CN112519200A - Glass processing is with supplementary tectorial membrane device - Google Patents

Abstract

The invention discloses an auxiliary film laminating device for glass processing, which comprises a supporting frame, a transmission mechanism, a rolling mechanism and a supporting mechanism, wherein the transmission mechanism is arranged in an inner cavity of the supporting frame, the supporting mechanism comprises two supporting blocks, two supporting columns and a first driving motor, the rolling mechanism is arranged at the upper end of the supporting mechanism, and the rolling mechanism comprises a film laminating roller, two rotating sleeves, two transmission rods, two fluted discs, two transmission seats and two guide rollers. The invention relates to an auxiliary film laminating device for glass processing, which is convenient for carrying out batch rapid film laminating operation on glass, can assist in compacting a film by rolling the film by using two guide rollers, and can prevent bubbles from being generated, and can also assist in flattening the output film and prevent the film from generating wrinkles.

Description

Glass processing is with supplementary tectorial membrane device

Technical Field

The invention relates to the technical field related to glass processing, in particular to an auxiliary film laminating device for glass processing.

Background

The glass film is a film in the household building material market, is colorful, energy-saving and environment-friendly, and is mainly applied to decorating indoor and outdoor glass; the glass film can change the monotonous and transparent image of common glass, add aesthetic feeling to the interior and exterior, can insulate against heat and cold, resist explosion and shock, and add safety insurance to keep the room warm; the glass film covering is a process of covering a glass film on glass, a currently adopted method is to attach a layer of film on the surface of the glass, and the attaching process has the problems that air is easily left between the glass and the film after the film is contacted with the surface of the glass, bubbles are formed, and the transparency of the glass is reduced, so that an auxiliary film covering device for glass processing is designed and produced, and the problems are solved.

Disclosure of Invention

The invention aims to provide an auxiliary film coating device for glass processing, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a glass processing is with supplementary tectorial membrane device, includes carriage, drive mechanism, roll-in mechanism and supporting mechanism, drive mechanism sets up the inner chamber at the carriage, conveys the operation to glass through drive mechanism, supporting mechanism is including two supporting shoes, two support columns and a driving motor, roll-in mechanism sets up in supporting mechanism's upper end, comes back-up roll-in mechanism through supporting mechanism, roll-in mechanism carries out the roll-in tectorial membrane operation to glass including tectorial membrane roller, two rotation sleeves, two transfer lines, two fluted discs, two drive bases and two guide rolls through roll-in mechanism.

In a further embodiment, four corner positions of the bottom end surface of the supporting frame are vertically provided with supporting legs, and the whole supporting frame is supported through the supporting legs.

In a further embodiment, drive mechanism is including two driving rollers, conveyer belt and second driving motor, two both ends about the inner chamber that the driving roller is located the carriage respectively, and all with the inner chamber of carriage around the lateral wall rotate peg graft, the conveyer belt is respectively around connecing between two driving rollers, the fixed rear end face left side that sets up at the carriage of second driving motor, second driving motor passes through the power shaft and rotates the rear end face that runs through the carriage, and is connected with the rear end face of left side driving roller, through starting second driving motor, can drive left side driving roller and rotate, and right side driving roller cooperation left side driving roller is synchronous to be rotated and is realized driving the conveyer belt and rotate, realizes carrying out the conveying operation to glass automatically.

In a further embodiment, the two support blocks are respectively fixedly welded at the right end positions of the front side and the rear side of the support frame, the two support columns are respectively and vertically welded at the end far away from the top end surfaces of the two support blocks, the first driving motor is fixedly arranged at the top end position of the rear end surface of the rear side support column, the first driving motor penetrates through the rear side support column through the rotation of the power shaft and is connected with a first transmission sleeve, the first driving motor can drive the first transmission sleeve to rotate through the power shaft, the top end of the front side support column is rotatably inserted with a threaded adjusting rod through a threaded hole, the tip of the threaded adjusting rod extends to the rear side of the front side support column and is rotatably connected with a second transmission sleeve, and the position of the threaded adjusting rod is adjusted by bare-handed rotation, so that the position of the second transmission sleeve can be axially adjusted, namely the horizontal distance from the first, thereby make things convenient for supplementary installation and lift the tectorial membrane roller off, four corners recess has all been seted up to the mutual just lateral wall in one side of first transmission sleeve and second transmission sleeve.

In a further embodiment, the axial both ends of tectorial membrane roller are all fixed and are equipped with spacing dish, and the winding is chaotic when preventing tectorial membrane roller rolling film through setting up spacing dish, skew tectorial membrane roller outer wall, the axial both ends of tectorial membrane roller run through spacing dish respectively, and are connected with the extension axle, two the pointed end of extending the axle all is equipped with the quadrangular prism, tectorial membrane roller axial both ends are pegged graft through two quadrangular prisms and first transmission sleeve and second transmission sleeve's four corners recess inner chamber respectively, and the tectorial membrane roller is pegged graft through two quadrangular prisms and first transmission sleeve and second transmission sleeve's four corners recess inner chamber, can make the tectorial membrane roller can follow first transmission sleeve's rotation and rotate output film in step to in order to carry out the tectorial membrane operation.

In a further embodiment, the two rotating sleeves are respectively rotatably sleeved on the outer walls of the two extending shafts, the rotating sleeves can rotate around the outer walls of the extending shafts, the two transmission rods are respectively rotatably connected with the radial side walls of the two rotating sleeves through the rotating disc, the transmission rods and the rotating sleeves can rotate relatively, the two fluted discs are respectively fixedly sleeved on the outer walls of the two transmission rods, a plurality of limiting tooth grooves which are distributed uniformly and annularly at intervals are respectively arranged at the edge position of the side wall of one side of each of the two limiting discs, which is far away from each other, the two fluted discs are respectively positioned at two sides of the two limiting discs, and each fluted disc is respectively meshed with the corresponding limiting tooth groove, when the limiting discs rotate synchronously along with the laminating roller, the two limiting discs also rotate along with the laminating roller, so that the two fluted discs rotate respectively with the corresponding limiting tooth grooves, and the two transmission rods can be synchronously driven to rotate.

In further embodiment, every all be equipped with U type connecting rod between the radial lateral wall of carousel and the radial lateral wall of every transmission seat, through setting up U type connecting rod, prevent that the transmission seat from following the transfer line and rotating and take place synchronous rotation, two the transfer line is kept away from the inner chamber that the inner chamber of rotating sleeve rotated respectively and is extended to two transmission seats, and all fixed the cup joints first bevel gear that is located two transmission seat inner chambers, and first bevel gear can follow the transfer line and rotate, two the one end that the guide roll was kept away from each other all rotates through the round pin axle and extends to the inner chamber to the transmission seat, and all fixed the cup joints second bevel gear, every second bevel gear and every first bevel gear mutually perpendicular, and intermeshing, first bevel gear rotates and can drive the rotation of second bevel gear to the realization drives corresponding guide roll and rotates.

In a further embodiment, the radial outer wall of two guide rolls has all been seted up the helicla flute, and the helicla flute of two guide rolls revolve to opposite, revolve to setting to opposite with two guide roll helicla flutes for when two guide rolls rotate, can roll-in the film to the avris of carriage respectively, the supplementary film of flattening output prevents that the film from producing the fold, rolls in the film through utilizing two guide rolls, can assist the compaction film, prevents to produce the bubble.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to an auxiliary film laminating device for glass processing, which is convenient for carrying out batch rapid film laminating operation on glass, and can assist in compacting a film by rolling the film by using two guide rollers so as to prevent bubbles from being generated.

2. According to the invention, the spiral grooves of the two guide rollers are arranged in opposite rotating directions, so that the films can be respectively rolled towards the side edges of the support frame when the two guide rollers rotate, the output films are flattened in an auxiliary manner, and the films are prevented from being wrinkled.

Drawings

FIG. 1 is an exploded view of the main structure of the present invention;

FIG. 2 is a cross-sectional view of a roller press mechanism of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at B according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

fig. 5 is a partially enlarged view of the support mechanism of the present invention.

In the figure: 1. a support frame; 11. supporting legs; 2. a transmission mechanism; 21. a second drive motor; 22. a conveyor belt; 23. a driving roller; 3. a support mechanism; 31. a support block; 32. a support pillar; 33. a threaded adjusting rod; 34. a second drive sleeve; 35. a first drive motor; 36. a first transmission sleeve; 4. a rolling mechanism; 41. a film laminating roller; 42. a limiting disc; 43. a transmission rod; 44. a transmission seat; 45. a guide roller; 46. a U-shaped connecting rod; 47. an extension shaft; 48. a quadrangular prism; 49. rotating the sleeve; 410. a turntable; 411. a fluted disc; 412. a first bevel gear; 413. a second bevel gear; 414. and (4) limiting the tooth grooves.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the invention.

Example one

Referring to fig. 1-5, the present embodiment provides an auxiliary film covering device for glass processing, including a supporting frame 1, a transmission mechanism 2, a rolling mechanism 4 and a supporting mechanism 3, wherein the transmission mechanism 2 is disposed in an inner cavity of the supporting frame 1, and the transmission mechanism 2 is used for carrying out a transmission operation on glass, the supporting mechanism 3 includes two supporting blocks 31, two supporting columns 32 and a first driving motor 35, the rolling mechanism 4 is disposed at an upper end of the supporting mechanism 3, and supports the rolling mechanism 4 through the supporting mechanism 3, the rolling mechanism 4 includes a film covering roller 41, two rotating sleeves 49, two transmission rods 43, two fluted discs 411, two transmission seats 44 and two guide rollers 45, and the rolling mechanism 4 is used for carrying out a rolling film covering operation on glass.

Drive mechanism 2 is including two driving rollers 23, conveyer belt 22 and second driving motor 21, both ends about two driving rollers 23 are located the inner chamber of carriage 1 respectively, and all rotate with the inner chamber front and back lateral wall of carriage 1 and peg graft, conveyer belt 22 is around connecing respectively between two driving rollers 23, the fixed rear end face left side that sets up at carriage 1 of second driving motor 21, second driving motor 21 rotates the rear end face that runs through carriage 1 through the power shaft, and be connected with the rear end face of left side driving roller 23, through starting second driving motor 21, can drive left side driving roller 23 and rotate, right side driving roller 23 cooperates the synchronous rotation of left side driving roller 23 to realize driving conveyer belt 22 and rotate, realize carrying out the conveying operation to glass automatically.

Two supporting blocks 31 are respectively fixedly welded at the right end positions of the front side and the rear side of the supporting frame 1, two supporting columns 32 are respectively and vertically welded at one end far away from the top end surfaces of the two supporting blocks 31, a first driving motor 35 is fixedly arranged at the top end position of the rear end surface of the rear side supporting column 32, the first driving motor 35 penetrates through the rear side supporting column 32 through the rotation of a power shaft and is connected with a first transmission sleeve 36, the first driving motor 35 can drive the first transmission sleeve 36 to rotate through the power shaft, the top end of the front side supporting column 32 is inserted with a threaded adjusting rod 33 through the rotation of a threaded hole, the tip of the threaded adjusting rod 33 extends to the rear side of the front side supporting column 32 and is rotationally connected with a second transmission sleeve 34, the position of the threaded adjusting rod 33 is adjusted by bare-handed rotation, namely, the position of the second transmission sleeve 34 can be axially adjusted, namely, thereby make things convenient for supplementary installation and lift off tectorial membrane roller 41, four corners recess has all been seted up to the mutual just lateral wall of one side of first transmission sleeve 36 and second transmission sleeve 34.

The axial both ends of tectorial membrane roller 41 are all fixed and are equipped with spacing dish 42, it is chaotic to twine when preventing the 41 rolling films of tectorial membrane roller through setting up spacing dish 42, skew tectorial membrane roller 41 outer wall, the axial both ends of tectorial membrane roller 41 run through spacing dish 42 respectively, and be connected with extension axle 47, two tip that extend axle 47 all are equipped with quadrangular 48, 41 axial both ends of tectorial membrane roller are pegged graft through the four corners recess inner chamber of two quadrangular 48 and first transmission sleeve 36 and second transmission sleeve 34 respectively, tectorial membrane roller 41 is pegged graft through the four corners recess inner chamber of two quadrangular 48 and first transmission sleeve 36 and second transmission sleeve 34, can make tectorial membrane roller 41 can follow the rotation of first transmission sleeve 36 and synchronous rotation output film, so that carry out the tectorial membrane operation.

The two rotating sleeves 49 are respectively rotatably sleeved on the outer walls of the two extending shafts 47, the rotating sleeves 49 can rotate around the outer walls of the extending shafts 47, the two transmission rods 43 are respectively rotatably connected with the radial side walls of the two rotating sleeves 49 through turntables 410, the transmission rods 43 can rotate relative to the rotating sleeves 49, the two fluted discs 411 are respectively fixedly sleeved on the outer walls of the two transmission rods 43, a plurality of limiting tooth grooves 414 which are uniformly distributed in an annular shape at intervals are respectively arranged at the edge positions of the side walls at one side, far away from each other, of the two limiting discs 42, the two fluted discs 411 are respectively positioned at two sides of the two limiting discs 42, and each fluted disc 411 is respectively meshed with the corresponding limiting tooth groove 414, when the limiting discs 42 rotate synchronously along with the laminating roller 41, the two limiting discs 42 also rotate along with the laminating roller, so that the two tooth discs 411 respectively rotate with the corresponding limiting tooth grooves 414, and the two transmission rods 43 can be synchronously driven to rotate.

The U-shaped connecting rod 46 is arranged between the radial side wall of each rotating disc 410 and the radial side wall of each transmission seat 44, the transmission seats 44 are prevented from rotating synchronously along with the rotation of the transmission rods 43 by the U-shaped connecting rod 46, one ends of the two transmission rods 43, which are far away from the rotating sleeve 49, respectively rotate and extend to the inner cavities of the two transmission seats 44, and are fixedly sleeved with first bevel gears 412 which are located in the inner cavities of the two transmission seats 44, the first bevel gears 412 can rotate along with the transmission rods 43, the ends, which are far away from each other, of the two guide rollers 45 respectively rotate and extend to the inner cavity of the corresponding transmission seat 44 through pin shafts, and are fixedly sleeved with second bevel gears 413, each second bevel gear 413 is perpendicular to each first bevel gear 412 and is meshed with each other, and the first bevel gears 412 rotate to drive the second bevel gears 413 to rotate, so that the.

The helicla flute has all been seted up to the radial outer wall of two guide rolls 45, and the helicla flute of two guide rolls 45 revolve to opposite, revolves two guide rolls 45 helicla flutes to setting to opposite for when two guide rolls 45 rotate, can be respectively to the avris roll-in film of carriage 1, the film of supplementary shakeout output prevents that the film from producing the fold, rolls in the film through utilizing two guide rolls 45, can assist the compaction film, prevents to produce the bubble.

In the embodiment, when the film covering operation is performed, the glass is sequentially placed on the conveyor belt 22, the left driving roller 23 can be driven to rotate by starting the second driving motor 21, the right driving roller 23 is matched with the left driving roller 23 to synchronously rotate to drive the conveyor belt 22 to rotate, and the automatic conveying operation of the glass is realized; the position of the threaded adjusting rod 33 is adjusted by bare-handed rotation, namely the position of the second transmission sleeve 34 can be adjusted axially, namely the horizontal distance between the second transmission sleeve and the first transmission sleeve 36 is achieved, the film coating roller 41 is connected with the four-corner groove inner cavities of the first transmission sleeve 36 and the second transmission sleeve 34 in an inserting mode through the two quadrangular prisms 48, the first driving motor 35 can drive the first transmission sleeve 36 to rotate through the power shaft, the film coating roller 41 can rotate synchronously along with the rotation of the first transmission sleeve 36 to output films, film coating operation is facilitated, the position of the threaded adjusting rod 33 is adjusted reversely, and the film coating roller 41 is convenient to be detached in an auxiliary mode;

when the limiting discs 42 rotate synchronously along with the laminating rollers 41, the two limiting discs 42 also rotate along with the laminating rollers, so that the two fluted discs 411 respectively rotate with the corresponding limiting tooth grooves 414, namely, the two transmission rods 43 can be synchronously driven to rotate, the first bevel gear 412 can rotate along with the rotation of the transmission rods 43, the first bevel gear 412 can drive the second bevel gear 413 to rotate, thereby realizing the rotation of the corresponding guide rollers 45, in addition, the spiral directions of the spiral grooves of the two guide rollers 45 are set to be opposite, so that when the two guide rollers 45 rotate, the films can be respectively rolled towards the side of the support frame 1, the output films are flattened in an auxiliary way, wrinkles are prevented from being generated on the films, the films can be compacted in an auxiliary way by utilizing the two guide rollers 45 to roll the films, and air bubbles are prevented,

example two

Referring to fig. 1, a further improvement is made on the basis of embodiment 1:

four corner positions of the bottom end face of the supporting frame 1 are all vertically provided with supporting legs 11, and the whole supporting frame 1 is supported through the supporting legs 11.

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 (8)

1. The utility model provides a glass processing is with supplementary tectorial membrane device, includes carriage (1), drive mechanism (2), rolling mechanism (4) and supporting mechanism (3), its characterized in that: drive mechanism (2) set up the inner chamber in carriage (1), support mechanism (3) are including two supporting shoes (31), two support columns (32) and first driving motor (35), rolling mechanism (4) set up the upper end in support mechanism (3), rolling mechanism (4) are including tectorial membrane roller (41), two rotation sleeve (49), two transfer lines (43), two fluted disc (411), two driving seats (44) and two guide roll (45).

2. The auxiliary laminating device for glass processing according to claim 1, wherein: four corner positions of the bottom end face of the supporting frame (1) are vertically provided with supporting legs (11).

3. The auxiliary laminating device for glass processing according to claim 1, wherein: drive mechanism (2) are including two driving roller (23), conveyer belt (22) and second driving motor (21), two both ends about driving roller (23) are located the inner chamber of carriage (1) respectively, and all rotate with the inner chamber front and back lateral wall of carriage (1) and peg graft, conveyer belt (22) are around connecing respectively between two driving roller (23), the fixed rear end face left side that sets up at carriage (1) in second driving motor (21), second driving motor (21) rotate the rear end face that runs through carriage (1) through the power shaft, and are connected with the rear end face of left side driving roller (23).

4. The auxiliary laminating device for glass processing according to claim 1, wherein: the two supporting blocks (31) are respectively and fixedly welded at the right ends of the front side and the rear side of the supporting frame (1), the two supporting columns (32) are respectively and vertically welded at the ends, far away from each other, of the top end surfaces of the two supporting blocks (31), the first driving motor (35) is fixedly arranged at the top end position of the rear end surface of the rear side supporting column (32), the first driving motor (35) penetrates through the rear side supporting column (32) through the rotation of the power shaft, and is connected with a first transmission sleeve (36), the top end of the support column (32) at the front side is rotatably inserted with a threaded adjusting rod (33) through a threaded hole, the tip of the threaded adjusting rod (33) extends to the rear side of the front side supporting column (32), and is connected with second transmission sleeve (34) in a rotating way, four corner grooves are respectively arranged on the side wall of one side of the first transmission sleeve (36) and the second transmission sleeve (34) which are opposite to each other.

5. The auxiliary laminating device for glass processing according to claim 4, wherein: the axial both ends of tectorial membrane roller (41) are all fixed and are equipped with spacing dish (42), the axial both ends of tectorial membrane roller (41) run through spacing dish (42) respectively, and are connected with and extend axle (47), two the pointed end of extending axle (47) all is equipped with quadrangular prism (48), tectorial membrane roller (41) axial both ends are pegged graft through the four corners recess inner chamber of two quadrangular prisms (48) and first transmission sleeve (36) and second transmission sleeve (34) respectively.

6. The auxiliary laminating device for glass processing according to claim 5, wherein: two rotate sleeve (49) and rotate respectively and cup joint the outer wall at two extension axles (47), two drive rod (43) is connected through carousel (410) and two radial lateral wall rotations that rotate sleeve (49) respectively, two fluted disc (411) is fixed cup joint respectively at the outer wall of two drive rods (43), two spacing tooth's socket (414) that a plurality of is the even interval distribution of annular are all seted up to one side lateral wall border position that spacing dish (42) kept away from each other, two fluted disc (411) respectively with be located the both sides of two spacing dishes (42), and every fluted disc (411) meshes with spacing tooth's socket (414) that correspond respectively.

7. The auxiliary laminating device for glass processing according to claim 6, wherein: every all be equipped with U type connecting rod (46) between the radial lateral wall of carousel (410) and the radial lateral wall of every transmission seat (44), two the one end that rotation sleeve (49) was kept away from in transfer line (43) rotates the inner chamber that extends to two transmission seats (44) respectively, and all fixedly cup joints first bevel gear (412) that are located two transmission seats (44) inner chambers, two the one end that guide roll (45) kept away from each other all extends to the inner chamber to transmission seat (44) through the round pin hub rotation, and all fixedly cup joints second bevel gear (413), every second bevel gear (413) and every first bevel gear (412) mutually perpendicular, and intermeshing.

8. The auxiliary laminating device for glass processing according to claim 1, wherein: spiral grooves are formed in the radial outer walls of the two guide rollers (45), and the spiral directions of the spiral grooves of the two guide rollers (45) are opposite.

Images