting platform 32 is provided with column holes matched with the columns, and the columns are matched with the column holes to enable the lifting platform 32 to be lifted more stably. The first clamping device 33 comprises a first supporting frame 331, a first transverse driving rail 332, a first longitudinal driving rail 333, a first suction cup lifting cylinder 334 and a first suction cup 335, wherein the first supporting frame 331 is arranged on the frame 1, the first transverse driving rail 332 is arranged on the first supporting frame 331, the first longitudinal driving rail 333 is arranged at the moving end of the first transverse driving rail 332, the first transverse driving rail 332 and the first longitudinal driving rail 333 are mutually perpendicular on the horizontal plane, the moving direction of the moving end of the first longitudinal driving rail 333 is parallel to the moving direction of the movable working platform, The first suction cup lifting cylinder 334 is mounted on the moving end of the first longitudinal driving rail 333, the first suction cup 335 is suspended above the lifting platform 32 by being mounted on the output end of the first lifting cylinder, the suction cup is driven by the first transverse driving rail 332 and the first longitudinal driving rail 333 to move above the lifting platform 32, and then the first suction cup is lowered by the first lifting cylinder to approach the lifting platform 32 to vacuum adsorb a workpiece to be rubberized, and the workpiece is conveyed to the movable working platform. In other embodiments, the platform lifting driving device 31 may be driven by a cylinder or other driving members capable of lifting the lifting platform 32, and the movement and lifting of the first suction cup 335 may be realized by a multi-axis mechanical arm.

The visual inspection mechanism 4 comprises a support 41 and an image pickup device 42, the support 41 is fixed on the frame 1, the image pickup device 42 is installed on the support 41, the movable processing platform mechanism 2 is located in an image pickup area of the image pickup device 42, and the image pickup device 42 can collect position information of a workpiece on the movable processing platform mechanism 2 in real time to judge whether the position of the workpiece is located in a rubberizing area. Specifically, the image pickup device 42 includes a camera 421 and an illumination lamp 422 for providing an image pickup light source.

The rubberizing mechanism 5 comprises a portal frame 51, a first track moving device 52, a first mounting plate 53, a tape feeding device 54, a tape pushing device 55, a pressing device 56 and a cutting device 57, wherein the portal frame 51 spans across the movable processing platform mechanism 2 and is fixed on the frame 1, the first track moving device 52 is arranged on the portal frame 51, the first mounting plate 53 is arranged at the moving end of the first track moving device 52, the tape feeding device 54, the tape pushing device 55, the pressing device 56 and the cutting device 57 are arranged on the first mounting plate 53, the tape pushing device 55 is arranged at a feed port of the tape feeding device 54 and clamps a tape extending from the feed port, and the cutting device 57 is arranged between the tape pushing device 55 and the pressing device 56. The adhesive tape pushing device 55 clamps and pushes the adhesive tape from the feeding hole of the adhesive tape feeding device 54 to pass through the cutting device 57, and reaches the lower part of the pressing device 56, the pressing device 56 presses the adhesive tape until the adhesive tape is clung to the surface of the workpiece, and the adhesive tape is driven by the first track moving device 52 to move to an area where the adhesive tape is not pressed, and after the adhesive tape is attached to the workpiece, the cutting device 57 cuts the adhesive tape.

In one embodiment, the adhesive tape pushing device 55 includes a pushing cylinder 551, a first clamping plate driving module 552, a first clamping plate 553, and a second clamping plate 554, where the pushing cylinder 551 is disposed on the first mounting plate 53, the movement direction of the output end of the pushing cylinder 551 faces the cutting device 57, the first clamping plate driving module 552 and the second clamping plate 554 are mounted on the output end of the pushing cylinder 551, and the first clamping plate 553 is mounted on the output end of the first clamping plate driving module 552 and is opposite to the second clamping plate 554, and the movement direction of the output end of the pushing cylinder 551 is perpendicular to the movement direction of the output end of the first clamping plate driving module 552. The first clamping plate 553 clamps the adhesive tape near the second clamping plate 554, and the pushing cylinder 551 drives the first clamping plate 553 and the second clamping plate 554 to move toward the cutting device 57 until one end of the adhesive tape is positioned below the pressing device 56. In other embodiments, the push cylinder 551 may be replaced by a push cylinder or other linear drive.

Further, the movement direction of the output end of the pushing cylinder 551 forms an included angle with the horizontal plane, and the included angle is an acute angle. The direction of movement of the output end of the pushing cylinder 551 is set to form an acute angle with the horizontal plane, so that when the adhesive tape reaches the lower part of the pressing device 56, one end of the adhesive tape contacts with the surface of a workpiece, the pressing device 56 is convenient to press the adhesive tape, and the adhesive tape is prevented from being misplaced when the pressing device 56 presses.

In one embodiment, the pressing device 56 includes a pressing lifting cylinder 561, a pressing wheel mounting plate 562, and a pressing wheel 563, wherein the pressing lifting cylinder 561 is mounted on the first mounting plate 53 in a vertical horizontal plane, the pressing wheel mounting plate 562 is disposed on an output end of the pressing lifting cylinder 561, the pressing wheel 563 is mounted on the pressing wheel mounting plate 562, and an arc surface of the pressing wheel 563 presses an adhesive tape on a workpiece. The pressing lifting cylinder 561 descends, and the pressing wheel 563 is closely attached to the upper surface of the adhesive tape, and rolls to press the adhesive tape along the length direction of the adhesive tape under the driving of the first rail moving device 52. In other embodiments, the pinch lift cylinder 561 may also be a lift cylinder or other lift drive.

In one embodiment, the cutting device 57 includes a movable cutter 571 and a fixed cutter, where the movable cutter 571 and the fixed cutter are disposed opposite to each other on the first mounting plate 53.

Further, the movable cutter 571 includes a first lifting cylinder 5711, a first blade mounting plate 5712, and a first blade 5713, where the first lifting cylinder 5711 is disposed on the first mounting plate 53 in a vertical horizontal plane, the first blade mounting plate 5712 is disposed at an output end of the first lifting cylinder 5711, the first blade mounting plate 5712 has a first through hole through which the adhesive tape can pass, and the first blade 5713 is disposed on the first blade mounting plate 5712 and below the first through hole; the fixed cutter includes a second blade mounting plate 5721 and a second blade 5722, the second blade mounting plate 5721 is disposed on the first mounting plate 53, and the second blade 5722 is disposed on the second blade mounting plate 5721 and is disposed opposite to the first blade 5713. The first elevating cylinder 5711 drives the first blade 5713 to approach the second blade 5722, and cuts the adhesive tape passing through the first through hole. In other embodiments, the first lift cylinder 5711 may also be a lift cylinder or other lift drive.

The blanking mechanism 6 comprises a storage platform 61 and a second clamping mechanism 62, the storage platform 61 is arranged on the frame 1, the second clamping mechanism 62 comprises a second supporting frame 621, a second transverse driving track 622, a second longitudinal driving track 623, a second sucker lifting cylinder 624 and a second sucker 625, the second supporting frame 621 is arranged on the frame 1, the second transverse driving track 622 is arranged on the second supporting frame 621, the second longitudinal driving track 623 is arranged at the moving end of the second transverse driving track 622, the second transverse driving track 622 and the second longitudinal driving track 623 are mutually perpendicular on the horizontal plane, the moving direction of the moving end of the second longitudinal driving track 623 is parallel to the moving direction of the movable working platform, the second sucker lifting cylinder 624 is arranged on the moving end of the second longitudinal driving track 623, the second sucker 625 is hung above the processing platform 22 and the storage platform 61 through the output end of the second sucker lifting cylinder 624, the second sucker 625 is driven by the second sucker 625 to move to the second sucker lifting cylinder 624 in the horizontal direction, and the second sucker lifting cylinder 624 is driven by the second sucker lifting cylinder 622 to move to the second sucker lifting cylinder 623 in the horizontal direction, and the workpiece is lifted by the second sucker lifting cylinder 624, and the second sucker lifting cylinder 623 is driven by the second sucker lifting cylinder 622 to move to the workpiece in the horizontal direction and the vertical direction, and the lifting cylinder 623 is driven to move to the workpiece to the vertical to the lifting platform and the workpiece to be lifted by the lifting and the sucker lifting platform and the lifting vertically. In other embodiments, the movement of the second suction cup 625 may also be implemented by a multi-axis robotic arm.

The application provides an automatic double-sided adhesive tape sticking machine, which comprises the following working processes: the workpiece to be rubberized is placed on the lifting platform 22, the lifting platform 22 is lifted to a certain height, the first clamping device 23 clamps the workpiece to be rubberized to the processing platform 22, the second rail moving device 21 drives the processing platform 22 to move to the rubberizing mechanism 5, the visual detection mechanism 4 detects the position information of the workpiece to be rubberized at the moment, the rotary driving device 23 adjusts the workpiece to be rubberized to a correct rubberizing angle according to the position information of the workpiece to be rubberized, the adhesive tape pushing device 55 pushes the adhesive tape to the surface of the workpiece to be rubberized, the pressing device 56 presses one end of the adhesive tape, and moves to an area where the adhesive tape is not pressed under the driving of the first rail moving device 52, the cutting device 57 cuts off the adhesive tape after the pressing is finished, the second rail moving device 21 drives the processing platform 22 to move to the lower part of the second clamping device, and the second clamping device clamps the rubberized workpiece to the containing platform 61.

In summary, according to the automatic double-sided adhesive tape sticking machine provided by the utility model, through arranging the movable processing platform mechanism, the feeding mechanism, the visual detection mechanism, the adhesive tape sticking mechanism and the blanking mechanism of the movable processing platform mechanism, the operations of automatic feeding, automatic adhesive tape sticking, automatic blanking and the like are realized, the automatic, accurate and rapid production of adhesive tape sticking of products can be effectively completed, the degree of automation is high, the consistency of products is good, the labor cost is greatly saved, the production efficiency and the production quality are effectively improved, and the cost reduction and synergy are realized for enterprises.

While the foregoing is directed to embodiments of the present utility model, other and further details of the utility model may be had by the present utility model, it should be understood that the foregoing description is merely illustrative of the present utility model and that no limitations are intended to the scope of the utility model, except insofar as modifications, equivalents, improvements or modifications may be made within the spirit and principles of the utility model.

Claims (10)

1. An automatic double-sided tape rubberizing machine which is characterized in that: comprising

A frame;

the movable processing platform mechanism is arranged on the frame and used for bearing and conveying workpieces;

A feeding mechanism for feeding the workpiece;

A visual inspection mechanism for detecting positional information of a workpiece on the movable processing platform mechanism;

The rubberizing mechanism is used for rubberizing the workpiece;

a blanking mechanism for accommodating the rubberized workpiece;

The feeding mechanism, the rubberizing mechanism and the blanking mechanism are sequentially arranged along the conveying direction of the movable processing platform mechanism, and the movable processing platform mechanism is located in the image pickup area of the visual detection mechanism.

2. An automatic double-sided tape applicator according to claim 1, wherein: the rubberizing mechanism comprises a portal frame, a first track moving device, a first mounting plate, a tape feeding device, a tape pushing device, a pressing device and a cutting device, wherein the portal frame stretches across the movable processing platform mechanism and is fixed on the frame, the first track moving device is arranged on the portal frame, the first mounting plate is arranged at the moving end of the first track moving device, the tape feeding device, the tape pushing device, the pressing device and the cutting device are mounted on the first mounting plate, the tape pushing device is arranged at the feed port of the tape feeding device and clamps the tape extending from the feed port of the tape feeding device, and the cutting device is arranged between the tape pushing device and the pressing device.

3. An automatic double-sided tape applicator according to claim 2, wherein: the adhesive tape pushing device comprises a pushing cylinder, a first clamping plate driving module, a first clamping plate and a second clamping plate, wherein the pushing cylinder is arranged on the first mounting plate, the movement direction of an output end of the pushing cylinder faces the cutting device, the first clamping plate driving module and the second clamping plate are arranged at the output end of the pushing cylinder, the first clamping plate is arranged at the output end of the first clamping plate driving module and is opposite to the second clamping plate, and the movement direction of the output end of the pushing cylinder is perpendicular to the movement direction of the output end of the first clamping plate driving module.

4. An automatic double-sided tape applicator according to claim 3, wherein: the motion direction of the output end of the pushing cylinder forms an included angle with the horizontal plane, and the included angle is an acute angle.

5. An automatic double-sided tape applicator according to claim 2, wherein: the pressing device comprises a pressing lifting cylinder, a pressing wheel mounting plate and a pressing wheel, wherein the pressing lifting cylinder is mounted on the first mounting plate in a vertical horizontal plane, the pressing wheel mounting plate is arranged on the output end of the pressing lifting cylinder, the pressing wheel is mounted on the pressing wheel mounting plate, and the cambered surface of the pressing wheel presses the adhesive tape on the workpiece.

6. An automatic double-sided tape applicator according to claim 2, wherein: the cutting device comprises a movable cutter and a fixed cutter, and the movable cutter and the fixed cutter are oppositely arranged on the first mounting plate.

7. An automatic double-sided tape applicator according to claim 6, wherein: the movable cutter comprises a first lifting cylinder, a first blade mounting plate and a first blade, wherein the first lifting cylinder is arranged on the first mounting plate in a vertical horizontal plane, the first blade mounting plate is arranged at the output end of the first lifting cylinder, the first blade mounting plate is provided with a first through hole through which an adhesive tape can pass, and the first blade is arranged on the first blade mounting plate and is positioned below the first through hole;

The fixed cutter comprises a second blade mounting plate and a second blade, wherein the second blade mounting plate is arranged on the first mounting plate, and the second blade is arranged on the second blade mounting plate and is opposite to the first blade.

8. An automatic double-sided tape applicator according to any one of claims 1-7, wherein: the visual detection mechanism comprises a support and a camera device, the support is fixed on the frame, the camera device is mounted on the support, and the movable processing platform mechanism is located in a camera region of the camera device.

9. An automatic double-sided tape applicator according to any one of claims 1-7, wherein: the movable machining platform mechanism comprises a second track moving device and a machining platform, wherein the second track moving device is arranged on the frame, and the machining platform is arranged on the moving end of the second track moving device.

10. An automatic double-sided tape applicator according to claim 9, wherein: the movable processing platform mechanism further comprises a rotary driving device, wherein the rotary driving device is vertically arranged on the moving end of the second track moving device, and the processing platform is arranged at the output end of the rotary driving device.