CN117943322B - Device for treating surface residual glue of double-sided adhesive tape - Google Patents

Abstract

The invention belongs to the technical field of double faced adhesive tape treatment, in particular to a device for treating residual adhesive on the surface of double faced adhesive tape, which comprises a handle and a spraying mechanism, wherein the spraying mechanism is used for spraying adhesive remover and further comprises: a cover plate provided on the handle; a slide seat slidably disposed within the cover plate; a scraper rotatably arranged in the cover plate; a press roller rotatably arranged on the slide seat; through set up nozzle, compression roller and scraper blade in the cover plate, in the in-process of cleaing away the cull, the nozzle sprays the cull earlier, then the compression roller extrudees, contact and reaction between cull and the cull are accelerated, and then improve the efficiency of removing the cull, the user only need operate single shift knob, can realize spraying, the reaction is accelerated to the cull, strike off cull and the orderly operation of bin pressurization work and automatic start-stop, and whole device automatic re-setting, very big simplified the operation, convenient to use need not to set up multiunit electrical control system additionally, and a structure is simple, the maintenance of being convenient for, low in use cost.

Description

Device for treating surface residual glue of double-sided adhesive tape

Technical Field

The invention belongs to the field of double faced adhesive tape treatment, and particularly relates to a device for treating residual adhesive on the surface of double faced adhesive tape.

Background

The double-sided adhesive surface residual adhesive refers to adhesive marks remained on the surface of an object after the double-sided adhesive is used, the adhesive marks not only affect the appearance of the object, but also may affect the use function of the object, and some double-sided adhesive residual adhesives may become more difficult to remove over time, especially when the double-sided adhesive residual adhesive is exposed to high temperature, humidity or direct sunlight, so that the double-sided adhesive surface residual adhesive needs to be treated in time.

One patent application with publication number CN107626616a discloses a double faced adhesive tape remover, comprising a handle, wherein the end of the handle is provided with a common blade and a saw blade through nuts and bolts, and the common blade and the saw blade are arranged in parallel; the common blade and the saw blade are used alternately to clean different double faced adhesive tapes.

The technical scheme has the advantages that the problems are solved, the double-sided adhesive residues which are firmly adhered are difficult to scrape by the scraper, if the force is too large, the scraper is easy to hurt the surface of an object, so that the adhesive removing agent needs to be sprayed on the surface of the adhesive residues, the adhesive residues can be scraped more easily after the adhesive removing agent reacts with the adhesive residues, a period of time is needed after the adhesive removing agent is sprayed on the adhesive residues, the adhesive removing agent fully reacts with the double-sided adhesive, the waiting time can influence the working efficiency of adhesive removing, and the technical scheme does not effectively solve the problem.

Therefore, the invention provides a device for treating the surface residual glue of double-sided glue.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a device for treating double-sided adhesive surface residual adhesive, which comprises a handle and a spraying mechanism, wherein the spraying mechanism is used for spraying adhesive removing agent, and the device also comprises: a cover plate provided on the handle; a slide seat slidably disposed within the cover plate; a scraper rotatably arranged in the cover plate; the pressing roller is rotatably arranged on the sliding seat, and the scraping plate and the pressing roller extend to the outer side of the cover plate;

the spraying mechanism includes: the storage box is arranged on the handle, and a photoresist remover is placed in the storage box; the spray nozzle is arranged on the sliding seat, the spray nozzle is communicated with the storage box through a guide pipe, and the press roll is positioned between the scraping plate and the spray nozzle.

Preferably, the device further comprises a control mechanism and a switching mechanism, wherein the control mechanism comprises: the driving shaft and the driving shaft are rotatably arranged in the cover plate, the driving shaft and the driving shaft are driven by a chain belt, and the driving shaft is coaxial with the scraping plate; the scraper is provided with an assembly groove corresponding to the linkage rod;

the switching mechanism is used for driving the linkage rod to move, the linkage rod is inserted into the assembly groove after moving, and the transmission shaft drives the scraping plate to rotate through the linkage rod.

Preferably, the switching mechanism includes: the clamping seat is fixedly connected to the side of the linkage rod ring; a rotating plate rotatably arranged inside the cover plate; the telescopic rod is arranged on the rotating plate, the telescopic rod is inclined, one end of the telescopic rod is fixedly connected with the rotating plate, and the other end of the telescopic rod is inserted into the clamping seat; and the extension spring is used for pushing the telescopic rod to extend.

Preferably, a return spring is arranged on the sliding seat, and the control mechanism further comprises: a rack plate slidably disposed on the slide; the fluted disc is fixedly connected to the driving shaft, and the toothed rack plate is meshed with the fluted disc after being moved downwards; and the transmission assembly drives the rotating plate to deflect back and forth through the transmission assembly when the rack plate transversely moves.

Preferably, the transmission assembly includes: the first driven rod and the second driven rod are fixedly connected to the rotating plate, the end parts of the first driven rod and the second driven rod are staggered up and down, and the first driven rod and the second driven rod are staggered front and back; the first shifting plate and the second shifting plate are arranged on the rack plate in a rotating mode, the first shifting plate and the second shifting plate are staggered up and down, and the first shifting plate is of a unidirectional rotation structure; when the rack plate is far away from the scraping plate, the first shifting plate and the first driven rod drive the rotating plate to rotate, and when the rack plate moves back, the second shifting plate and the second driven rod drive the rotating plate to rotate.

Preferably, the control mechanism further includes: the switch button is movably arranged on the cover plate and is used for controlling the starting of the driving shaft; the push plate is fixedly connected to the switch button, and after the switch button moves, the rack plate is driven to move up and down by the push plate.

Preferably, the spraying mechanism further comprises: the control rod is used for controlling the nozzle switch, and a first spring is arranged on the control rod; and the pressing plate is fixedly connected to the rack plate, and the control rod is extruded to move through the pressing plate after the rack plate moves downwards, so that the nozzle is opened.

Preferably, the spraying mechanism further comprises: a pressurizing head in communication with the storage tank; the pressurizing rod is movably inserted into the pressurizing head, an extension plate is arranged at the end part of the pressurizing rod, a second spring is arranged on the pressurizing rod, and the interior of the storage box is pressurized after the pressurizing rod moves downwards; the convex plate is fixedly connected to the driving shaft, and the pressurizing rod is driven to do piston motion through the convex plate and the second spring in the rotation process of the driving shaft.

The beneficial effects of the invention are as follows:

1. According to the device for treating the residual glue on the surface of the double-sided adhesive, the nozzle, the press roller and the scraping plate are arranged in the cover plate, in the process of removing the residual glue, the adhesive removing agent is sprayed onto the residual glue by the nozzle, then the sprayed residual glue is extruded by the press roller, the contact and reaction between the adhesive removing agent and the residual glue are accelerated, and then the rotating scraping plate is contacted with the reacted residual glue to scrape the residual glue; through setting up the compression roller, improve reaction time, and then improved except that gluey efficiency, the cover plate cover is in the outside of nozzle, both can prevent except that the outward loss of gluey agent, plays the guard action to the user, simultaneously, can make except that gluey agent sprays more concentrated, reduces except that the waste of gluey agent.

2. According to the device for treating the residual glue on the surface of the double-sided adhesive tape, when the glue is removed, if the nozzle and the scraping plate are started at the same time, the rotating scraping plate is in direct contact with the surface of an object without the residual glue, and the surface of the object is possibly scratched; through setting up control mechanism and switching mechanism, after starting the drive shaft, drive nozzle work and slide removal in succession, nozzle and compression roller spray and extrude the plastic residue earlier, then the scraper blade is rotatory again, scrapes the plastic residue, and single drive shaft can drive nozzle and scraper blade and start in succession, has reduced the rotatory scraper blade and the object surface direct contact's that does not have the plastic residue time, has improved above-mentioned problem.

3. According to the device for treating the adhesive residue on the surface of the double-sided adhesive tape, the pressurizing rod is arranged to pressurize the storage box, so that the adhesive removing agent can be sprayed normally, and a user can realize the sequential operation of spraying, adhesive removing agent accelerating reaction, adhesive residue scraping and storage box pressurizing operation and automatic start and stop by only operating a single switch button, and the whole device is automatically reset, so that the operation is greatly simplified, the use is convenient, a plurality of groups of electric control systems are not required to be additionally arranged, the structure is simple, the maintenance is convenient, and the use cost is low.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a front perspective view of a first embodiment of the present invention;

FIG. 2 is a rear perspective view of a first embodiment of the present invention;

FIG. 3 is a perspective view of the internal structure of the cover plate;

FIG. 4 is an exploded view of the drive shaft, linkage rod and screed;

FIG. 5 is a perspective view of a rack plate, drive assembly and linkage rod;

FIG. 6 is a perspective view of a switch button and a rack plate;

FIG. 7 is a partial perspective view of the reservoir and pressurizing rod;

In the figure: 1. a handle; 2. a spraying mechanism; 21. a storage tank; 22. a nozzle; 23. a conduit; 24. a control lever; 25. a pressing plate; 26. a pressurizing rod; 27. a convex plate; 28. a pressurizing head; 3. a cover plate; 4. a slide; 5. a scraper; 51. an assembly groove; 6. a press roller; 7. a control mechanism; 71. a drive shaft; 72. a transmission shaft; 73. a chain belt; 74. a linkage rod; 75. rack plate; 76. fluted disc; 77. a transmission assembly; 771. a first driven lever; 772. a second driven lever; 773. a first dial plate; 774. a second shifting plate; 78. a switch button; 79. a push plate; 8. a switching mechanism; 81. a clamping seat; 82. a rotating plate; 83. a telescopic rod; 84. the spring is stretched.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1 to 3, a device for processing a double-sided adhesive tape surface residual adhesive according to an embodiment of the present invention includes a handle 1 and a spraying mechanism 2, wherein the spraying mechanism 2 is used for spraying a photoresist remover, and further includes: a cover plate 3 provided on the handle 1; a slide carriage 4 slidably provided in the cover plate 3; a scraper 5 rotatably provided in the cover plate 3; a press roller 6 rotatably provided on the slide 4, the scraper 5 and the press roller 6 extending to the outside of the cover plate 3;

The spraying mechanism 2 includes: a storage box 21 arranged on the handle 1, wherein a photoresist remover is placed in the storage box 21; a nozzle 22 is arranged on the sliding seat 4, the nozzle 22 is communicated with the storage box 21 through a conduit 23, and the compression roller 6 is positioned between the scraping plate 5 and the nozzle 22.

Specifically, the cover plate 3 is preferably made of transparent materials, a user can observe the movement state of the structures such as the sliding seat 4, the scraping plate 5 and the like in the cover plate 3, the sliding seat 4 can move left and right relative to the cover plate 3, a glue removing agent adding port is formed in the storage box 21, the type of the glue removing agent can be selected according to the specific type of double faced adhesive tape, the back surface of the cover plate 3 is in an opening shape, and the scraping plate 5 and the pressing roller 6 extend out of the opening to ensure that the scraping plate 5 and the pressing roller 6 can be contacted with residual glue; the conduit 23 comprises a shaped tube and a flexible hose. In the using process of the adhesive remover, the adhesive remover needs to be sprayed on the double-sided adhesive residues to be removed, waiting for a period of time to enable the adhesive remover to fully react with the double-sided adhesive, then scraping the reacted double-sided adhesive by using tools such as a scraper, and the waiting time can influence the working efficiency, so that the reaction speed of the adhesive remover and the double-sided adhesive needs to be accelerated; the method for increasing the dosage of the photoresist remover can provide more reaction substances so as to accelerate the reaction speed, but the excessive photoresist remover is used to waste resources and increase the cleaning difficulty, so that the method for improving the pressure is adopted to accelerate the reaction speed, and the method is as follows:

When the double-sided adhesive tape residue attached to the surface of an object is treated, taking fig. 1 as an example, the residue is distributed in the left-right direction, the nozzles 22 are positioned on the right side of the scraping plate 5, a user holds the handle 1 by hand, covers the cover plate 3 on the residue, enables the nozzles 22 to be aligned with the left side end of the residue, starts the nozzles 22, sprays the adhesive removing agent on the surface of the residue, covers the outer side of the nozzles 22 by the cover plate 3, can prevent the adhesive removing agent from escaping outwards, plays a protective role for the user, and simultaneously enables the adhesive removing agent to be sprayed more intensively and reduces the waste of the adhesive removing agent; the cover plate 3 is kept still, the sliding seat 4 is moved rightwards, in the right moving process of the sliding seat 4, the spray nozzle 22 sprays the adhesive removing agent onto the adhesive residue firstly, then the press roll 6 extrudes the sprayed adhesive residue, and the contact and reaction between the adhesive removing agent and the adhesive residue are accelerated; after the slide seat 4 moves to the right side end inside the cover plate 3 and is fixed, the cover plate 3 moves rightwards and starts the scraper 5 to rotate, and the cover plate 3 drives the nozzle 22, the press roller 6 and the scraper 5 to jointly move, and the rotating scraper 5 contacts with the reacted residual glue to scrape the residual glue; by arranging the press roller 6, the reaction time of the adhesive removing agent and the residual adhesive is improved, and the adhesive removing efficiency is further improved.

It should be noted that the cover plate 3 may be fixedly connected with the handle 1, or may be rotatably mounted on the handle 1, and a fastening bolt is provided at the rotational connection position of the cover plate 3 and the handle 1, so as to play a role in adjusting the angle of the cover plate 3; in addition, a sliding plate capable of moving back and forth can be arranged in the cover plate 3, the press roller 6 is arranged on the sliding plate, and a spring piece for pushing the sliding plate to move backwards is arranged in the cover plate 3, so that the extrusion effect of the press roller 6 on residual glue is further improved.

As shown in fig. 2-5, further comprising a control mechanism 7 and a switching mechanism 8, said control mechanism 7 comprising: a drive shaft 71 and a drive shaft 72 rotatably provided in the cover plate 3, the drive shaft 71 and the drive shaft 72 being driven by a chain belt 73, the drive shaft 72 being coaxial with the blade 5; a linkage rod 74 movably inserted into the transmission shaft 72, and an assembly groove 51 corresponding to the linkage rod 74 is formed in the scraping plate 5;

The switching mechanism 8 is used for driving the linkage rod 74 to move, the linkage rod 74 is inserted into the assembly groove 51 after moving, and the transmission shaft 72 drives the scraping plate 5 to rotate through the linkage rod 74.

Specifically, before removing the glue, the cover plate 3 is placed on the surface of the object, and when the nozzle 22 is aligned with the left end of the residual glue, the scraping plate 5 is positioned on the left side of the residual glue, if the scraping plate 5 is immediately started to rotate at the moment, the rotating scraping plate 5 is in direct contact with the surface of the object without the residual glue for a long time, and the surface of the object is possibly scratched, so that the scraping plate 5 needs to be rotated after being moved to the surface of the residual glue, and the control mechanism 7 and the switching mechanism 8 are designed;

The link lever 74 is inserted into the back surface of the transmission shaft 72, and the link lever 74 is not separated from the transmission shaft 72 all the time, and in the initial state, the link lever 74 is not in contact with the blade 5. When the residual glue is removed, the driving shaft 71 is started to rotate, the driving shaft 71 drives the transmission shaft 72 to rotate through the chain belt 73, and the scraping plate 5 does not rotate; after the slide carriage 4 moves to the right side of the cover plate 3, the transmission shaft 72 is moved backward, so that the transmission shaft 72 is inserted into the assembly groove 51, at this time, the transmission shaft 72 drives the scraping plate 5 to rotate through the linkage rod 74, and the cover plate 3 can be immediately moved rightward to scrape the residual glue.

Of course, the cover plate 3 is moved rightward before the slide 4 is moved to the right side inside the cover plate 3, that is, before the squeegee 5 is not rotated, further reducing the time for the rotating squeegee 5 to be in direct contact with the surface of the object without the residual glue.

As shown in fig. 2 to 5, the switching mechanism 8 includes: a clamping seat 81 fixedly connected to the ring side of the linkage rod 74; a rotating plate 82 rotatably provided inside the cover plate 3; a telescopic rod 83 provided on the rotating plate 82, wherein the telescopic rod 83 is inclined, one end of the telescopic rod 83 is fixedly connected with the rotating plate 82, and the other end of the telescopic rod 83 is inserted into the clamping seat 81; an extension spring 84 for pushing the extension rod 83 to extend.

Specifically, the rotating plate 82 preferably but not limited to rotates on a horizontal plane, and the telescopic rod 83 is pushed by the extension spring 84 to maintain a stable inclined shape, so that the linkage rod 74 maintains a stable position; as shown in fig. 5, the left end of the telescopic rod 83 is inserted into the inside of the clamping seat 81, and in the initial state, the left end of the telescopic rod 83 is positioned in front of the rotation shaft thereof, so that the linkage rod 74 keeps stable in position in front of the movement range thereof; when the left end of the telescopic rod 83 is deflected rearward, the telescopic rod 83 drives the link rod 74 to move rearward, so that the link rod 74 is inserted into the fitting groove 51 and the position is kept stable.

As shown in fig. 2-7, the sliding seat 4 is provided with a return spring, and the control mechanism 7 further includes: a rack plate 75 slidably provided on the slide carriage 4; a fluted disc 76 fixedly connected to the driving shaft 71, and the rack plate 75 is meshed with the fluted disc 76 after being moved downwards; and the transmission assembly 77 drives the rotating plate 82 to deflect back and forth through the transmission assembly 77 when the rack plate 75 moves transversely.

Specifically, in the initial state, the slide seat 4 approaches the scraper 5 under the action of the return spring; rack plate 75 is movable up and down; during glue removal, the rack plate 75 is moved downwards, so that the rack plate 75 is in contact with the fluted disc 76, the driving shaft 71 is started to rotate, the driving shaft 71 drives the fluted disc 76 to rotate, the fluted disc 76 drives the rack plate 75 and the sliding seat 4 to move rightmost, and the rack plate 75 keeps a relatively stable position at the rightmost side, and the result can be achieved by designing the tooth distribution range of the bottom end of the rack plate 75, for example, after the rack plate 75 moves to the rightmost side in the cover plate 3, only the leftmost tooth at the bottom end of the rack plate 75 is in contact with the fluted disc 76;

After the removal of the binder beam, the drive shaft 71 stops rotating, the rack plate 75 is moved upward, and after the rack plate 75 is separated from the toothed plate 76, the slide 4 is automatically moved leftward to be reset by the pulling of the reset spring.

As shown in fig. 2-6, the transmission assembly 77 includes: a first driven rod 771 and a second driven rod 772 fixedly connected to the rotating plate 82, wherein the ends of the first driven rod 771 and the second driven rod 772 are staggered up and down, and the first driven rod 771 and the second driven rod 772 are staggered back and forth; a first shifting plate 773 and a second shifting plate 774 rotatably arranged on the rack plate 75, wherein the first shifting plate 773 and the second shifting plate 774 are staggered up and down, and the first shifting plate 773 is of a unidirectional rotation structure; when the rack plate 75 is far away from the scraping plate 5, the first shifting plate 773 and the first driven rod 771 drive the rotating plate 82 to rotate, and when the rack plate 75 moves back, the second shifting plate 774 and the second driven rod 772 drive the rotating plate 82 to rotate.

Specifically, the second shifting plate 774 is not in contact with the first driven lever 771 all the time, and in fig. 5, the first driven lever 771 and the second driven lever 772 are respectively located on the right side and the left side of the rotation shaft of the rotating plate 82, the first shifting plate 773 is lower than the second shifting plate 774, and the top end of the first driven lever 771 is lower than the top end of the second driven lever 772;

after the rack plate 75 moves down, the second shifting plate 774 is still located above the first driven rod 771, and when the rack plate 75 moves along with the sliding seat 4 from left to right, the first shifting plate 773 contacts with the first driven rod 771, so that the rotating plate 82 is driven to rotate, and the left end of the rotating plate 82 is deflected backwards;

as the rack plate 75 moves from right to left with the slide carriage 4, the second striking plate 774 contacts the second driven lever 772, thereby rotating the rotating plate 82 such that the left end of the rotating plate 82 is deflected forward.

As shown in fig. 1 to 6, the control mechanism 7 further includes: a switch button 78 movably provided on the cover plate 3, the switch button 78 being used for controlling the actuation of the drive shaft 71; the push plate 79 is fixedly connected to the switch button 78, and after the switch button 78 moves, the push plate 79 drives the rack plate 75 to move up and down.

Specifically, inclined edge plates are respectively arranged on the upper side and the lower side of the push plate 79, through grooves corresponding to the inclined edge plates are arranged in the rack plate 75, the switch button 78 is of a push type structure, the switch button 78 can move forwards and backwards, after the switch button 78 is pushed down, the switch button 78 moves backwards and starts the driving shaft 71 to rotate, and meanwhile, the push plate 79 drives the rack plate 75 to move downwards, so that the rack plate 75 is in contact with the fluted disc 76; pressing the switch button 78 again, the switch button 78 moves forward to reset, the driving shaft 71 stops rotating, and at the same time, the pushing plate 79 drives the rack plate 75 to move upward, so that the rack plate 75 is separated from the fluted disc 76.

As shown in fig. 2-7, the spraying mechanism 2 further comprises: a control lever 24 for controlling the opening and closing of the nozzle 22, wherein a first spring is arranged on the control lever 24; the pressing plate 25 is fixedly connected to the rack plate 75, and after the rack plate 75 moves downwards, the pressing plate 25 presses the control rod 24 to move, so that the nozzle 22 is opened.

Specifically, as shown in fig. 3, a slope for pushing the control rod 24 is provided on the right side of the pressing plate 25, the first spring is used for pushing the control rod 24 to move left, in the initial state, the control rod 24 is located on the left side of the moving range, and the nozzle 22 is in the closed state; when the glue is removed, the switch button 78 is pressed, the switch button 78 moves backwards and drives the rack plate 75 to move downwards through the push plate 79, the rack plate 75 presses the control rod 24 through the pressing plate 25 after moving downwards, after the control rod 24 is pressed, the spray nozzle 22 is opened, glue removing agent begins to be sprayed, and the function of simultaneously controlling the start and stop of the driving shaft 71 and the spray nozzle 22 after the switch button 78 is pressed is achieved.

Example two

As shown in fig. 2-7, comparative example one, wherein another embodiment of the present invention is: the spraying mechanism 2 further includes: a pressurizing head 28 communicating with the reserve tank 21; a pressurizing rod 26 movably inserted in the pressurizing head 28, an extension plate is arranged at the end part of the pressurizing rod 26, a second spring is arranged on the pressurizing rod 26, and the pressurizing rod 26 pressurizes the inside of the storage box 21 after moving downwards; the convex plate 27 is fixedly connected to the driving shaft 71, and the pressing rod 26 is driven to perform piston movement by the convex plate 27 and the second spring in the rotation process of the driving shaft 71.

Specifically, in the process of spraying the photoresist remover, the photoresist remover in the storage tank 21 is reduced, the internal pressure is reduced, and the pressure of the storage tank 21 needs to be supplemented to ensure that the photoresist remover is normally sprayed, therefore, a pressurizing rod 26 is arranged on the storage tank 21;

The pressurizing head 28 can be directly arranged on the storage box 21 or on the guide pipe 23, and an extension plate is arranged at the top end of the pressurizing rod 26 so as to ensure that the convex plate 27 can be always contacted with the extension plate in the moving process of the sliding seat 4; when the glue is removed, after the driving shaft 71 rotates, the pressurizing rod 26 is continuously extruded by the convex plate 27 to move downwards, the pressurizing rod 26 is in piston motion under the action of the convex plate 27 and the second spring, the inside of the storage box 21 is continuously pressurized, the internal pressure of the storage box 21 is improved, the glue removing agent is favorably sprayed out from the nozzle 22, and the spraying effect is improved.

Working principle: when the double-sided adhesive tape residue attached to the surface of an object is treated, taking fig. 1 as an example, the residue is distributed in the left-right direction, the nozzle 22 is positioned on the right side of the scraping plate 5, a user holds the handle 1 by hand, and covers the cover plate 3 on the residue, so that the nozzle 22 is aligned with the left side end of the residue;

After the switch button 78 is pressed, the driving shaft 71 is started and starts to rotate, the driving shaft 71 drives the transmission shaft 72 to rotate through the chain belt 73, after the switch button 78 moves backwards, the rack plate 75 and the pressing plate 25 are driven to move downwards through the pushing plate 79, the pressing plate 25 after moving downwards presses the control rod 24, so that the nozzle 22 is opened, and the adhesive removing agent starts to be sprayed; simultaneously, the downward-moved rack plate 75 is contacted with a fluted disc 76, and the rotating driving shaft 71 drives the rack plate 75 and the sliding seat 4 to move right in the cover plate 3 through the fluted disc 76, so as to drive the nozzle 22 and the compression roller 6 to move right, and in the process, the scraping plate 5 does not rotate, so that scratches caused by direct contact between the scraping plate 5 and the surface of an object without residual glue are reduced; in the right moving process of the sliding seat 4, the nozzle 22 sprays the adhesive removing agent onto the residual adhesive, and then the pressing roller 6 extrudes the sprayed residual adhesive to accelerate the contact and reaction between the adhesive removing agent and the residual adhesive;

Before the slide carriage 4 moves to the right side inside the cover plate 3, the cover plate 3 is moved rightward, in the process, the slide carriage 4 still moves rightward relative to the cover plate 3, when the scraping plate 5 moves to be in contact with the residual glue, and the rack plate 75 and the slide carriage 4 move to the rightmost side inside the cover plate 3, the first shifting plate 773 on the rack plate 75 is in contact with the first driven rod 771, and drives the rotating plate 82 to rotate, so that the left end of the rotating plate 82 deflects backward, the rotating plate 82 drives the linkage rod 74 to move backward through the telescopic rod 83, so that the linkage rod 74 is inserted into the assembly groove 51 and keeps the position stable, then, the transmission shaft 72 drives the scraping plate 5 to rotate through the linkage rod 74, and the rotating scraping plate 5 is in contact with the residual glue after reaction, so that the residual glue is scraped;

In the rotation process of the driving shaft 71, the pressing rod 26 is driven to do piston motion in the pressing head 28 through the cooperation of the convex plate 27 and the second spring, so that the inside of the storage box 21 is continuously pressurized, and the adhesive removing agent is helped to be sprayed out from the nozzle 22 normally;

then, the cover plate 3 is moved along the direction of the residual glue, and the residual glue can be sprayed with a glue removing agent, extruded to accelerate the reaction of the glue removing agent and scrape the residual glue in sequence;

When the glue removing operation is finished, the switch button 78 is pressed again, the switch button 78 moves forward to reset, the driving shaft 71 stops rotating, meanwhile, the push plate 79 drives the rack plate 75 and the pressing plate 25 to move upwards, the rack plate 75 moves upwards and is separated from the fluted disc 76, the sliding seat 4 moves left automatically in the cover plate 3 to reset, after the sliding seat 4 moves left, the rotating plate 82 is driven to rotate through the cooperation of the contact of the second poking plate 774 and the second driven rod 772, the left end of the rotating plate 82 deflects forward, the rotating plate 82 drives the linkage rod 74 to move forward through the telescopic rod 83, the linkage rod 74 is separated from the assembly groove 51, and the scraping plate 5 stops rotating;

the pressing plate 25 is separated from the control rod 24 after being moved upwards, and the nozzle 22 is automatically closed, so that a user can realize the sequential operation of spraying, removing adhesive to accelerate reaction, scraping residual adhesive and pressurizing operation of the storage box 21 and automatic start and stop by only operating the single switch button 78, the whole device is automatically reset, the operation is greatly simplified, the use is convenient, a plurality of groups of electric control systems are not needed, the structure is simple, the maintenance is convenient, and the use cost is low.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a handle and spraying mechanism (2) are included to device of handling double faced adhesive tape surface residual gum, spraying mechanism (2) are used for spraying the adhesive removal agent, its characterized in that: further comprises:

a cover plate (3) arranged on the handle (1);

A slide seat (4) arranged in the cover plate (3) in a sliding manner;

A scraper (5) arranged in the cover plate (3) in a rotating way;

a press roller (6) rotatably arranged on the sliding seat (4), and the scraping plate (5) and the press roller (6) extend to the outer side of the cover plate (3);

The spraying mechanism (2) comprises:

A storage box (21) arranged on the handle (1), wherein a photoresist remover is placed in the storage box (21);

A nozzle (22) arranged on the sliding seat (4), wherein the nozzle (22) is communicated with the storage box (21) through a conduit (23), and the compression roller (6) is positioned between the scraping plate (5) and the nozzle (22);

also comprises a control mechanism (7) and a switching mechanism (8), wherein the control mechanism (7) comprises:

A driving shaft (71) and a driving shaft (72) which are rotatably arranged in the cover plate (3), wherein the driving shaft (71) and the driving shaft (72) are driven by a chain belt (73), and the driving shaft (72) is coaxial with the scraping plate (5);

a linkage rod (74) movably inserted into the transmission shaft (72), and an assembly groove (51) corresponding to the linkage rod (74) is formed in the scraping plate (5);

The switching mechanism (8) is used for driving the linkage rod (74) to move, the linkage rod (74) is inserted into the assembly groove (51) after moving, and the transmission shaft (72) drives the scraping plate (5) to rotate through the linkage rod (74);

the switching mechanism (8) includes:

A clamping seat (81) fixedly connected to the ring side of the linkage rod (74);

A rotating plate (82) rotatably provided inside the cover plate (3);

a telescopic rod (83) arranged on the rotating plate (82), wherein the telescopic rod (83) is inclined, one end of the telescopic rod (83) is fixedly connected with the rotating plate (82), and the other end of the telescopic rod (83) is inserted into the clamping seat (81);

an extension spring (84) for pushing the extension rod (83) to extend;

the slide (4) is provided with a return spring, and the control mechanism (7) further comprises:

A rack plate (75) slidably provided on the slide (4);

a fluted disc (76) fixedly connected to the driving shaft (71), wherein the rack plate (75) is meshed with the fluted disc (76) after being moved downwards;

The transmission assembly (77) drives the rotating plate (82) to deflect through the transmission assembly (77) when the rack plate (75) transversely moves;

the transmission assembly (77) comprises:

A first driven rod (771) and a second driven rod (772) fixedly connected to the rotating plate (82), wherein the ends of the first driven rod (771) and the second driven rod (772) are staggered up and down, and the first driven rod (771) and the second driven rod (772) are staggered back and forth;

A first shifting plate (773) and a second shifting plate (774) which are rotatably arranged on the rack plate (75), wherein the first shifting plate (773) and the second shifting plate (774) are staggered up and down, and the first shifting plate (773) is of a unidirectional rotation structure;

when the rack plate (75) is far away from the scraping plate (5), the rotating plate (82) is driven to rotate through the first shifting plate (773) and the first driven rod (771), and when the rack plate (75) moves back, the rotating plate (82) is driven to rotate through the second shifting plate (774) and the second driven rod (772).

2. The device for processing double-sided adhesive surface residues according to claim 1, wherein: the control mechanism (7) further comprises:

A switch button (78) movably arranged on the cover plate (3), wherein the switch button (78) is used for controlling the starting of the driving shaft (71);

And the push plate (79) is fixedly connected to the switch button (78), and after the switch button (78) moves, the rack plate (75) is driven to move up and down by the push plate (79).

3. The device for processing the surface residual glue of double-sided glue according to claim 2, wherein: the spraying mechanism (2) further comprises:

A control rod (24) for controlling the opening and closing of the nozzle (22), wherein a first spring is arranged on the control rod (24);

And the pressing plate (25) is fixedly connected to the rack plate (75), and the control rod (24) is extruded to move through the pressing plate (25) after the rack plate (75) moves downwards, so that the nozzle (22) is opened.

4. A device for treating a double-sided adhesive surface residual adhesive according to claim 3, wherein: the spraying mechanism (2) further comprises:

a pressurizing head (28) communicating with the storage tank (21);

A pressurizing rod (26) movably inserted into the pressurizing head (28), an extension plate is arranged at the end part of the pressurizing rod (26), a second spring is arranged on the pressurizing rod (26), and the pressurizing rod (26) pressurizes the inside of the storage box (21) after moving downwards;

And the convex plate (27) is fixedly connected to the driving shaft (71), and the pressing rod (26) is driven to perform piston movement by the convex plate (27) and the second spring in the rotation process of the driving shaft (71).