CN112058749A

CN112058749A - Tempered glass adhesive tape trace removing device based on scaling rotation and using method

Info

Publication number: CN112058749A
Application number: CN202010921173.2A
Authority: CN
Inventors: 邵改臣
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2020-12-11
Also published as: CN108714582A; CN108714582B

Abstract

The invention provides a tempered glass adhesive tape trace removing device based on scaling rotation and a using method thereof, and relates to the field of life. This toughened glass sticky tape vestige remove device based on it is rotatory to zoom, the pentagonal angle department in the pentagonal frame cover outside all is connected with first ball through branch, the outside of first ball and the inboard sliding connection of spout, five clearance mechanisms are installed to the inboard of pentagonal frame cover, the inboard of through hole is run through and is provided with stress adsorption mechanism, the wire rope handling hole has been seted up at the positive middle part of pentagonal frame cover, the positive middle part fixedly connected with wire rope handling ring cover of pentagonal frame cover, the back connection of going up the ring board has the toper cover frame, the inboard fixedly connected with electric motor of toper cover frame, electric motor's output shaft has the rotary rod. The invention is used for removing the residual adhesive tape traces on the glass or ceramic tile, and the adhesive tape traces do not need to be manually scraped by a scraper, so that the labor force consumed by manpower is saved.

Description

Tempered glass adhesive tape trace removing device based on scaling rotation and using method

The application is a divisional application of a tempered glass adhesive tape trace removing device based on scaling rotation, wherein the application date is 2018, 05, 23 and the application number is CN 201810498921.3.

Technical Field

The invention relates to the technical field of life, in particular to a tempered glass adhesive tape trace removing device based on scaling rotation and a using method.

Background

In the life, in order to fix some article, can glue article on smooth glass board or ceramic tile through the sticky tape, the sticky tape trace after the sticky tape is got rid of is very inconvenient when getting rid of, all gets rid of the sticky tape trace through the manual use scraper with the city.

According to the 'stain removing device' in the Chinese patent with the publication number of 'CN 107532362A', in the process of removing stains, the stains are mainly removed in a knocking vibration mode, but when the adhesive tape marks are stuck, the adhesive tape marks are inconvenient to remove, and the knocking and the vibration can possibly damage the surface of the residual adhesive tape marks, so that the removing device which can remove the residual adhesive tape marks without manually using a scraper is needed at present.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a tempered glass adhesive tape trace removing device based on scaling rotation, which solves the problem that an adhesive tape trace is inconvenient to remove on a smooth surface.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a tempered glass adhesive tape trace removing device based on zooming rotation comprises an upper circular plate and a lower circular plate, wherein a sliding groove is formed in the inner side wall of the upper circular plate, a pentagonal frame cover is arranged on the inner side of the upper circular plate, the outer side of the pentagonal frame cover is connected with the inner side of the upper circular plate in a sliding mode through a fixed connecting rod at equal intervals, the pentagonal angle of the outer side of the pentagonal frame cover is connected with a first ball through a supporting rod, the outer side of the first ball is connected with the inner side of the sliding groove in a sliding mode, five clearing mechanisms are installed on the inner side of the pentagonal frame cover, through holes are formed in the front of the lower circular plate at equal intervals, a stress adsorption mechanism penetrates through the inner side of the through holes, a rope penetrating hole is formed in the middle of the front of the pentagonal frame cover, a rope penetrating ring cover is fixedly connected to the middle of the front of the pentagonal frame cover, and the back of the rope penetrating ring cover is fixedly connected with the back of the inner wall, the back of going up the ring board is connected with the toper cover frame, the inboard fixedly connected with electric motor of toper cover frame, electric motor's output shaft is connected with the rotary rod.

Preferably, clearance mechanism is including tightening up spring, carriage and triangle frame cover, the one end fixed connection who tightens up the spring is in the inboard pentagon department of pentagon frame cover, the back fixed connection of carriage is at the inboard back of pentagon frame cover, the both ends difference fixed connection of carriage is on the inside wall of pentagon frame cover and the lateral wall of wire rope handling ring cover, the driving groove has all been seted up to the inside both sides of carriage, the inboard of driving groove and the two angle sliding connection in the triangle frame cover outside, the back of triangle frame cover inner wall is provided with stress slewing mechanism, another outside angle of triangle frame cover is connected with the stay cord through the connecting piece, the one end that the triangle frame cover was kept away from to the stay cord passes wire rope handling ring cover in proper order and wire rope handling hole and is connected with the positive upside of rotary rod.

Preferably, the stress rotating mechanism comprises a sleeve, the back surface of the sleeve is connected with the back surface of the inner wall of the triangular frame cover, the back surface of the inner wall of the sleeve is fixedly connected with a rotary spring, one side of the front surface of the rotary spring is fixedly connected with a push block, the front surface of the sleeve is provided with a clearing rod in a penetrating way, the outer side of the clearing rod is connected with deformation springs at equal intervals, one end of the deformation spring, which is far away from the clearing rod, is fixedly connected with the back surface of the inner side wall of the triangular frame cover, the back surface of the clearing rod is provided with a conical groove, both sides of the inner wall of the conical groove are fixedly connected with pushing stop strips, both sides of the outer part of the cleaning rod are hinged with unfolding rods, the front of cleaing away the pole is provided with clears away the arc offset plate, the helicla flute has been seted up on the surface of cleaing away the arc offset plate outside, the both sides of cleaing away the arc offset plate back do not develop pole fixed connection with two.

Preferably, the stress adsorption mechanism comprises a through sleeve, the back of the through sleeve penetrates through the through hole and is connected with a curved rod, the back of one side of the curved rod is connected with a second ball through a connecting rod, the outer side of the second ball is connected with the inner side of the sliding groove in a sliding mode, the back of the inner wall of the through sleeve is fixedly connected with an installation spring, and the front of the installation spring is connected with a sucker through a support.

Preferably, the upper circular plate is located on the back face of the lower circular plate, the two sides of the upper circular plate are connected with the regular pinching plate, and the back face of the regular pinching plate is fixedly connected with a pull ring.

Preferably, the output shaft of the electric motor is located at the lower side right behind the back of the rope threading hole, and the rotating rod is located at the inner side of the conical cover frame.

Preferably, the front faces of the sliding frame, the sleeve and the pentagonal frame cover are located on the same plane.

(III) advantageous effects

The invention provides a tempered glass adhesive tape trace removing device based on scaling rotation. The method has the following beneficial effects:

1. this toughened glass sticky tape vestige remove device based on rotation of zooming is used for getting rid of remaining sticky tape vestige on glass or the ceramic tile, need not manually scrape off the sticky tape vestige through the scraper, has saved the labour that the manual work consumed.

2. This toughened glass sticky tape vestige remove device based on rotation of zooming, clear away mechanism 7 when using, let stress slewing mechanism 705 can carry out the zoom motion that makes a round trip on the surface that is stained with the sticky tape vestige, let the sticky tape vestige can clear up the sticky tape vestige through the friction that makes a round trip, prevent to strike simultaneously and the vibration can cause the damage to glass or ceramic tile.

3. This toughened glass sticky tape vestige remove device based on rotation of zooming, stay cord 706 and tightening spring 701 are when using, and on the one hand, stay cord and tightening spring produce to triangular frame cover 704 and receive and release the process and provide the drive, and on the other hand lets when tightening spring tightens through self elasticity after the stay cord zooms, and the vibrational frequency who produces when tightening can carry out the microvibration to the clearance mechanism of sticky tape vestige, and further let the sticky tape vestige on glass or the ceramic tile remove the position of gluing.

4. According to the tempered glass adhesive tape trace removing device based on zooming rotation, when the sliding frame supports the triangular frame cover to move, the sliding frame distributed on the pentagonal frame cover can be cleared away by matching adhesive tape traces on glass or ceramic tiles through the upper circular frame 1 rotating at a short distance.

5. This toughened glass sticky tape vestige remove device based on rotation of zooming gets rid of the thread groove on the arc offset plate and when increaseing the frictional force power with sticky tape vestige contact surface, the thread groove can let the filth piece on the sticky tape vestige imbed in the thread groove through the rotation of cleaing away the arc offset plate.

6. This toughened glass sticky tape vestige remove device based on rotation of zooming, when gyration spring extruded the conical groove in, can let through the promotion blend stop in the conical groove and clear away the pole and carry out slight rotation, the extrusion force that gyration spring produced simultaneously can increase and let clear away the extrusion force of arc offset plate to glass or ceramic tile surface, guarantees cleaing away of sticky tape vestige.

7. This toughened glass sticky tape vestige remove device based on rotation of zooming, the pole of opening lets clear away the arc offset plate and expandes when the extrusion through cleaing away the pole, lets the thread groove can contract simultaneously, lets the filth piece on the sticky tape vestige can be embedded into in the thread groove.

8. This toughened glass sticky tape vestige remove device based on rotation of zooming, deformation spring can play fixed connection's effect to cleaing away the pole when connecting the clearance pole on the one hand, lets clear away the pole and can move about in the sleeve, clears away the produced counterforce of pole when the rotation of slight simultaneously and can let clear away the certain radian of pole antiport.

9. This toughened glass sticky tape vestige remove device based on rotation of zooming, installation spring when connecting the sucking disc, let go up the ring board can be to the ring board time of extrudeing down, and the installation spring can contract, lets go up the ring board and is close to with lower ring board, and when two ring boards received great impact force simultaneously, the installation spring can play absorbing effect to the glass or the ceramic tile that are cleaing away the sticky tape vestige.

10. This toughened glass sticky tape vestige remove device based on rotation of zooming, the stay cord is when passing the wire rope handling ring cover, and the wire rope handling ring cover can play the effect of combing to the stay cord, and when the wire rope was zooming, the back that can be in the wire rope handling ring cover with the nodical point that rope and a rope are connected more simultaneously, the rope can be easily with the surface contact of glass or ceramic tile when having prevented the wire rope of wire rope from zooming.

The working principle is as follows: fix the device on glass or ceramic tile through stress adsorption mechanism, it is electronic to start, and the rotary rod drives and clears away the mechanism and clear away remaining sticky tape vestige on glass or the ceramic tile, and when the position of clearing away the sticky tape vestige need change, pentagon sideshield frame slides in the spout of last ring plate through first ball.

When the cleaning mechanism is used, the pulling rope pulls the triangular frame cover, the triangular frame cover slides towards the center of the pentagonal frame cover in the sliding frame, the pulling rope stops pulling the triangular frame cover, the contraction force generated by the tightening spring enables the triangular frame cover in the sliding frame to return to five corners of the pentagonal frame cover, the triangular frame cover moves circularly in sequence, and the stress rotating mechanism on the triangular frame cover cleans adhesive tape traces.

Stress slewing mechanism is at the during operation, apply one to the dynamics that needs clear away sticky tape vestige object direction to last ring board, the last arc offset of cleaing away of stress slewing mechanism receives the extrusion after the dynamics, it drives to clear away the arc offset and expandes to clear away the opening pole on the pole, slewing spring stretches into the bell mouth of cleaing away the pole in, the shrink gyration that last ejector pad of slewing spring produced when the extrusion through slewing spring, let the ejector pad drive through promoting the blend stop and clear away the pole and rotate.

When the stress adsorption mechanism is used, the sucker is adsorbed on glass or ceramic tiles needing to be cleaned of adhesive tape traces, when the removing device is not required to be detached, and the positions of the adhesive tape traces to be removed are replaced, the second ball on the stress adsorption mechanism slides in the sliding groove of the upper circular ring plate.

When the removing device is used, the pull ring on the regular holding plate is held manually, and the removing device is operated.

When the rotating rod rotates, the rotating rod rotates on the inner side of the conical cover frame, and the rotating rod is prevented from influencing the operation of the removing device when rotating.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a top cross-sectional view of the stress relief mechanism of the present invention;

FIG. 4 is a top cross-sectional view of the stress absorbing mechanism of the present invention;

FIG. 5 is a top view of the lower annular plate of the present invention where the adsorption mechanism should be encouraged;

FIG. 6 is a rear view of the upper annular plate of the present invention.

Wherein, 1 upper circular ring plate, 2 lower circular ring plate, 3 through holes, 4 pentagonal frame covers, 5 fixed connecting rods, 6 first balls, 7 clearing mechanisms, 701 tightening springs, 702 sliding frames, 703 driving grooves, 704 triangular frame covers, 705 stress rotating mechanisms, 7051 sleeves, 7052 revolving springs, 7053 clearing rods, 7054 deformation springs, 7055 conical grooves, 7056 pushing stop strips, 7057 pushing blocks, 7058 unfolding rods, 7059 clearing arc-shaped rubber plates, 7060 spiral grooves, 706 pull ropes, 8 stress absorbing mechanisms, 801 penetrating sleeves, 802 curved rods, 803 second balls, 804 mounting springs, 805 suckers, 9 rope penetrating holes, 10 conical cover frames, 11 electric motors, 12 rotating rods, 13 rope penetrating ring covers, 14 regular pinching plates and 15 pull rings.

Detailed Description

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

The embodiment of the invention provides a tempered glass adhesive tape trace removing device based on zooming rotation, which comprises an upper circular plate 1 and a lower circular plate 2, wherein the upper circular plate 1 is positioned on the back surface of the lower circular plate 2, regular holding and pinching plates 14 are connected to two sides of the upper circular plate 1, pull rings 15 are fixedly connected to the back surface of the regular holding and pinching plates 14, a chute is formed in the inner side wall of the upper circular plate 1, a pentagonal frame cover 4 is arranged on the inner side of the upper circular plate 1, the outer side of the pentagonal frame cover 4 is connected with the inner side of the upper circular plate 1 in a sliding mode through fixed connecting rods 5 at equal intervals, first balls 6 are connected to the pentagonal corners on the outer side of the pentagonal frame cover 4 through supporting rods, the outer side of the first balls 6 is connected with the inner side of the chute in a sliding mode, five cleaning mechanisms 7 are installed on the inner side of the pentagonal frame cover 4, through holes 3 are arranged on the front surface of the lower circular plate 2 at equal intervals, through hole 3's inboard is run through and is provided with stress adsorption apparatus structure 8, rope handling hole 9 has been seted up at the positive middle part of pentagonal frame cover 4, the positive middle part fixedly connected with rope handling ring cover 13 of pentagonal frame cover 4, the back fixed connection of the back of rope handling ring cover 13 and the 4 inner walls of pentagonal frame cover, the back connection of going up ring board 1 has toper cover frame 10, the inboard fixedly connected with electric motor 11 of toper cover frame 10, electric motor 11's output shaft has rotary rod 12, electric motor 11's output shaft is located the downside behind the rope handling hole 9 back, rotary rod 12 is located the inboard of toper cover frame 10.

The clearing mechanism 7 comprises a tightening spring 701, a sliding frame 702 and a triangular frame cover 704, one end of the tightening spring 701 is fixedly connected to the inner side pentagonal corner of the pentagonal frame cover 4, the back of the sliding frame 702 is fixedly connected to the inner side of the pentagonal frame cover 4, two ends of the sliding frame 702 are respectively fixedly connected to the inner side wall of the pentagonal frame cover 4 and the outer side wall of the rope penetrating ring cover 13, driving grooves 703 are formed in two inner sides of the sliding frame 702, the inner sides of the driving grooves 703 are connected with two outer sides of the triangular frame cover 704 in a sliding mode, a stress rotating mechanism 705 is arranged on the back of the inner wall of the triangular frame cover 704, the other outer side corner of the triangular frame cover 704 is connected with a pull rope 706 through a connecting piece, and one end, far away from the triangular frame cover 704, of the pull rope 706 sequentially penetrates through the rope penetrating ring cover 13.

The stress rotation mechanism 705 comprises a sleeve 7051, a sliding carriage 702, the front of sleeve 7051 and pentagon frame cover 4 is located the coplanar, the back and the back of triangle frame cover 704 inner wall of sleeve 7051 are connected, the back fixedly connected with gyration spring 7052 of sleeve 7051 inner wall, the positive one side fixedly connected with ejector pad 7057 of gyration spring 7052, the front of sleeve 7051 runs through and is provided with and clears away pole 7053, the outside of clearing away pole 7053 is equidistant to be connected with deformation spring 7054, the one end fixed connection that deformation spring 7054 kept away from and clears away pole 7053 is at the back of triangle frame cover 704 inside wall, tapered groove 7055 has been seted up to the back of clearing away pole 7053, the equal fixedly connected with in both sides of tapered groove 7055 inner wall promotes blend stop 7056, the outside both sides of clearing away pole 7053 all articulate and have and develop the pole 7058, the front of clearing away pole 7053 is provided with and clears away arc-shaped rubber plate 7059, the surface of clearing away the outside of arc-shaped rubber plate 7059 has seted up helical groove 7060, the both.

The stress adsorption mechanism 8 comprises a through sleeve 801, the back surface of the through sleeve 801 penetrates through the through hole 3 and is connected with a curved rod 802, the back surface of one side of the curved rod 802 is connected with a second ball 803 through a connecting rod, the outer side of the second ball 803 is in sliding connection with the inner side of the sliding groove, the back surface of the inner wall of the through sleeve 801 is fixedly connected with an installation spring 804, and the front surface of the installation spring 804 is connected with a sucker 805 through a bracket.

The front faces of the carriage 702, sleeve 7051 and pentagon bezel 4 lie in the same plane.

In summary, the device is fixed on glass or ceramic tile through the stress adsorption mechanism 8, the motor 11 is started, the rotating rod 12 drives the cleaning mechanism 7 to clean the residual tape trace on the glass or ceramic tile, and when the position for cleaning the tape trace needs to be changed, the pentagonal sideshield frame 4 slides in the chute of the upper circular ring plate 1 through the first ball 6.

When the cleaning mechanism 7 is used, the pulling rope 706 pulls the triangular frame cover 704, the triangular frame cover 704 slides to the center position of the pentagonal frame cover 4 in the sliding frame 702, the pulling rope 706 stops pulling the triangular frame cover 704, the triangular frame cover 704 in the sliding frame 702 returns to five corners of the pentagonal frame cover 4 by the contraction force generated by the tightening spring 701, and the triangular frame cover 704 moves in a sequential and cyclic manner, so that the stress rotating mechanism 705 on the triangular frame cover 704 cleans the tape traces.

When the stress rotating mechanism 705 works, a force in the direction of an object needing to remove the adhesive tape trace is applied to the upper circular ring plate 1, the arc-shaped rubber plate 7059 on the stress rotating mechanism 705 is extruded after being stressed, the arc-shaped rubber plate 7059 on the removing rod 7053 is driven by the unfolding rod 7058 to be unfolded, the rotary spring 7052 extends into the conical groove 7055 of the removing rod 7053, the push block 7057 on the rotary spring 7052 is contracted and rotated when being extruded through the rotary spring 7052, and the push block 7057 drives the removing rod 7053 to rotate through the pushing stop strip 7056.

When the stress absorbing mechanism 8 is in use, the suction cup 805 is absorbed on the glass or ceramic tile which needs to be cleaned of the tape trace, and when the removing device does not need to be detached and the tape trace is removed, the second ball 803 on the stress absorbing mechanism 8 slides in the chute of the upper circular plate 1.

When the removing device is used, the pull ring 15 on the regular holding plate 14 is held by hand to operate the removing device.

When the rotating rod 12 rotates, the rotating rod 12 rotates on the inner side of the conical cover frame 10, and the operation of the removing device is prevented from being influenced by the rotating rod 12.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a toughened glass sticky tape trace remove device based on rotation of zooming, includes ring board (1) and lower ring board (2), its characterized in that: the inner side wall of the upper circular ring plate (1) is provided with a sliding groove, the inner side of the upper circular ring plate (1) is provided with a pentagonal frame cover (4), the outer side of the pentagonal frame cover (4) is connected with the inner side of the upper circular ring plate (1) in a sliding manner through a fixed connecting rod (5) at equal intervals, the pentagonal corners at the outer side of the pentagonal frame cover (4) are connected with first balls (6) through supporting rods, the outer side of the first balls (6) is connected with the inner side of the sliding groove in a sliding manner, five clearing mechanisms (7) are installed at the inner side of the pentagonal frame cover (4), the front side of the lower circular ring plate (2) is provided with through holes (3) at equal intervals, the inner side of the through holes (3) is provided with a stress adsorption mechanism (8) in a penetrating manner, the front middle part of the pentagonal frame cover (4) is provided with a rope penetrating hole (9), the front middle part of the pentagonal frame cover (4) is fixedly connected with a, the back of the rope threading ring cover (13) is fixedly connected with the back of the inner wall of the pentagonal frame cover (4), the back of the upper circular plate (1) is connected with a conical cover frame (10), the inner side of the conical cover frame (10) is fixedly connected with an electric motor (11), and an output shaft of the electric motor (11) is connected with a rotating rod (12);

clear away mechanism (7) including tightening spring (701), carriage (702) and triangle frame cover (704), the one end fixed connection who tightens spring (701) is in the inboard five corners department of five corners frame cover (4), the back fixed connection of carriage (702) is in the inboard back of five corners frame cover (4), the both ends difference fixed connection of carriage (702) is on the inside wall of five corners frame cover (4) and the lateral wall of reeving ring cover (13), driving groove (703) have all been seted up to the inside both sides of carriage (702), inboard and the two angle sliding connection in the triangle frame cover (704) outside of driving groove (703), the back of triangle frame cover (704) inner wall is provided with stress slewing mechanism (705), another outside angle of triangle frame cover (704) is connected with stay cord (706) through the connecting piece, stay cord (706) are kept away from the one end of triangle frame cover (704) and are passed in proper order and are walked rope eye (9) and with reeving hole (704) and with triangle frame cover (704) and with stay cord The upper side of the front surface of the rotating rod (12) is connected;

the stress rotating mechanism (705) comprises a sleeve (7051), the back of the sleeve (7051) is connected with the back of the inner wall of the triangular frame cover (704), a rotary spring (7052) is fixedly connected to the back of the inner wall of the sleeve (7051), a push block (7057) is fixedly connected to one side of the front of the rotary spring (7052), a clearing rod (7053) is arranged on the front of the sleeve (7051) in a penetrating mode, a deformation spring (7054) is connected to the outer side of the clearing rod (7053) at equal intervals, one end, far away from the clearing rod (7053), of the deformation spring (7054) is fixedly connected to the back of the inner side wall of the triangular frame cover (704), a tapered groove (7055) is formed in the back of the clearing rod (7053), pushing stop bars (7056) are fixedly connected to the two sides of the inner wall of the tapered groove (7055), unfolding rods (7058) are hinged to the two sides of the outer portion of the clearing rod (7053), and an arc-shaped rubber plate, the outer side surface of the arc-removing rubber plate (7059) is provided with a spiral groove (7060), and two sides of the back surface of the arc-removing rubber plate (7059) are fixedly connected with two unfolding rods (7058) respectively;

the stress adsorption mechanism (8) comprises a penetrating sleeve (801), the back surface of the penetrating sleeve (801) penetrates through the penetrating hole (3) and is connected with a curved rod (802), the back surface of one side of the curved rod (802) is connected with a second ball (803) through a connecting rod, the outer side of the second ball (803) is in sliding connection with the inner side of the sliding groove, the back surface of the inner wall of the penetrating sleeve (801) is fixedly connected with an installation spring (804), and the front surface of the installation spring (804) is connected with a sucker (805) through a support;

go up ring board (1) and be located the back of lower ring board (2), and go up the both sides of ring board (1) and all connect regularly and hold between the fingers board (14), the back fixedly connected with pull ring (15) of board (14) are held between the fingers to the rule.

2. The tempered glass tape trace removal device based on zoom rotation of claim 1, wherein: the output shaft of the electric motor (11) is positioned at the lower side right behind the back of the rope threading hole (9), and the rotating rod (12) is positioned at the inner side of the conical cover frame (10).

3. The tempered glass tape trace removal device based on zoom rotation and the use method thereof according to any one of claims 1-2, wherein: when the device is used, the device is fixed on glass or a ceramic tile through the stress adsorption mechanism (8), the motor (11) is started, the rotating rod (12) drives the cleaning mechanism (7) to clean a residual adhesive tape trace on the glass or the ceramic tile, and when the position for cleaning the adhesive tape trace needs to be changed, the pentagonal side cover frame (4) slides in the sliding chute of the upper circular plate (1) through the first ball (6);

when the cleaning mechanism (7) is used, a pulling rope (706) pulls a triangular frame cover (704), the triangular frame cover (704) slides to the center position of the pentagonal frame cover (4) in a sliding frame (702), the pulling rope (706) stops pulling the triangular frame cover (704), the triangular frame cover (704) in the sliding frame (702) returns to five corners of the pentagonal frame cover (4) by contraction force generated by a tightening spring (701), and the triangular frame cover (704) moves in a circulating mode in sequence to clean adhesive tape marks by a stress rotating mechanism (705) on the triangular frame cover (704);

when the stress rotating mechanism (705) works, a force in the direction of an object needing to remove the adhesive tape traces is applied to the upper circular plate (1), the arc-shaped rubber plate (7059) on the stress rotating mechanism (705) is extruded after being stressed, the arc-shaped rubber plate (7059) on the removing rod (7053) is driven by the expanding rod (7058) to be removed to be expanded, the rotary spring (7052) extends into the conical groove (7055) of the removing rod (7053), the push block (7057) on the rotary spring (7052) contracts and rotates through the rotary spring (7052) during extrusion, and the push block (7057) drives the removing rod (7053) to rotate through the pushing barrier strip (7056);

when the stress adsorption mechanism (8) is used, the sucker (805) is adsorbed on the glass or ceramic tile needing to remove the adhesive tape trace, and when the removing device does not need to be detached and the position of the adhesive tape trace is replaced, the second ball (803) on the stress adsorption mechanism (8) slides in the chute of the upper circular plate (1);

when the removing device is used, a pull ring (15) on the regular holding plate (14) is manually held, and the removing device is operated;

when the rotating rod (12) rotates, the rotating rod (12) rotates on the inner side of the conical cover frame (10), and the rotating rod (12) is prevented from influencing the operation of the removing device when rotating.