CN219880416U - Intermittent double-sided transfer coating device for packaging aluminum foil paper - Google Patents

Abstract

The utility model discloses an intermittent double-sided transfer coating device for packaging aluminum foil paper, which belongs to the technical field of aluminum foil paper processing, and comprises a workbench, double-sided coating assemblies fixed on the workbench and intermittent transmission assemblies positioned between the double-sided coating assemblies, wherein each double-sided coating assembly comprises coating frame bodies, coating strips are rotatably connected in the coating frame bodies, two coating frame bodies are arranged in the height direction of the workbench, the two coating frame bodies are arranged up and down, the top of each coating frame body positioned above the coating frame bodies is connected with an upper driving piece and a lower driving piece, one end of each coating frame body is connected with a coating liquid supply pipe, each intermittent transmission assembly comprises two transmission strips arranged in a waist shape, aluminum foil paper is placed above each transmission strip, and one end of each transmission strip is connected with each transmission piece; the device can simultaneously coat the two sides of the aluminum foil paper, and the whole device is in intermittent transmission, so that the residence time of the aluminum foil paper during coating is prolonged, and the coating efficiency and the coating quality are effectively improved.

Description

Intermittent double-sided transfer coating device for packaging aluminum foil paper

Technical Field

The utility model belongs to the technical field of aluminum foil paper processing, and particularly relates to an intermittent double-sided transfer coating device for packaging aluminum foil paper.

Background

The aluminum foil paper is paper formed by pasting and bonding aluminum foil lining paper and aluminum foil, is soft and easy to deform, is the same as paper, does not rebound after deformation, can be qualitative, ensures shading, cannot fall off, is opaque, has no pollution, is low in price, and has very wide application, such as: aviation food packaging, common meat packaging, cigarette packaging and the like.

When the aluminum foil paper is processed, special coating equipment is required to process the coating on the surface of the aluminum foil paper, however, most of the existing coating equipment for the surface coating of the aluminum foil paper is coated by brush coating or press roller coating, the coating mode can only be used for single-sided coating, the coating efficiency is not ideal, and the processing efficiency of the aluminum foil paper is affected; secondly, when coating, the adopted conveyer belt is always forward, so that the condition of missing coating is easy to exist, the phenomenon of uneven coating is easy to occur, and the processing quality of the aluminum foil paper is influenced.

Disclosure of Invention

The utility model aims to provide an intermittent double-sided transfer coating device for packaging aluminum foil paper, which can simultaneously coat both sides of the aluminum foil paper, is integrally in intermittent transmission, increases the residence time of the aluminum foil paper during coating, and effectively improves the coating efficiency and the coating quality.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a two-sided transfer coating device of packing aluminium foil intermittent type formula, this two-sided transfer coating device of packing aluminium foil includes the workstation, fixes the two-sided coating subassembly on the workstation and is located the intermittent type transmission subassembly between the two-sided coating subassembly, the two-sided coating subassembly includes the coating framework, the inside rotation of coating framework is connected with the coating area, be equipped with two along the workstation direction of height, and two coating frameworks are the upper and lower setting, the coating framework top that is located upper position department is connected with upper and lower driving piece, two coating framework one end all is connected with coating liquid supply tube, the intermittent type transmission subassembly includes the conveyer belt that the waist set up, and the conveyer belt is equipped with two, and aluminium foil paper is put to two conveyer belt top, and the driving piece is connected to conveyer belt one end.

Further, the inside swivelling joint of coating framework has the dwang, and the dwang outside sets up the coating area, the dwang is equipped with two, and one of them dwang is connected with first motor, and first motor is fixed in the coating framework outside.

Further, the upper and lower driving piece includes the telescopic link, the telescopic link with be located upper position department coating framework top fixed connection, telescopic link keep away from coating framework one end and be fixed with the backup pad, and telescopic link one end is kept away from to the backup pad is fixed on the workstation, still is fixed with the cylinder in the backup pad, and the cylinder output is connected fixedly with the top of coating framework.

Further, an infrared sensor module is fixed on one side of the side face of the supporting plate, facing the coating frame body, and the infrared sensor module is electrically connected with the air cylinder.

Further, coating liquid supply pipe is equipped with a plurality of along coating framework width direction equidistance, and all coating liquid supply pipe is kept away from coating framework one end and is fixed with the collector plate, and the collector plate is connected with the catheter, and collector plate one end is kept away from to the catheter is connected with the feed tank.

Further, the driving medium includes the horizontal pole, and the horizontal pole both ends are fixed with the support, and the inside rotation of support is connected with the transmission shaft, and transmission shaft one end is fixed with drive gear, and the other end is fixed with drive gear, and drive gear meshing is inside the transmission band, and a plurality of tooth's sockets have been seted up to the transmission band inside, and drive gear meshing has half gear, and half gear is inside to be fixed with the drive shaft, and the drive shaft rotates inside the support, and drive shaft one end is connected with the second motor, and the second motor is fixed in the workstation side.

The beneficial effects of the utility model are as follows:

1. according to the utility model, the two coating frames at the upper and lower positions are arranged in the height direction of the area above the workbench, when the aluminum foil paper moves between the two coating frames, the two coating frames clamp the aluminum foil paper, and simultaneously the coating strips in the coating frames are continuously rotated to carry out coating, so that double-sided coating on the aluminum foil paper can be realized, the coating efficiency is improved, the coating strips are always in a rotating state, and the surface is continuously supplied with liquid through the coating liquid supply pipe, so that the coating uniformity is effectively improved.

2. The transmission piece is arranged on the transmission belt for placing the aluminum foil paper, the transmission piece adopts a structure of a motor driving half gear, the transmission belt is driven to rotate through the half gear, intermittent transmission is realized, the residence time exists when the aluminum foil paper is coated, the condition of coating missing is effectively avoided, and the quality and uniformity of coating are further improved.

3. The intelligent control system that adopts infrared sensor module to combine the singlechip when realizing two-sided coating makes whole coating process intelligent, improves work efficiency, reduces the cost of labor.

Drawings

FIG. 1 is a schematic structural view of an intermittent double-sided transfer coating device for packaging aluminum foil paper;

fig. 2 is a schematic diagram of an intermittent transmission assembly of an intermittent double-sided transfer coating device for packaging aluminum foil paper;

FIG. 3 is a schematic rear side view of FIG. 1 of an intermittent double-sided transfer coating device for packaging aluminum foil paper provided by the utility model;

FIG. 4 is a schematic cross-sectional view of a packaging aluminum foil intermittent double-sided transfer coating device along line A-A in FIG. 3;

fig. 5 is an enlarged schematic view of the intermittent double-sided transfer coating device for packaging aluminum foil paper in fig. 2;

fig. 6 is an enlarged schematic view of a position II in fig. 4 of an intermittent double-sided transfer coating device for packaging aluminum foil paper provided by the utility model.

In the figure: 1. a work table; 2. a double-sided coating assembly; 3. an intermittent drive assembly; 4. coating a frame; 5. coating a cloth belt; 6. a coating liquid supply pipe; 7. a transmission belt; 8. a rotating lever; 9. a first motor; 10. a telescopic rod; 11. a support plate; 12. a cylinder; 13. an infrared sensor module; 14. a liquid collecting plate; 15. a catheter; 16. a liquid supply tank; 17. a cross bar; 18. a bracket; 19. a transmission shaft; 20. a drive gear; 21. a transmission gear; 22. a half gear; 23. a drive shaft; 24. and a second motor.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

Referring to fig. 1 to 6, the intermittent double-sided transfer coating device for packaging aluminum foil paper according to an embodiment of the utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the intermittent double-sided transfer coating device for packaging aluminum foil paper comprises a workbench 1, a double-sided coating assembly 2 fixed on the workbench 1 and an intermittent transmission assembly 3 positioned between the double-sided coating assemblies 2, wherein the double-sided coating assembly 2 comprises coating frames 4, coating belts 5 are rotatably connected inside the coating frames 4, the coating frames 4 are arranged in the height direction of the workbench, the two coating frames 4 are arranged up and down, the top of the coating frame 4 positioned above is connected with an up-down driving piece, one ends of the two coating frames 4 are connected with a coating liquid supply pipe 6, the intermittent transmission assembly 3 comprises a transmission belt 7 arranged in a waist shape, the two transmission belts 7 are arranged, aluminum foil paper is placed above the two transmission belts 7, and one end of each transmission belt 7 is connected with a transmission piece.

In this embodiment, aluminum foil paper for packaging is placed on two conveyor belts 7, and is transported by the conveyor belts 7, moved between the two coating frames 4, and double-sided coated.

Firstly, the driving piece comprises a cross rod 17, two ends of the cross rod 17 are fixedly provided with a bracket 18, a transmission shaft 19 is rotatably connected in the bracket 18, one end of the transmission shaft 19 is fixedly provided with a driving gear 20, the other end of the transmission shaft 19 is fixedly provided with a driving gear 21, the driving gear 20 is meshed in a transmission belt 7, a plurality of tooth grooves are formed in the transmission belt 7, the driving gear 21 is meshed with a half gear 22, a driving shaft 23 is fixedly arranged in the half gear 22, the driving shaft 23 is rotatably arranged in the bracket 18, one end of the driving shaft 23 is connected with a second motor 24, the second motor 24 is fixedly arranged on the side surface of a workbench 1, when the second motor 24 is started to drive aluminum foil paper to move, the second motor 24 drives the driving shaft 23 to rotate so as to drive the half gear 22 to rotate, the half gear 22 drives the driving gear 21 to rotate along with the rotation of the driving gear 21, and the driving gear 20 rotates along with the rotation of the driving gear 20 positioned at two ends of the transmission belt 7, the transmission belt 7 can rotate so as to drive the aluminum foil paper placed on the transmission belt 7 to move, and the gear teeth on the half gear 22 are arranged at an angle of 60 degrees, so that intermittent movement can be realized.

When the aluminum foil paper moves to between the two coating frame bodies 4, the intermittent movement can stay between the two coating frame bodies 4, the coating frame bodies 4 at the upper position are connected with an upper driving piece and a lower driving piece, the upper driving piece and the lower driving piece comprise telescopic rods 10, the telescopic rods 10 are fixedly connected with the tops of the coating frame bodies 4 at the upper position, the telescopic rods 10 are fixed with supporting plates 11 at the ends, far away from the coating frame bodies 4, of the supporting plates 11, one ends, far away from the telescopic rods 10, of the supporting plates are fixed on the workbench 1, air cylinders 12 are further fixed on the supporting plates 11, and the output ends of the air cylinders 12 are fixedly connected with the tops of the coating frame bodies 4.

Meanwhile, an infrared sensor module 13 is fixed on one side of the side surface of the supporting plate 11 facing the coating frame 4, and the infrared sensor module 13 is electrically connected with the cylinder 12.

The infrared sensor module 13 adopts a photoelectric sensor module E18-D80NK diffuse reflection type infrared photoelectric switch obstacle avoidance sensor module, when the aluminum foil paper moves between the two coating frame bodies 4, an electric signal is triggered through the induction of the infrared sensor module 13, the air cylinder 12 is controlled to be opened through the singlechip, the air cylinder 12 drives the coating frame bodies 4 to move downwards to form a clamping shape for the aluminum foil paper, and after the coating is completed, the air cylinder 12 drives the coating frame bodies 4 to move upwards to an initial position again because the aluminum foil paper leaves.

Further, coating liquid supply pipe 6 is equipped with a plurality of along coating framework 4 width direction equidistance, all coating liquid supply pipe 6 keep away from coating framework 4 one end and are fixed with liquid collecting plate 14, liquid collecting plate 14 is connected with liquid guide tube 15, liquid guide tube 15 is kept away from liquid collecting plate 14 one end and is connected with liquid feed tank 16, the inside rotation of coating framework 4 is connected with dwang 8, dwang 8 outside sets up coating area 5, dwang 8 is equipped with two, one of them dwang 8 is connected with first motor 9, first motor 9 is fixed in coating framework 4 outside, coating area 5 cover is established in two dwang 8 outsides, can drive coating area 5 rotation when dwang 8 rotates.

When the aluminum foil paper is in a clamping state, the aluminum foil paper can be continuously coated along with the rotation of the coating belt 5, the first motor 9 is arranged to be opened for a long time during operation, the coating belt 5 is driven to rotate when the first motor 9 is opened, one side of the coating belt 5 contacts with the coating liquid supply pipe 6, and the coating liquid supply pipe 6 guides the coating liquid to the surface of the coating belt 5 through the liquid guide pipe 15, so that uniform double-sided coating can be realized.

The coating liquid is discharged by providing a device such as an electric pump between the liquid guide tube 15 and the liquid supply tank 16.

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

Claims (6)

1. The utility model provides a packing aluminum foil intermittent type formula two-sided transfer coating device, its characterized in that, this packing aluminum foil intermittent type formula two-sided transfer coating device includes workstation (1), fixes two-sided coating subassembly (2) on workstation (1) and is located intermittent type drive assembly (3) between two-sided coating subassembly (2), two-sided coating subassembly (2) are including coating framework (4), coating framework (4) inside rotation is connected with coating strip (5), coating framework (4) are equipped with two along the workstation direction of height on, and two coating frameworks are the upper and lower setting, are connected with upper and lower driving piece at coating framework (4) top that is located upper position department, and two coating framework (4) one end all are connected with coating liquid supply tube (6), intermittent type drive assembly (3) are including conveyer belt (7) of waist type setting, and conveyer belt (7) are equipped with two conveyer belt (7) top put aluminum foil, and conveyer belt (7) one end connection driving piece.

2. The intermittent double-sided transfer coating device for packaging aluminum foil paper according to claim 1, wherein a rotating rod (8) is rotatably connected inside the coating frame body (4), the coating belts (5) are arranged outside the rotating rod (8), two rotating rods (8) are arranged, one rotating rod (8) is connected with a first motor (9), and the first motor (9) is fixed on the outer side of the coating frame body (4).

3. The intermittent double-sided transfer coating device for packaging aluminum foil paper according to claim 2, wherein the upper driving piece and the lower driving piece comprise telescopic rods (10), the telescopic rods (10) are fixedly connected with the top of the coating frame body (4) at the upper position, one ends of the telescopic rods (10) away from the coating frame body (4) are fixedly provided with supporting plates (11), one ends of the supporting plates (11) away from the telescopic rods (10) are fixedly arranged on a workbench (1), air cylinders (12) are further fixedly arranged on the supporting plates (11), and the output ends of the air cylinders (12) are fixedly connected with the top of the coating frame body (4).

4. A packaging aluminium foil intermittent double-sided transfer coating device according to claim 3, characterized in that an infrared sensor module (13) is fixed to the side of the support plate (11) facing the coating frame (4), the infrared sensor module (13) being electrically connected to the cylinder (12).

5. The intermittent double-sided transfer coating device for packaging aluminum foil paper according to claim 1, wherein a plurality of coating liquid supply pipes (6) are equidistantly arranged along the width direction of the coating frame body (4), a liquid collecting plate (14) is fixed at one end, far away from the coating frame body (4), of all the coating liquid supply pipes (6), a liquid guide pipe (15) is connected to the liquid collecting plate (14), and a liquid supply box (16) is connected to one end, far away from the liquid collecting plate (14), of the liquid guide pipe (15).

6. The intermittent double-sided transfer coating device for packaging aluminum foil paper according to claim 1, wherein the transmission piece comprises a cross rod (17), supports (18) are fixed at two ends of the cross rod (17), a transmission shaft (19) is rotatably connected inside the supports (18), a driving gear (20) is fixed at one end of the transmission shaft (19), a transmission gear (21) is fixed at the other end of the transmission shaft, the driving gear (20) is meshed inside a transmission belt (7), a plurality of tooth grooves are formed inside the transmission belt (7), a half gear (22) is meshed with the transmission gear (21), a driving shaft (23) is fixed inside the half gear (22), the driving shaft (23) is rotatably arranged inside the supports (18), a second motor (24) is connected at one end of the driving shaft (23), and the second motor (24) is fixed on the side surface of the workbench (1).