CN112093559B - High-temperature adhesive tape pasting machine - Google Patents

Abstract

The invention discloses a high temperature adhesive tape sticking machine, which comprises a bottom plate; the limiting assembly is arranged on the bottom plate; the first vertical plate is arranged on the bottom plate; the second vertical plate is arranged on the floor relative to the first vertical plate; the colloid placing assembly is arranged on the first vertical plate; two ends of the transverse plate are fixedly connected with the first vertical plate and the second vertical plate respectively; the pressing assembly is arranged on the transverse plate and is opposite to the bottom plate; the horizontal movement assembly is arranged on the second vertical plate; the lifting motion assembly is arranged on the motion end of the horizontal motion assembly; the telescopic motion assembly is arranged at the motion end of the lifting motion assembly, and the motion direction of the telescopic motion assembly is vertical to the telescopic directions of the lifting motion assembly and the horizontal motion assembly; the clamping assembly is arranged on the moving end of the telescopic moving assembly and can be opposite to the colloid placing assembly; and the cutting assembly is arranged on the moving end of the telescopic moving assembly and is positioned on one side of the clamping assembly. The invention can realize automatic pasting of high-temperature glue through the controller, and has high pasting efficiency and high pasting precision.

Description

High-temperature adhesive tape pasting machine

Technical Field

The invention relates to the field of part processing, in particular to a high-temperature adhesive tape sticking machine.

Background

Electronic parts are sometimes in a high-temperature environment in the production process, and need to be fixed by a high-temperature adhesive tape in the environment, and the high-temperature adhesive tape is usually adhered manually, so that the defects of low adhering speed and low adhering precision exist.

Disclosure of Invention

In view of the above-mentioned defects of the prior art, the present invention aims to provide a high temperature adhesive tape sticking machine, which can automatically stick high temperature adhesive tape by a controller, and has high sticking efficiency and high sticking precision.

The purpose of the invention is realized by the following technical scheme:

a high-temperature adhesive tape sticking machine comprises,

a base plate;

the limiting assembly is arranged on the bottom plate;

the first vertical plate is arranged on the bottom plate;

the second vertical plate is arranged on the floor relative to the first vertical plate;

the colloid placing assembly is arranged on the first vertical plate;

two ends of the transverse plate are fixedly connected with the first vertical plate and the second vertical plate respectively;

the pressing component is arranged on the transverse plate and is opposite to the bottom plate;

the horizontal movement assembly is arranged on the second vertical plate;

the lifting motion assembly is arranged on the motion end of the horizontal motion assembly;

the telescopic motion assembly is arranged at the motion end of the lifting motion assembly, and the motion direction of the telescopic motion assembly is vertical to the telescopic directions of the lifting motion assembly and the horizontal motion assembly;

the clamping assembly is arranged on the moving end of the telescopic moving assembly and can be opposite to the colloid placing assembly;

and the cutting assembly is arranged on the moving end of the telescopic moving assembly and is positioned on one side of the clamping assembly.

Further, the limiting component comprises a plurality of limiting elements,

the two limiting baffles are respectively arranged on the outer side surfaces of the first vertical plate and the second vertical plate, are respectively arranged outside the side surfaces of the first vertical plate and the second vertical plate, and have opposite extending directions;

the positioning plate is arranged on the bottom plate and positioned between the two limiting baffle plates, and the upper end face of the positioning plate is provided with a plurality of limiting grooves.

Further, the colloid placement component comprises a colloid placing component,

the bearing seat is arranged on the outer side of the first vertical plate, and a through hole vertical to the plate surface of the first vertical plate is formed in the bearing seat;

the bearing is arranged in the through hole;

the shaft lever is arranged in the inner ring of the bearing;

the rubber wheel is arranged on the shaft lever; the rubber wheel can be opposite to the clamping component.

Further, the rubber wheel comprises a rubber wheel body,

the wheel body is sleeved on the shaft lever; an annular groove is formed in the wheel body;

the cover plate is sleeved on the wheel body and can shield one end of the annular groove;

the screw is in threaded connection with the shaft lever and fixes the cover plate on the shaft lever;

the rubber guide rod is provided with an annular groove, and the annular groove is opposite to the rubber wheel.

Further, the pressing assembly comprises a pressing component,

the first cylinder is arranged on the transverse plate;

the pressing plate is arranged right below the transverse plate and is connected with the telescopic end of the first cylinder;

one end of the guide rod is connected with the upper surface of the pressing plate, and the other end of the guide rod penetrates through the transverse plate;

the linear bearing is arranged on the upper surface of the transverse plate; the other end of the guide rod is positioned in the linear bearing.

Further, the pressing component also comprises a pressing component,

the second cylinder is arranged on the inner side of the pressing plate and is parallel to the pressing plate;

the second side plate is arranged on the end face of the pressing plate and is opposite to the first vertical plate, and the lower end face of the second side plate is flush with the lower end face of the pressing plate.

Further, the pressing component also comprises,

the third cylinder is arranged on the outer side of the pressing plate and is parallel to the pressing plate;

and the third side plate is arranged on the end face of the pressing plate and is opposite to the second vertical plate, and the lower end face of the third side plate is flush with the lower end face of the pressing plate.

Further, the horizontal movement assembly includes,

the fourth cylinder is arranged on the second vertical plate;

the guide rail is arranged on the transverse plate;

the sliding block is arranged on the guide rail and is connected with the telescopic end of the fourth cylinder; the lifting motion assembly is arranged on the sliding block.

Further, the grasping assembly includes, in combination,

the clamping cylinder is arranged on the moving end of the telescopic moving component;

the two clamping fingers are respectively arranged on the two moving ends of the clamping hand cylinder; the moving direction of the clamping fingers is perpendicular to the bottom plate and can be opposite to the colloid placing component.

Further, the cutting assembly includes,

the fifth cylinder is arranged at the moving end of the telescopic moving assembly, and the moving direction of the fifth cylinder is parallel to the moving direction of the telescopic moving assembly;

the blade fixing frame is arranged on the telescopic end of the fifth cylinder;

the blade is arranged on the blade fixing frame; the blade is positioned between the gripping portion of the gripping assembly and the hold-down assembly.

Due to the adoption of the technical scheme, the invention has the following advantages:

the high-temperature glue pasting device comprises a base plate, a glue body placing assembly, a clamping assembly and a horizontal moving assembly, wherein a product to be pasted with the high-temperature glue is placed in a limiting mode through the base plate and the limiting assembly;

the high-temperature glue is pressed on a product through the pressing component, the clamping component is moved to the initial position through the horizontal moving component, the non-sheared high-temperature glue is clamped and fixed through the lifting moving component and the clamping component, and finally the adhered high-temperature glue is separated from the rest of glue bodies through the cutting component.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The drawings of the invention are illustrated as follows:

fig. 1 is a schematic front view of an embodiment of a high temperature adhesive tape.

Fig. 2 is a rear view structural diagram of fig. 1.

Fig. 3 is a schematic view of a first three-dimensional structure of the high temperature adhesive tape sticking apparatus in the embodiment.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is an enlarged schematic view of a portion B in fig. 3.

Fig. 6 is an enlarged schematic view of the structure at C in fig. 3.

Fig. 7 is a schematic diagram of a second three-dimensional structure of the high temperature adhesive tape sticking machine in the embodiment.

Fig. 8 is an enlarged schematic view of the structure at D in fig. 7.

In the figure: 1. a base plate; 21. a limiting baffle; 22. positioning a plate; 221. a limiting groove; 3. a first vertical plate; 4. a second vertical plate; 51. a bearing seat; 52. a bearing; 53. a shaft lever; 541. a wheel body; 542. a cover plate; 543. a screw; 544. a colloid guide rod; 61. a first cylinder; 62. pressing a plate; 63. a guide bar; 64. a linear bearing 52; 65. a second cylinder; 66. a second side plate; 67. a third cylinder; 68. a third side plate; 71. a fourth cylinder; 72. a guide rail; 73. a slider; 8. a lifting motion assembly; 9. a telescoping motion assembly; 101. a gripper cylinder; 102. clamping fingers; 111. a fifth cylinder; 112. a blade holder; 113. a blade; 12. a transverse plate; 200. and (5) producing the product.

Detailed Description

The invention is further illustrated by the following figures and examples.

Example (b):

as shown in fig. 1 to 8, a high temperature adhesive applicator includes,

a base plate 1;

the limiting assembly is arranged on the bottom plate 1;

the first vertical plate 3 is arranged on the bottom plate 1;

the second vertical plate 4 is arranged on the floor relative to the first vertical plate 3;

the colloid placing component is arranged on the first vertical plate 3;

a transverse plate 12, two ends of which are respectively fixedly connected with the first vertical plate 3 and the second vertical plate 4;

the pressing component is arranged on the transverse plate 12 and is opposite to the bottom plate 1;

the horizontal movement assembly is arranged on the second vertical plate 4;

the lifting motion assembly 8 is arranged on the motion end of the horizontal motion assembly;

the telescopic motion assembly 9 is arranged at the motion end of the lifting motion assembly 8, and the motion direction of the telescopic motion assembly 9 is vertical to the telescopic directions of the lifting motion assembly 8 and the horizontal motion assembly;

the clamping assembly is arranged on the moving end of the telescopic moving assembly 9 and can be opposite to the colloid placing assembly;

and the cutting assembly is arranged on the moving end of the telescopic moving assembly 9 and is positioned on one side of the clamping assembly.

The product 200 to be pasted with the high-temperature glue is placed in a limiting mode through the bottom plate 1 and the limiting assembly, the high-temperature glue to be pasted is placed through the glue placing assembly, the high-temperature glue is clamped through the clamping assembly, and the high-temperature glue is moved to the position right above the area to be pasted of the product 200 through the horizontal moving assembly;

the high-temperature glue is pressed on the product 200 through the pressing component, the clamping component is moved to the initial position through the horizontal moving component, the non-sheared high-temperature glue is clamped and fixed through the lifting moving component 8 and the clamping component, and finally the adhered high-temperature glue is separated from the rest of glue body through the cutting component.

In this embodiment, the position-limiting assembly includes,

the two limiting baffles 21 are respectively arranged on the outer side surfaces of the first vertical plate 3 and the second vertical plate 4, are respectively arranged outside the side surfaces of the first vertical plate 3 and the second vertical plate 4, and have opposite extending directions;

the positioning plate 22 is arranged on the bottom plate 1 and positioned between the two limiting baffle plates 21, and the upper end surface of the positioning plate is provided with a plurality of limiting grooves 221.

The Y-axis direction of the product 200 is limited by two limiting baffles 21; positioning the Z-axis direction of the product 200 through the bottom plate 1; the product 200 is limited in the X-axis direction by the limiting groove 221 of the positioning plate 22, so that the product 200 is accurately limited.

In this embodiment, the glue placing assembly includes,

the bearing seat 51 is arranged on the outer side of the first vertical plate 3, and a through hole vertical to the plate surface of the first vertical plate 3 is formed in the bearing seat 51;

a bearing 52 disposed in the through hole;

a shaft 53 disposed within the inner ring of the bearing 52;

a rubber wheel arranged on the shaft lever 53; the rubber wheel can be opposite to the clamping component.

The adhesive tape can be smoothly pulled out by sleeving the adhesive body on the adhesive wheel.

In this embodiment, the rubber wheel includes,

a wheel body 541 coated on the shaft 53; an annular groove is formed in the wheel body 541;

a cover plate 542 which is fitted over the wheel body 541 and covers one end of the annular groove;

a screw 543 screwed to the shaft 53 to fix the cover plate 542 to the shaft 53;

the colloid guide rod 544 is provided with an annular groove, and the annular groove is opposite to the rubber wheel.

Since the rubber is in a roll shape, the rubber is simply put around the annular groove of the wheel body 541, and one end surface of the rubber is closed by the cover plate 542. At the same time, in order to guide the glue to a suitable height, glue guide bars 544 are provided.

In this embodiment, the pressing assembly includes,

a first cylinder 61 provided on the cross plate 12;

the pressing plate 62 is arranged right below the transverse plate 12 and is connected with the telescopic end of the first air cylinder 61;

one end of the guide rod 63 is connected with the upper surface of the pressing plate 62, and the other end of the guide rod passes through the transverse plate 12;

a linear bearing 64 arranged on the upper surface of the transverse plate 12; the other end of the guide rod 63 is positioned in the linear bearing 64;

the pressing plate 62 can be pressed downwards by the first cylinder 61, so that the pressing plate 62 can press the adhesive tape to the surface of the product 200, and meanwhile, in order to ensure that the pressing plate 62 moves downwards vertically, the guide rod 63 is arranged, and meanwhile, in order to ensure smooth pressing, the linear bearing 64 is arranged.

In this embodiment, the pressing assembly further comprises,

a second cylinder 65 disposed inside the pressing plate 62 in parallel to the pressing plate 62;

and the second side plate 66 is arranged on the end surface of the pressing plate 62 and is opposite to the first vertical plate 3, and the lower end surface of the second side plate is flush with the lower end surface of the pressing plate 62.

The adhesive tape pushes down the in-process because it can't press the head end of adhesive tape (the one end of getting the subassembly pulling by pressing, because must guarantee to press from both sides the subassembly and get this colloid all the time at the in-process that the clamp plate 62 moved down, the colloid just like this just can keep being located directly over waiting to paste the region at the in-process that pushes down), consequently after pressing the completion, need start second cylinder 65 and press the head end of adhesive tape to product 200.

In this embodiment, the pressing assembly further comprises,

a third cylinder 67 disposed outside the pressing plate 62 in parallel with the pressing plate 62;

and the third side plate 68 is arranged on the end surface of the pressing plate 62 and is opposite to the second vertical plate 4, and the lower end surface of the third side plate is flush with the lower end surface of the pressing plate 62.

After the pressing plate 62 is pressed, the cutting assembly is started to cut the colloid into short pieces, the cut short pieces are in a suspended state and are not adhered to the product 200, and at the moment, the third air cylinder 67 needs to be started to push the third side plate 68 to press the colloid onto the product 200.

In this embodiment, the horizontal movement assembly includes,

a fourth cylinder 71 provided on the second vertical plate 4;

a guide rail 72 provided on the cross plate 12;

a slider 73 disposed on the guide rail 72 and connected to the telescopic end of the fourth cylinder 71; the lifting movement assembly 8 is arranged on a slide 73.

The elevating movement assembly 8 is pushed to move horizontally by the fourth cylinder 71, the guide rail 72 and the slider 73.

In this embodiment, the gripping assembly includes,

the clamping cylinder 101 is arranged on the moving end of the telescopic moving component 9;

the two clamping fingers 102 are respectively arranged on two moving ends of the clamping hand cylinder 101; the moving direction of the clamping fingers 102 is perpendicular to the bottom plate 1 and can be opposite to the colloid placement component.

The opening and closing of the two clamping fingers 102 are controlled by the clamping cylinder 101, so that the colloid is held and loosened.

In this embodiment, the cutting assembly includes,

a fifth cylinder 111 disposed at a moving end of the telescopic moving assembly 9, wherein a moving direction of the fifth cylinder 111 is parallel to a moving direction of the telescopic moving assembly 9;

a blade holder 112 disposed on the telescopic end of the fifth cylinder 111;

a blade 113 provided on the blade holder 112; the blade 113 is located between the jaw portion of the jaw assembly and the hold-down assembly.

The fifth cylinder 111 controls the movement of the blade fixing frame 112, so as to drive the blade 113 to move, and further realize that the blade 113 cuts colloid.

The high temperature adhesive tape is used in this embodiment by placing the adhesive on the wheel body 541, fixing the adhesive with the screw 543 through the cover plate 542, manually pulling one end of the adhesive to place the adhesive on the fingertips of the two fingers 102, and then placing the product 200 on the bottom plate 1.

The gripper cylinder 101 is started to enable the two gripper fingers 102 to clamp the glue, and then the fourth cylinder 71 is controlled to be shortened, so that the adhesive tape is pulled out of the glue and moved to the other end of the product 200, and the lifting motion assembly 8 is controlled to be reduced, so that the head end of the adhesive tape is close to the surface of the product 200 as far as possible.

The first cylinder 61 is activated to extend and the pressure plate 62 presses the glue strip down onto the product 200. Controlling the two clamping fingers 102 to be loosened, and then controlling the telescopic motion assembly 9 to enable the clamping fingers 102 to be far away from the rubber strip; then the fourth cylinder 71 is controlled to extend, so that the clamping fingers 102 move back, and the telescopic motion assembly 9 is controlled to rise, so that the two clamping fingers 102 are opposite to the rubber strip; the extension of the telescopic motion assembly 9 is controlled so that the glue strip is located between the two clamping fingers 102.

The two clamping fingers 102 are controlled to clamp the rubber strip, and the fifth air cylinder 111 is controlled to extend, so that the rubber strip is cut off by a large piece.

The second and third air cylinders 65 and 67 are controlled to be extended so that the second and third side plates 66 and 68 press both ends of the adhered gel to the product 200.

This completes the application of the high temperature glue strip to the product 200.

Finally, the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all of them should be covered by the claims of the present invention.

Claims (1)

1. A high temperature adhesive tape sticking machine is characterized by comprising,

a base plate;

the limiting assembly is arranged on the bottom plate;

the first vertical plate is arranged on the bottom plate;

the second vertical plate is arranged on the floor relative to the first vertical plate;

the colloid placing assembly is arranged on the first vertical plate;

the two ends of the transverse plate are fixedly connected with the first vertical plate and the second vertical plate respectively;

the pressing component is arranged on the transverse plate and is opposite to the bottom plate;

the horizontal movement assembly is arranged on the second vertical plate;

the lifting motion assembly is arranged on the motion end of the horizontal motion assembly;

the telescopic motion assembly is arranged at the motion end of the lifting motion assembly, and the motion direction of the telescopic motion assembly is vertical to the telescopic directions of the lifting motion assembly and the horizontal motion assembly;

the clamping assembly is arranged on the moving end of the telescopic moving assembly and can be opposite to the colloid placing assembly;

the cutting assembly is arranged on the moving end of the telescopic moving assembly and is positioned on one side of the clamping assembly;

the limiting component comprises a limiting component and a limiting component,

the two limiting baffles are respectively arranged on the outer side surfaces of the first vertical plate and the second vertical plate, are respectively arranged outside the side surfaces of the first vertical plate and the second vertical plate, and have opposite extending directions;

the positioning plate is arranged on the bottom plate and positioned between the two limiting baffle plates, and a plurality of limiting grooves are formed in the upper end surface of the positioning plate;

the press-down assembly described below is comprised of,

the first cylinder is arranged on the transverse plate;

the pressing plate is arranged right below the transverse plate and is connected with the telescopic end of the first cylinder;

one end of the guide rod is connected with the upper surface of the pressing plate, and the other end of the guide rod penetrates through the transverse plate;

the linear bearing is arranged on the upper surface of the transverse plate; the other end of the guide rod is positioned in the linear bearing;

the press-down assembly further comprises a press-down component,

the third cylinder is arranged on the outer side of the pressing plate and is parallel to the pressing plate;

the third side plate is arranged on the end face of the pressing plate and is opposite to the second vertical plate, and the lower end face of the third side plate is flush with the lower end face of the pressing plate; the colloid placing component comprises a colloid placing component,

the bearing seat is arranged on the outer side of the first vertical plate, and a through hole vertical to the plate surface of the first vertical plate is formed in the bearing seat;

the bearing is arranged in the through hole;

the shaft lever is arranged in the inner ring of the bearing;

the rubber wheel is arranged on the shaft lever; the rubber wheel can be over against the clamping assembly;

the rubber wheel comprises a rubber wheel and a rubber wheel,

the wheel body is sleeved on the shaft lever; an annular groove is formed in the wheel body;

the cover plate is sleeved on the wheel body and can shield one end of the annular groove;

the screw is in threaded connection with the shaft lever and fixes the cover plate on the shaft lever;

the rubber guide rod is provided with an annular groove, and the annular groove is opposite to the rubber wheel;

the push-down assembly further comprises a push-down assembly,

the second cylinder is arranged on the inner side of the pressing plate and is parallel to the pressing plate;

the second side plate is arranged on the end face of the pressing plate and is opposite to the first vertical plate, and the lower end face of the second side plate is flush with the lower end face of the pressing plate;

the horizontal movement assembly comprises a horizontal movement assembly and a horizontal movement assembly,

the fourth cylinder is arranged on the second vertical plate;

the guide rail is arranged on the transverse plate;

the sliding block is arranged on the guide rail and is connected with the telescopic end of the fourth cylinder; the lifting motion assembly is arranged on the sliding block;

the clamping assembly comprises a clamping component and a clamping component,

the clamping cylinder is arranged on the moving end of the telescopic moving component;

the two clamping fingers are respectively arranged on the two moving ends of the clamping hand cylinder; the moving direction of the clamping fingers is perpendicular to the bottom plate and can be opposite to the colloid placing component;

the cutting assembly comprises a cutting component and a cutting component,

the fifth cylinder is arranged at the moving end of the telescopic moving assembly, and the moving direction of the fifth cylinder is parallel to the moving direction of the telescopic moving assembly;

the blade fixing frame is arranged on the telescopic end of the fifth cylinder;

the blade is arranged on the blade fixing frame; the blade is positioned between the clamping part of the clamping assembly and the pressing assembly.

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