CN221295641U - Adhesive tape shearing and sticking preventing device and adhesive tape sticking device - Google Patents

Abstract

The application provides an adhesive tape shearing and sticking preventing device and an adhesive tape sticking device, comprising: the first mounting plate and the shearing mechanism are arranged on the first mounting plate, and the shearing mechanism is used for shearing the adhesive tape; the movable swinging mechanism is arranged on the first mounting plate and connected with the shearing mechanism, and the movable swinging mechanism drives the shearing mechanism to swing through linear displacement; and the wiping and smearing mechanism is positioned at one side of the movable swinging mechanism and connected with the first mounting plate, and is used for removing the adhesive tape adhered on the shearing mechanism. The device provided by the application realizes the processes of non-sticky tape or sticky layer residues on the shearing mechanism through the procedures of sticky tape shearing, moving and swinging of the shearing mechanism, wiping, moving and swinging of the shearing mechanism back to the initial shearing position and the like, reduces the shutdown fault of the device caused by sticky and improves the production efficiency; meanwhile, the device does not need to manually clean the incision, and limb scratches caused by manual incision cleaning are avoided.

Description

Adhesive tape shearing and sticking preventing device and adhesive tape sticking device

Technical Field

The application relates to the technical field of adhesive tape shearing, in particular to an adhesive tape shearing anti-sticking device and an adhesive tape sticking device.

Background

With the development of electric automobiles, the consumption of the cable harness is increased, so that the harness protection requirement is more strict. At present, an adhesive tape shearing device is needed to achieve the effect of automatic production aiming at the processes of adhesive tape winding, adhesive tape opposite sticking and the like. However, since the adhesive tape is cut, the tape cutting device has the following problems: the adhesive tape can be stuck on the edge of the scissors in the shearing process; or the scissors blade has a stretching and cutting process to the adhesive layer, so that the adhesive layer remains and adheres to the blade, and as the shearing times are increased, the adhesive residue is more, so that the scissors fail.

Disclosure of utility model

The application provides an adhesive tape shearing and sticking prevention device and an adhesive tape sticking device, aiming at ensuring that the edge of a pair of scissors does not stick adhesive tape or adhesive layer residues.

The application provides an adhesive tape shearing and anti-sticking device, which comprises:

The adhesive tape cutting device comprises a first mounting plate and a cutting mechanism arranged on the first mounting plate, wherein the cutting mechanism is used for cutting off adhesive tapes;

The movable swinging mechanism is arranged on the first mounting plate and connected with the shearing mechanism, and the movable swinging mechanism drives the shearing mechanism to swing through linear displacement;

And the wiping and smearing mechanism is positioned at one side of the movable swinging mechanism and connected with the first mounting plate, and is used for removing the adhesive tape adhered on the shearing mechanism.

In some embodiments, the mobile rocking mechanism comprises a displacement assembly and a rocking assembly;

The displacement assembly is connected with the shearing mechanism and is used for driving the shearing mechanism to execute linear displacement;

the swinging component is connected between the shearing mechanism and the first mounting plate and is used for enabling the shearing mechanism to swing towards the wiping and smearing mechanism after the shearing mechanism performs linear displacement.

In some embodiments, the displacement assembly comprises:

The sliding rail is connected with the first mounting plate;

The first air cylinder is connected with the first mounting plate;

the sliding block is arranged on the sliding rail and connected with the first cylinder, and the sliding block is connected with the shearing mechanism.

In some embodiments, the swing assembly comprises:

a first connection plate connected to the first mounting plate;

The second connecting plate is connected with one side, far away from the first mounting plate, of the first connecting plate, and the second connecting plate is provided with a swinging chute;

the limiting component is arranged in the swing chute;

The third connecting plate is connected between the limiting assembly and the shearing mechanism, and the shearing mechanism drives the limiting assembly to move in the swing chute through the third connecting plate.

In some embodiments, the swing chute has an extension area and a bending area that are in communication with each other, the extension area has a first inner wall, the bending area has a second inner wall, the first inner wall is connected with the second inner wall, and an included angle between the first inner wall and the second inner wall is α, which satisfies: alpha is more than or equal to 120 degrees and less than or equal to 150 degrees;

The limiting component moves from the extending area to the bending area, and the swinging component drives the shearing mechanism to swing towards the wiping and smearing mechanism.

In some embodiments, the spacing assembly includes first and second spacing posts disposed in spaced apart relation;

The third connecting plate comprises a first section and a second section which are connected with each other, the first limit column and the second limit column are arranged along the direction vertical to the first section and are connected with the first section, and one side, far away from the first section, of the second section is connected with the shearing mechanism;

The distance between the axle center of the first spacing post and the axle center of the second spacing post is R mm, the bending region has the maximum length L mm, and the following conditions are satisfied: l > R.

In some embodiments, the wiping mechanism comprises:

The second mounting plate is connected with the first mounting plate;

The storage bottle is connected with the second mounting plate and used for storing an anti-adhesion agent;

the wiping component is arranged on the second mounting plate;

And the siphon is connected between the storage bottle and the wiping component and is used for adsorbing the anti-adhesion agent to the wiping component.

In some embodiments, the wiping assembly comprises:

the connecting part is connected with the second mounting plate;

The mounting part is connected with one side of the connecting part, which is far away from the second mounting plate, the mounting part is provided with a through cavity, and the siphon pipe penetrates through the mounting part and is communicated with the cavity;

the adsorption part is arranged in the cavity, adsorbs the anti-adhesion agent through the siphon pipe and is used for wiping the swinging shearing mechanism and smearing the anti-adhesion agent.

In some embodiments, the shearing mechanism comprises:

The rotating shaft is connected with the sliding block;

the second air cylinder is connected with the rotating shaft, and the third connecting plate is connected with the second air cylinder;

the scissors are connected with the second air cylinder;

The sliding block drives the scissors to execute the linear displacement through the rotating shaft, and the second air cylinder drives the scissors to swing through the rotating shaft.

In some embodiments, the application further provides an adhesive tape sticking device, which comprises the adhesive tape shearing anti-sticking device.

The application has the following beneficial effects: the application provides an adhesive tape shearing and anti-sticking device, which comprises: the first mounting plate and the shearing mechanism are arranged on the first mounting plate, and the shearing mechanism is used for shearing the adhesive tape; the movable swinging mechanism is arranged on the first mounting plate and connected with the shearing mechanism, and the movable swinging mechanism drives the shearing mechanism to swing through linear displacement; and the wiping and smearing mechanism is positioned at one side of the movable swinging mechanism and connected with the first mounting plate, and is used for removing the adhesive tape adhered on the shearing mechanism. The device provided by the application realizes the processes of non-sticky tape or sticky layer residues on the shearing mechanism through the procedures of sticky tape shearing, moving and swinging of the shearing mechanism, wiping, moving and swinging of the shearing mechanism back to the initial shearing position and the like, reduces the shutdown fault of the device caused by sticky and improves the production efficiency; meanwhile, the device does not need to manually clean the incision, and limb scratches caused by manual incision cleaning are avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 schematically illustrates a schematic view of a tape shear release device shearing tape in an embodiment of the present application;

FIG. 2 illustrates a left side view of FIG. 1;

FIG. 3 schematically illustrates a top view of FIG. 1;

FIG. 4 schematically illustrates wiping of a tape shear release device in an embodiment of the application;

FIG. 5 schematically illustrates a top view of FIG. 4;

Fig. 6 is a schematic structural view schematically showing a second connection plate in an embodiment of the present application;

FIG. 7 is a schematic view illustrating a portion of the spacing assembly moving to the inflection zone according to an embodiment of the present application;

FIG. 8 schematically illustrates a configuration of a wiping mechanism in an embodiment of the application;

FIG. 9 illustrates an isometric rear view of FIG. 8;

FIG. 10 schematically illustrates a shear mechanism in accordance with an embodiment of the present application;

Reference numerals: 1-first mounting plate, 2-shearing mechanism, 21-rotating shaft, 22-second cylinder, 23-scissors, 3-moving swing mechanism, 31-displacement assembly, 311-slide rail, 312-first cylinder, 313-slide block, 32-swing assembly, 321-first connecting plate, 322-second connecting plate, 323-swing chute, 3231-extension area, 3232-bending area, 3233-first inner wall, 3234-second inner wall, 324-limit assembly, 3241-first limit column, 3242-second limit column, 325-third connecting plate, 3251-first section, 3252-second section, 4-wiping and smearing mechanism, 41-second mounting plate, 42-storage bottle, 43-wiping assembly, 431-connecting portion, 432-mounting portion, 433-adsorbing portion, 4321-cavity, 44-siphon tube, 5-adhesive tape.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application. Furthermore, it should be understood that the detailed description is presented herein for purposes of illustration and description only, and is not intended to limit the application. In the present application, unless otherwise indicated, terms of orientation such as "upper", "lower", "left" and "right" are generally used to refer to the directions of the upper, lower, left and right sides of the device in actual use or operation, and are specifically shown in the drawings.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

The application provides a tape sticking device, which is described in detail below. It should be noted that the following description order of the embodiments is not intended to limit the preferred order of the embodiments of the present application. In the following embodiments, the descriptions of the embodiments are focused on, and for the part that is not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

The applicant finds that with the continuous development of automobiles, the electric automobiles are rapidly increased, the consumption of cable harnesses is increased, the safety coefficient is relatively improved greatly, and the requirements on harness protection are more strict. At present, automatic winding adhesive tape, fluff adhesive tape opposite-sticking mechanisms and the like can use automatic shearing, thereby achieving the effect of automatic production. Since the shear is an adhesive tape, the main problems with this mechanism are as follows: 1) When in shearing, the adhesive tape can be stuck on the edge of the scissors; 2) In the shearing process, the shearing edge has a stretching and cutting process on the adhesive layer, so that the adhesive layer residue can adhere to the edge, and along with the increase of the shearing times, the more the adhesive residue is.

Based on this, it is necessary to provide an adhesive tape shearing and sticking device and an adhesive tape sticking device to solve the above technical problems.

Referring to fig. 1-10, the present embodiment provides an adhesive tape shearing and anti-sticking device, including: the device comprises a first mounting plate 1, a shearing mechanism 2, a movable swinging mechanism 3 and a wiping and smearing mechanism 4 which are arranged on the first mounting plate 1; the shearing mechanism 2 is used for shearing the adhesive tape 5; the movable swinging mechanism 3 is arranged on the first mounting plate 1, the movable swinging mechanism 3 is connected with the shearing mechanism 2, and the movable swinging mechanism 3 drives the shearing mechanism 2 to swing through linear displacement; the wiping and smearing mechanism 4 is positioned at one side of the movable swinging mechanism 3 and is connected with the first mounting plate 1, and the wiping and smearing mechanism 4 is used for removing the adhesive tape 5 adhered on the shearing mechanism 2.

The device can automatically cut off the adhesive tape, does not need manual operation, saves time and manpower resources, and remarkably improves the production speed and efficiency. The wiping and smearing mechanism is positioned on one side of the movable swinging mechanism and is used for removing the adhesive tape adhered on the shearing mechanism, and the adhesive tape can be reduced from adhering on the shearing mechanism through wiping and smearing, so that the accumulation and blockage of the adhesive tape are avoided, and the normal operation of the device is maintained. The movable swinging mechanism drives the shearing mechanism to swing through linear displacement, so that the swing of the shearing mechanism can be better controlled, and the phenomenon that the shearing mechanism cannot be wiped due to the fact that the shearing mechanism is not in place can be avoided; the adhesive tape adhered on the shearing mechanism is removed by periodically wiping the smearing mechanism, so that the abrasion and fatigue of the adhesive tape can be reduced, and the service life of the shearing mechanism is prolonged. The automatic shearing process reduces the risk of manual operation, avoids the damage caused by misoperation, and meanwhile, the adhesive tape on the shearing mechanism is cleaned regularly, so that the operation safety is improved, and accidents are reduced.

In a lower embodiment, with further reference to fig. 1, 2 and 3, the mobile rocking mechanism 3 comprises a displacement assembly 31 and a rocking assembly 32; the displacement component 31 is connected with the shearing mechanism 2, and the displacement component 31 is used for driving the shearing mechanism 2 to execute linear displacement; the swinging component 32 is connected between the shearing mechanism 2 and the first mounting plate 1, and the swinging component 32 is used for enabling the shearing mechanism 2 to swing towards the wiping and smearing mechanism 4 after the shearing mechanism 2 performs linear displacement.

It should be noted that, the displacement assembly 31 is connected with the shearing mechanism 2, and drives the shearing mechanism 2 to execute movement in a linear displacement manner, so that the shearing mechanism 2 can rapidly and accurately displace in the horizontal direction, the movement flexibility of the device is increased, and the device is suitable for diversified shearing requirements. The swinging unit 32 functions to swing the shearing mechanism 2 toward the wiping mechanism 4 after the shearing mechanism 2 performs the linear displacement. This allows the cutting mechanism 2 to swing in different directions, achieving a multidirectional tape cutting operation. By means of the linear displacement of the displacement assembly 31 and the swinging of the swinging assembly 32, the shearing mechanism 2 can perform more flexible actions, so that the requirements of wiping and smearing positions are better met.

In some embodiments, with further reference to fig. 4, displacement assembly 31 comprises: a slide rail 311, a first cylinder 312 and a slider 313; the sliding rail 311 is connected with the first mounting plate 1; the first cylinder 312 is connected with the first mounting plate 1; the slider 313 is disposed on the sliding rail 311 and connected to the first cylinder 312, and the slider 313 is connected to the shearing mechanism 2. It can be appreciated that after the first cylinder 312 is started, the slider 313 can be controlled to move on the sliding rail 311, so as to control the shearing mechanism 2 to perform linear displacement.

In some embodiments, with further reference to fig. 1-5, the swing assembly 32 includes a first connection plate 321, a second connection plate 322, a stop assembly 324, and a third connection plate 325; the first connection plate 321 is connected to the first mounting plate 1; the second connecting plate 322 is connected with one side of the first connecting plate 321 far away from the first mounting plate 1, and the second connecting plate 322 is provided with a swinging chute 323; the limiting component 324 is arranged in the swing chute 323; the third connecting plate 325 is connected between the limiting component 324 and the shearing mechanism 2, and the shearing mechanism 2 drives the limiting component 324 to move in the swing chute 323 through the third connecting plate 325. It will be appreciated that the first connection plate 321 is connected to the first mounting plate 1 to provide stable support of the swing assembly 32. By adjusting the position of the limiting component 324 in the swing chute 323, the swing amplitude and the angle of the shearing mechanism 2 can be controlled, the shearing mechanism 2 is prevented from excessively swinging or exceeding a specified range, the shearing mechanism 2 drives the limiting component 324 to move in the swing chute 323 through the third connecting plate 325, the stability and the reliability of the system are improved, and the synchronous coordination of the action of the shearing mechanism 2 and the movement of the limiting component 324 is ensured.

In some embodiments, further referring to fig. 6, the swing chute 323 has an extension region 3231 and a kink region 3232 in communication with each other, the extension region 3231 has a first inner wall 3233, the kink region 3232 has a second inner wall 3234, the first inner wall 3233 is connected to the second inner wall 3234, and an angle α between the first inner wall 3233 and the second inner wall 3234 is: alpha is more than or equal to 120 degrees and less than or equal to 150 degrees; when the limiting component 324 moves from the extending region 3231 to the bending region 3232, the swinging component 32 drives the shearing mechanism 2 to swing towards the wiping and smearing mechanism 4.

It will be appreciated that the swing chute 323 divides the movement of the stop assembly 324 into two parts, one part being that the stop assembly 324 is within the extension 3231 and can perform a linear displacement with the shear mechanism 2; the other part is that the limiting component 324 is arranged in the bending area 3232 to realize the swinging of the shearing mechanism 2. Wherein, the included angle α between the first inner wall 3233 and the second inner wall 3234 can determine the swinging angle of the shearing mechanism 2, and when the range of α is 120 ° or more and 150 ° or less is satisfied, the swinging range of the shearing mechanism 2 can be ensured to pass through the wiping and applying mechanism 4, and the wiping and applying mechanism 4 acts to remove the adhesive tape 5 adhered on the shearing mechanism 2.

In some embodiments, with further reference to fig. 2, 4, and 7, the stop assembly 324 includes first and second stop posts 3241, 3242 disposed in spaced apart relation; the third connection plate 325 includes a first section 3251 and a second section 3252 connected to each other, the first limit post 3241 and the second limit post 3242 are disposed along a direction perpendicular to the first section 3251 and connected to the first section 3251, and a side of the second section 3252 away from the first section 3251 is connected to the shearing mechanism 2; the distance between the axis of the first spacing post 3241 and the axis of the second spacing post 3242 is R mm, and the bending region 3232 has a maximum length L mm, satisfying: l > R.

It will be appreciated that by providing the first limit post 3241 and the second limit post 3242, the range of oscillation of the shear mechanism 2 may be further determined; the structure of the two limiting columns can strengthen the connection stability of the limiting assembly 324 in the swing chute 323, and avoid any play possibly generated by a single limiting column in the swing chute 323, thereby affecting the swing of the shearing mechanism 2. The first and second spacing posts 3241, 3242 are disposed in parallel, so that the axes of the first and second spacing posts 3241, 3242 are also parallel to each other, and the distance R between the axes of the first and second spacing posts 3241, 3242 determines the size of the entire spacing assembly 324 relative to the bending region 3232. Meanwhile, the maximum length L of the bending region 3232 can be understood as the maximum distance that the bending region 3232 extends relative to the extending region 3231, and when L > R is satisfied, it is ensured that the shearing mechanism 2 has enough space and angle to reach the position of the wiping and applying mechanism 4 during the swinging process, so that the wiping and applying mechanism 4 is difficult to wipe or apply the anti-adhesive agent to the shearing mechanism 2 due to the smaller swinging angle caused by the fact that L is smaller than R is avoided. Of course, the distance L is also determined by factors such as the actual relative positions of the shearing mechanism 2 and the wiping mechanism 4, and the angle α between the first inner wall 3233 and the second inner wall 3234, and therefore, it is not preferable that the distance L is larger. In addition, the first section 3251 and the second section 3252 are also vertically connected, and by providing the first section 3251 and the second section 3252, the installation space of the third connection plate 325 can be greatly saved, so as to realize the tight arrangement of the shearing mechanism 2 and the swinging assembly 32.

In some embodiments, with further reference to fig. 8 and 9, the wiping mechanism 4 includes a second mounting plate 41, a storage bottle 42, a wiping assembly 43, and a siphon tube 44; the second mounting plate 41 is connected to the first mounting plate 1; the storage bottle 42 is connected with the second mounting plate 41 for storing an anti-adhesive agent; the wiping component 43 is arranged on the second mounting plate 41; a siphon tube 44 is connected between the storage bottle 42 and the wiper member 43, the siphon tube 44 serving to adsorb the anti-adhesive to the wiper member 43. Further, the wiper member 43 includes a connection portion 431, a mounting portion 432, and an adsorption portion 433; the connection portion 431 is connected to the second mounting plate 41; the mounting portion 432 is connected to the connecting portion 431 at a side away from the second mounting plate 41, the mounting portion 432 is provided with a through cavity 4321, and the siphon tube 44 penetrates the mounting portion 432 and communicates with the cavity 4321; the adsorption part 433 is arranged in the cavity 4321, and the adsorption part 433 adsorbs the anti-adhesion agent through the siphon pipe 44 and is used for wiping the swinging shearing mechanism 2 and smearing the anti-adhesion agent.

It will be appreciated that the siphon tube 44 is provided with high density fibers therein, so that the adsorption portion 433 is kept wet and adsorbed with the anti-adhesive agent by the fiber self-adsorption principle; the adsorption part 433 can adopt a fluff wiping plate or other hard materials with adsorption capacity; as shown in fig. 9, two groups of siphon tubes 44 and adsorption parts are respectively arranged, and the two adsorption parts 433 are butted to form two inclined planes with a certain angle, and a certain gap is formed between the bottom of the wiping component 43 and the two mounting plates 41, so that the two inclined planes can be respectively corresponding to the opened scissors heads of the shearing mechanism 2. The inclined surface is made of hard material and is used for wiping the shearing mechanism 2 and coating the anti-adhesion agent adsorbed by the adsorption part on the shearing mechanism 2.

In some embodiments, referring to fig. 10, the shearing mechanism 2 includes a shaft 21, a second cylinder 22, and scissors 23; the rotating shaft 21 is connected with the slider 313; the second cylinder 22 is connected with the rotating shaft 21, and the third connecting plate 325 is connected with the second cylinder 22; the scissors 23 are connected with the second air cylinder 22; the slider 313 drives the scissors 23 to perform linear displacement through the rotating shaft 21, and the second cylinder 22 drives the scissors 23 to swing through the rotating shaft 21. It can be understood that the second air cylinder 22 is connected with the rotating shaft 21, the rotating shaft 21 generates a rotating motion through the push-pull action of the air cylinder, and the third connecting plate 325 is connected between the second air cylinder 22 and the shearing mechanism 2, so that the second air cylinder 22 can drive the scissors 23 to swing through the rotating shaft 21.

In some embodiments, there is also provided a tape adhering device comprising a tape shearing anti-adhesive device; the adhesive tape sticking device further comprises an automatic adhesive tape feeding mechanism, and as shown in fig. 1, the automatic adhesive tape feeding mechanism comprises an adhesive shearing fixing disc and a straightening mechanism; the straightening mechanism is used for pulling the adhesive tape 5 out of the adhesive tape fixing disc to a position corresponding to the shearing mechanism 2, and the adhesive tape 5 can be sheared by the scissors 23.

The specific working process is as follows: according to the PLC setting command, firstly, the adhesive tape 5 is sent out for a certain length by an automatic adhesive tape sending-out mechanism; then the scissors 23 cut the adhesive tape 5 as shown in fig. 1, and the scissors 23 are in the initial state; then the swinging mechanism 3 is moved backwards to drive the scissors to pass through the swinging chute 323, the scissors 23 can swing at a certain angle, in the swinging process, the knife edge rubs with the fluff wiping board impregnated with the anti-adhesive agent, thereby wiping and cleaning the knife edge, and the knife edge is adhered with the anti-adhesive agent, as shown in fig. 4, at the moment, the scissors 23 are positioned on the wiping and smearing mechanism; then the swinging mechanism 3 is moved to advance so as to drive the scissors 23 to pass through the swinging chute 323, the scissors 23 swing to the original initial shearing position, and in the swinging process, the knife edge and the fluff wiping board impregnated with the anti-adhesive agent rub again, so that the knife edge is wiped and cleaned. The device of the embodiment realizes the processes of non-sticky tape or sticky layer residue on the shearing mechanism through the procedures of sticky tape shearing, moving and swinging of the shearing mechanism, wiping, moving and swinging of the shearing mechanism back to the initial shearing position and the like, reduces the shutdown fault of the device caused by sticky, and improves the production efficiency; meanwhile, the device does not need to manually clean the incision, and limb scratches caused by manual incision cleaning are avoided.

It may be understood that the meaning of the terms in the embodiments of the present application is the same, and for some embodiments, details of implementation of the terms may refer to descriptions in other embodiments, and the exemplary descriptions and technical effects shown in the foregoing embodiments may be implemented correspondingly, so that the repeated parts will not be repeated.

The adhesive tape shearing and sticking prevention device and the adhesive tape sticking device provided by the application are described in detail, and specific examples are applied to the principle and the implementation mode of the application, and the description of the examples is only used for helping to understand the method and the core idea of the application; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (10)

1. An adhesive tape shearing and anti-sticking device, which is characterized by comprising:

The device comprises a first mounting plate (1) and a shearing mechanism (2) arranged on the first mounting plate (1), wherein the shearing mechanism (2) is used for shearing an adhesive tape (5);

The movable swinging mechanism (3) is arranged on the first mounting plate (1), the movable swinging mechanism (3) is connected with the shearing mechanism (2), and the movable swinging mechanism (3) drives the shearing mechanism (2) to swing through linear displacement;

the wiping and smearing mechanism (4) is positioned on one side of the movable swinging mechanism (3) and is connected with the first mounting plate (1), and the wiping and smearing mechanism (4) is used for removing the adhesive tape (5) adhered on the shearing mechanism (2).

2. The tape shearing anti-sticking device according to claim 1, wherein the moving rocking mechanism (3) comprises a displacement assembly (31) and a rocking assembly (32);

The displacement assembly (31) is connected with the shearing mechanism (2), and the displacement assembly (31) is used for driving the shearing mechanism (2) to perform linear displacement;

The swinging component (32) is connected between the shearing mechanism (2) and the first mounting plate (1), and the swinging component (32) is used for enabling the shearing mechanism (2) to swing towards the wiping and smearing mechanism (4) after the shearing mechanism (2) performs linear displacement.

3. The tape shear anti-sticking device according to claim 2, wherein the displacement assembly (31) comprises:

The sliding rail (311) is connected with the first mounting plate (1);

A first cylinder (312), the first cylinder (312) being connected to the first mounting plate (1);

And the sliding block (313) is arranged on the sliding rail (311) and is connected with the first cylinder (312), and the sliding block (313) is connected with the shearing mechanism (2).

4. A tape shear release device according to claim 3, wherein the oscillating assembly (32) comprises:

A first connection plate (321), the first connection plate (321) being connected to the first mounting plate (1);

The second connecting plate (322) is connected with one side, away from the first mounting plate (1), of the first connecting plate (321), and the second connecting plate (322) is provided with a swinging chute (323);

The limiting component (324) is arranged in the swing chute (323);

The third connecting plate (325), third connecting plate (325) connect in spacing subassembly (324) with between shearing mechanism (2), shearing mechanism (2) pass through third connecting plate (325) drive spacing subassembly (324) are in swing spout (323) remove.

5. The tape shear adhesion preventing device of claim 4, wherein the swing chute (323) has an extension region (3231) and a bending region (3232) in communication with each other, the extension region (3231) has a first inner wall (3233), the bending region (3232) has a second inner wall (3234), the first inner wall (3233) is connected to the second inner wall (3234), and an angle α between the first inner wall (3233) and the second inner wall (3234) is: alpha is more than or equal to 120 degrees and less than or equal to 150 degrees;

When the limit component (324) moves from the extension region (3231) to the bending region (3232), the swing component (32) drives the shearing mechanism (2) to swing towards the wiping and smearing mechanism (4).

6. The tape shear anti-sticking device of claim 5, wherein the spacing assembly (324) comprises a first spacing post (3241) and a second spacing post (3242) disposed in a spaced apart relationship;

The third connecting plate (325) comprises a first section (3251) and a second section (3252) which are connected with each other, the first limit post (3241) and the second limit post (3242) are arranged along the direction vertical to the first section (3251) and are connected with the first section (3251), and one side of the second section (3252) away from the first section (3251) is connected with the shearing mechanism (2);

The distance between the axle center of the first limit column (3241) and the axle center of the second limit column (3242) is R mm, and the bending region (3232) has a maximum length L mm, so that the following conditions are satisfied: l > R.

7. The tape shear release device according to claim 1, wherein the wiping and applying mechanism (4) comprises:

a second mounting plate (41), the second mounting plate (41) being connected to the first mounting plate (1);

a storage bottle (42), the storage bottle (42) being connected to the second mounting plate (41) for storing an anti-adhesive agent;

-a wiper assembly (43), said wiper assembly (43) being provided on said second mounting plate (41);

-a siphon (44), said siphon (44) being connected between said storage bottle (42) and said wiper assembly (43), said siphon (44) being used to adsorb said anti-adhesive to said wiper assembly (43).

8. The tape shear release device of claim 7, wherein the wiping assembly (43) comprises:

a connection portion (431), the connection portion (431) being connected to the second mounting plate (41);

A mounting portion (432), wherein the mounting portion (432) is connected to a side of the connection portion (431) away from the second mounting plate (41), the mounting portion (432) is provided with a through cavity (4321), and the siphon tube (44) penetrates the mounting portion (432) and communicates with the cavity (4321);

The adsorption part (433), adsorption part (433) are located cavity (4321), adsorption part (433) pass through siphon (44) adsorb anti-sticking agent is used for wiping shearing mechanism (2) after the swing and scribble anti-sticking agent.

9. The tape shear release device according to claim 4, wherein the shear mechanism (2) comprises:

A rotating shaft (21), the rotating shaft (21) being connected with the slider (313);

The second air cylinder (22), the second air cylinder (22) is connected with the rotating shaft (21), and the third connecting plate (325) is connected with the second air cylinder (22);

A scissors (23), the scissors (23) being connected to the second cylinder (22);

The sliding block (313) drives the scissors (23) to execute the linear displacement through the rotating shaft (21), and the second air cylinder (22) drives the scissors (23) to swing through the rotating shaft (21).

10. A tape applicator comprising the tape shearing and anti-adhesive device of any one of claims 1-9.