CN212219269U

CN212219269U - Aluminum plate tectorial membrane loading attachment

Info

Publication number: CN212219269U
Application number: CN202020077923.8U
Authority: CN
Inventors: 韦忠华; 胡智懋
Original assignee: Chuangzhixin New Material Technology Suzhou Co ltd
Current assignee: Chuangzhixin New Material Technology Suzhou Co ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-12-25
Anticipated expiration: 2030-01-15

Abstract

The utility model discloses an aluminum plate tectorial membrane loading attachment, include: the device comprises a material belt for horizontally conveying an aluminum plate and a suction head suspended above the material belt; the material belt is tightened on the power transmission roller set; the roller set is including setting up in the frame: a drive roller and a driven roller; two ends of the driving roller are assembled on a tension adjusting component on the frame through a bearing piece; the tension adjusting assembly comprises a displacement plate sliding along the horizontal direction and an adjusting rod pushing and pulling the displacement plate along the horizontal direction; the bearing piece is fixed on the displacement plate; a cross beam crossing the material belt is supported above the material belt; one end of the beam is positioned above the side of the material belt; a transverse module which guides the material from the right upper side of the material belt to the side upper side of the material belt is arranged on the cross beam; the transverse module is matched with a vertical lifting longitudinal module; the longitudinal module drives a frame parallel to the material belt; the frame is provided with an adsorption component; the adsorption component comprises a spring column vertical to the surface of the material belt; a suction head is arranged at the lower end of the spring column; the suction head is connected to a pressure source via an air line.

Description

Aluminum plate tectorial membrane loading attachment

Technical Field

The utility model relates to an aluminum plate laminating machine's structure field, especially an aluminum plate laminating loading attachment.

Background

The tectorial membrane is that to paste the film and cover or paste on the object surface, makes the object surface more level and smooth bright, can not only improve the gloss of object, pleasing to the eye and fastness, prolongs object life, can play protection such as waterproof, antifouling, wear-resisting, resistant chemical corrosion moreover, if spraying or the trade mark of printing processing factory can also play the effect of brand propaganda on plastic film. The aluminum plate film is formed by coating a layer of plastic film on the surface of the aluminum plate, has the functions, and is mainly used for preventing the surface of the aluminum plate from being scratched, and is a protective measure for preventing the aluminum plate from being damaged in the transportation and installation processes.

Along with the fact that aluminum plates are increasingly popularized and applied in a wider range, requirements of customers are also increasingly high and diversified, and accordingly more and more double-faced film-coated aluminum plates are required. At present, the aluminum plate double-sided film laminating equipment in the prior art is generally composed of an upper rubber roll, a lower rubber roll, a rack, a power transmission mechanism, a control device, a film supporting frame and other mechanisms, and is a universal device suitable for acrylic plates, PVC plates, stainless steel plates and the like.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is: the utility model provides an aluminum plate tectorial membrane loading attachment has solved aluminum plate laminating machine material loading in-process because the sheet material is different and influence the problem of carrying.

The technical scheme of the utility model is that: an aluminum sheet tectorial membrane loading attachment includes: a material belt for horizontally conveying the aluminum plate and a suction head suspended above the material belt. The material belt generates horizontal conveying power, and the suction head provides the grabbing force of the aluminum plate.

Typically, the strip of material is stretched over a power driven roller set mounted on the frame. The roller group comprises at least one driving roller and a plurality of driven rollers, the driving roller is in power linkage with the third motor through a belt or a transmission chain, and the driven rollers are matched with the driving roller to keep the material belt to roll continuously. The two ends of the driving roller are assembled on the frame through the bearing pieces, and the tension of the material belt can be ensured by adjusting the distance between the driving roller and the driven roller. Therefore, both ends of the drive roll are respectively mounted on the tension adjusting assembly through the bearing members.

Generally, in order to ensure the carrying capacity of the tape in a plane, a plurality of auxiliary rollers are required to be arranged between a driving roller and a driven roller, so that the carrying capacity of the tape is improved, and the carrying efficiency can be ensured.

The tension adjusting assembly comprises a displacement plate sliding along the horizontal direction and an adjusting rod pushing and pulling the displacement plate along the horizontal direction. Specifically, the frame includes: the horizontal frame of bearing roller set, the pillar of supporting horizontal frame. The horizontal frame close to the driving roller is provided with a displacement plate, and the displacement plate is provided with a groove for sliding and adjusting the horizontal position of the displacement plate. The displacement plate is connected with the rack through a bolt matched in the groove, and after the bolt is loosened, the displacement plate can generate relative sliding, so that the transverse position is adjusted along with the length of the groove; meanwhile, the distance between the driving roller fixed on the bottom plate and the driven roller can be adjusted, so that the effect of adjusting the tension of the material belt is achieved. After the displacement plate moves to a proper position, the positioning and fastening effects are achieved by screwing the bolts. The fine adjustment of the position of the displacement plate is realized by adjusting the rod. The base block is fixed on the transverse frame at the front end of the displacement plate, the adjusting rod is matched through a threaded hole in the base block, the end part of the adjusting rod is fixed on the displacement plate, and the adjusting rod generates displacement through threaded matching and pushes and pulls the displacement plate along the direction of the transverse frame. Therefore, the tension adjusting component is of a symmetrical structure, two ends of the driving roller are respectively corresponding to one tension adjusting structure, and the optimal belt tightening effect can be achieved through synchronous adjustment of the two ends.

A cross beam crossing the material belt is supported above the material belt, one end of the cross beam is supported by a vertical upright post, and the other end of the cross beam is positioned above the side of the material belt. Specifically, the upright post is vertically supported on the side surface of the frame, and the upright post is fixed with the transverse frame on the side of the frame so as to increase the structural stability. The lower end of the upright post is a base which is parallel to the cross beam and extends to the lower part of the material belt. The base extends beyond the width of the strip to ensure that the center of the beam does not shift, which would otherwise affect the gravity change during the movement of the aluminum plate.

Be provided with the horizontal module of direction from directly over the material area to material area side top on the crossbeam, the vertical module of a vertical lift of cooperation on the horizontal module. The longitudinal module drives a frame parallel to the material belt, and the frame is a rectangular grid frame formed by splicing sectional materials. The frame is provided with an adsorption component, the adsorption component comprises a spring column perpendicular to the surface of the material belt, the upper end of the spring column is fixed on the frame, and downward elastic force is generated between the spring column and the frame. The lower end of the spring column is provided with a suction head which is connected to a pressure source through an air pipe.

Preferably, the transverse module comprises: the transverse sliding rail is arranged on the cross beam, and the transverse rack is arranged in parallel with the transverse sliding rail; the bottom plate of the longitudinal module is matched with the transverse slide rail through the transverse slide block; and a first motor for driving the longitudinal module to slide along the transverse direction is arranged on the bottom plate.

Preferably, the longitudinal module comprises: the bottom plate, the longitudinal sliding block and the longitudinal rack are arranged in parallel to the longitudinal sliding block; the longitudinal slide block is matched with a longitudinal slide rail; the longitudinal slide rail is fixed on a vertical plate; the lower end of the vertical plate is provided with a frame; the bottom plate is provided with a driving upright post for fixing a second motor in a sliding manner along the longitudinal direction.

Preferably, the first motor, the second motor and the third motor are all servo motors.

The utility model has the advantages that: this stable in structure can quick response, and structural displacement is accurate, can be accurate reach the pay-off position through servo power. Moreover, the stability of the feeding belt can ensure that the aluminum plate reduces vibration in the attaching process, and the conveying stability is ensured through the tension adjustment of the material belt. The structure is reasonable in overall design, the preparation cost can be controlled, and the equipment maintenance is convenient.

Drawings

The invention will be further described with reference to the following drawings and examples:

FIG. 1 is a first perspective view of a structure of a film-coated aluminum plate feeding device;

FIG. 2 is a perspective view of a structure of an aluminum plate film-covering feeding device;

FIG. 3 is a third perspective view of the structure of the aluminum plate film-covering and feeding device;

wherein: 1. a material belt; 2. a frame; 3. a third motor; 4. a cross beam; 5. a column; 6. a base; 7. a spring post; 8. a suction head; 11. a drive roll; 12. a driven roller; 13. a drive chain; 14. a displacement plate; 15. adjusting a rod; 16. a base block; 41. a base block; 42. a transverse rack; 43. a base plate; 44. a first motor; 45. a vertical plate; 46. a frame; 47. a second motor; 48. a longitudinal rack; 49. a longitudinal slide rail.

Detailed Description

The utility model discloses a preferred embodiment 1:

the aluminum plate film coating feeding device is based on a material belt 1 which is horizontally rolled and fed, and a movable suction head is suspended above the material belt 1. The material belt 1 generates horizontal conveying power, and the suction head provides the grabbing force of the aluminum plate.

Generally, the material belt 1 is arranged on a frame 2, and the frame 2 has stable bearing capacity. The frame 2 includes: a cross frame 21 for supporting the roller set, a pillar 22 for supporting the cross frame, and a triangular brace 23 between the pillar 21 and the cross beam 22. A bearing plate 24 is arranged between the two upright posts at the front end of the frame 2, and the third motor 3 is fixed on the bearing plate 24.

The material belt 1 is tightly stretched on a power transmission roller set which is arranged on a frame 2. The roller group comprises at least one driving roller 11 and a plurality of driven rollers 12, the driving roller 11 is in power linkage with the third motor 3 through a belt or a transmission chain 13, and the driven rollers 12 are matched with the driving roller 11 to keep the material belt 1 to roll and convey continuously. In general, in order to ensure the planar carrying capacity of the tape 1, a plurality of auxiliary rollers are required to be provided between the drive roller 11 and the driven roller 12, so that the carrying capacity of the tape is improved and the carrying efficiency is ensured.

Along with long-time work, the tension of material area 1 can be influenced, can influence conveying efficiency after material area 1 relaxs, influences aluminum plate's removal stability moreover. Therefore, tension adjustment is required between the drive roller 11 and the driven roller 12. In this embodiment, the two ends of the driving roller 11 are matched through the bearing member, and the tension of the material belt can be ensured by adjusting the distance between the driving roller 11 and the driven roller 12. Thus, both ends of the drive roll 11 are mounted on the tension adjusting assembly through bearing members, respectively.

The tension adjusting assembly includes a displacement plate 14 sliding in a horizontal direction, and an adjusting lever 15 pushing and pulling the displacement plate in the horizontal direction. Specifically, a displacement plate 14 is mounted on a transverse frame close to the drive roll 11, and a groove for sliding adjustment of the transverse position of the displacement plate 14 is formed in the displacement plate 14. The displacement plate 14 is connected with the frame 2 through a bolt matched in the groove, and after the bolt is loosened, the displacement plate 14 can generate relative sliding, so that the transverse position is adjusted along with the length of the groove; meanwhile, the driving roller 11 fixed on the displacement plate 14 can be spaced from the driven roller 12 to adjust the tension of the material belt. After the displacement plate 14 is moved to the proper position, the positioning and fastening effects are achieved by tightening the bolts. Fine adjustment of the position of the displacement plate 14 is achieved by adjusting the lever 15. A base block 16 is fixed on a transverse frame at the front end of the displacement plate 14, an adjusting rod 15 is matched through a threaded hole in the base block 16, the end part of the adjusting rod 15 is fixed on the displacement plate 14, and the adjusting rod 15 generates displacement through threaded matching and pushes and pulls the displacement plate 14 along the direction of the transverse frame. Therefore, the tension adjusting assembly is a symmetrical structure, and two ends of the driving roller 11 are respectively corresponding to one tension adjusting structure, so that the optimal belt tensioning effect can be achieved through synchronous adjustment of the two ends.

The utility model discloses a preferred embodiment 2:

a cross beam 4 crossing the material belt is supported above the material belt 1, one end of the cross beam 4 is supported by a vertical upright post 5, and the other end of the cross beam 4 is positioned above the side of the material belt 1. Specifically, the upright post 5 is vertically supported on the side surface of the frame 2, and the upright post 5 is fixed with the transverse frame on the side of the frame 2 to increase the structural stability. The lower end of the upright post 5 is a base 6, the base 6 is parallel to the cross beam 4, and the base 6 extends to the lower part of the material belt 1. The base 6 extends over more than half the width of the strip 1 to ensure that the centre of the beam 4 does not shift, which would otherwise affect the change in gravity during the movement of the aluminium sheet.

Be provided with the horizontal module of direction from directly over the material area to material area side top on crossbeam 4, the vertical module of a vertical lift of cooperation on the horizontal module.

The transverse module comprises: a transverse slide rail 41 arranged on the cross beam 4, a transverse rack 42 arranged parallel to the transverse slide rail 41. The transverse module is used for stably moving the longitudinal module along the transverse sliding rail 41 and moving the longitudinal module to one side of the material belt 1 to carry out aluminum plate feeding adsorption.

The longitudinal modules are arranged on a base plate 43, the base plate 43 being matched to the transverse slide rails 41 by means of transverse slides. On the base plate 43, a first motor 44 is provided to drive the longitudinal module to slide in the transverse direction. The output end of the first motor 44 is sleeved with a driving wheel matched with the transverse rack, and the driving wheel is meshed with the transverse rack 42 through servo power to achieve the purpose of transverse displacement.

The principle of the longitudinal module is the same as that of the transverse module, the longitudinal module drives a vertical plate 45, and a frame 46 parallel to the material belt is fixed at the lower end of the vertical plate 45. The vertical module includes: a bottom plate 43, a longitudinal slide, a longitudinal rack 48 arranged parallel to the longitudinal slide. The longitudinal sliding block is provided with a longitudinal sliding rail 49 in a matching way, and the longitudinal sliding rail 49 is fixed on the vertical plate 45. The lower end of the vertical plate is provided with a frame 46, and the bottom plate is provided with a driving upright post for fixing a second motor 47 in a sliding manner along the longitudinal direction. The output end of the second motor 47 is sleeved with a driving wheel matched with the longitudinal rack, and the driving wheel is meshed with the longitudinal rack through servo power of the second motor 47 to drive so as to achieve the purpose of longitudinal displacement of the vertical plate.

The vertical plate 45 drives the frame to generate vertical displacement, and the frame 46 is a rectangular grid frame formed by splicing sectional materials. The frame is provided with an adsorption component, the adsorption component comprises a spring column 7 vertical to the surface of the material belt, the upper end of the spring column 7 is fixed on the frame 6, and downward elastic force is generated between the spring column 7 and the frame 6. A suction head 8 is arranged at the lower end of the spring column 7, and the suction head 8 is connected to a pressure source through an air pipe. The negative pressure adsorption mode can avoid scratches on the surface of the aluminum plate, and the negative pressure adsorption response is rapid and the grabbing effect is ideal.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical concepts of the present invention be covered by the claims of the present invention.

Claims

1. An aluminum sheet tectorial membrane loading attachment includes: the device comprises a material belt for horizontally conveying an aluminum plate and a suction head suspended above the material belt; the method is characterized in that: the material belt is tightly stretched on the power transmission roller set; the roller set is including setting up in the frame: a drive roller and a driven roller; two ends of the driving roller are assembled on a tension adjusting component on the frame through a bearing piece; the tension adjusting assembly comprises a displacement plate sliding along the horizontal direction and an adjusting rod pushing and pulling the displacement plate along the horizontal direction; the bearing piece is fixed on the displacement plate; supporting a cross beam across the strip of material above the strip of material; one end of the cross beam is positioned above the side of the material belt; a transverse module which guides the material from the right upper side of the material belt to the side upper side of the material belt is arranged on the cross beam; the transverse module is matched with a vertical lifting longitudinal module; the longitudinal module drives a frame parallel to the material belt; an adsorption component is arranged on the frame; the adsorption component comprises a spring column vertical to the surface of the material belt; the suction head is arranged at the lower end of the spring column; the suction head is connected to a pressure source via an air tube.

2. The aluminum plate coating feeding device of claim 1, characterized in that: the frame includes: a transverse frame for bearing the roller set and a strut for supporting the transverse frame; the displacement plate is arranged on the transverse frame close to the driving roller; the displacement plate is provided with a groove for sliding adjustment of the transverse position of the displacement plate; the displacement plate is fastened with the frame through a bolt matched in the groove; the adjusting rod is matched through a threaded hole in the base block; the end part of the adjusting rod is fixed on the displacement plate; the adjusting rod generates displacement through thread matching and pushes and pulls the displacement plate along the direction of the transverse frame.

3. The aluminum plate coating feeding device of claim 1, characterized in that: the transverse module comprises: the transverse sliding rail is arranged on the cross beam, and the transverse rack is arranged in parallel with the transverse sliding rail; the bottom plate of the longitudinal module is matched with the transverse slide rail through a transverse slide block; and a first motor for driving the longitudinal module to slide along the transverse direction is arranged on the bottom plate.

4. The aluminum plate coating feeding device of claim 3, wherein: the longitudinal module comprises: the bottom plate, the longitudinal sliding block and the longitudinal rack arranged in parallel to the longitudinal sliding block are arranged on the bottom plate; the longitudinal sliding block is matched with a longitudinal sliding rail; the longitudinal slide rail is fixed on a vertical plate; the lower end of the vertical plate is provided with the frame; and the bottom plate is provided with a driving upright post for fixing a second motor in a sliding manner along the longitudinal direction.

5. The aluminum plate membrane feeding device of claim 2 or 4, wherein: the cross beam is supported by a vertical column; the upright post is vertically supported on the side surface of the rack, and the upright post is fixed with the transverse frame on the side of the rack; the lower end of the upright post is provided with a base; the base is parallel to the cross beam and extends below the feed belt.

6. The aluminum plate coating feeding device of claim 1, characterized in that: the frame is a rectangular grid frame formed by splicing sectional materials; the upper end of the spring column is fixed on the frame, and downward elastic force is generated between the spring column and the frame.