CN219312183U - Rust-proof paper pressing mechanism - Google Patents

Abstract

The utility model provides a rust-resistant paper pressing mechanism, belong to paper pressing equipment technical field, including the frame, cavity and be equipped with a transmission band in the middle of the frame, frame upper portion top is equipped with a roof-rack, cavity and be equipped with a transmission press band in the middle of the roof-rack, the transmission press band is arranged with the transmission band from top to bottom in alignment, a recess is all seted up to frame top surface four corners department, be equipped with a telescopic cylinder in the recess, telescopic cylinder drive a vertical telescopic shaft of arranging and roof-rack is connected on the top, transmission band and transmission press band both ends all drive the operation through setting up the transmission shaft, the transmission shaft is through setting up the motor drive on frame, roof-rack, the transmission shaft both ends are connected with frame, roof-rack through the bearing. The conveying belt and the conveying pressing belt are arranged, so that the pressed path and time of the rust-proof paper can be greatly prolonged by utilizing a longer contact surface between the conveying belt and the conveying pressing belt, and the pressed compactness of the rust-proof paper is improved.

Description

Rust-proof paper pressing mechanism

Technical Field

The utility model relates to the technical field of paper pressing equipment, in particular to a rust-proof paper pressing mechanism.

Background

The carrier of the rust-proof paper is rust-proof base paper, VCI is coated by VCI liquid, the VCI can be continuously and slowly released from kraft paper in a proper space, and a saturated gas layer is formed in a relatively closed space, so that rust-proof protection is formed on metal materials in the environment; after VCA liquid is coated on the anti-rust base paper, the paper is compacted and pressed through a paper pressing mechanism, so that the VCI coating is more compact, for example, when a driving shaft of the paper pressing mechanism (patent number: CN 202120302274.1) for paper products rotates, a first driven shaft is driven to rotate in the opposite direction to the driving shaft through the transmission of a driving gear and a driven gear, so that the first driven roller and the driving roller rotate in the opposite direction, the driving roller and the first driven roller respectively drive a first conveying belt and a second conveying belt to press the paper, the first driven roller and the paper are prevented from generating larger friction force to scratch the paper, the contact area of the paper pressing mechanism is increased, and the paper pressing effect is improved; the device comprises a base, two groups of first brackets, a driving shaft, a driving roller, a first driven shaft, a first driven roller, a speed changer and a motor; the device also comprises a driving gear and a driven gear; the device also comprises two groups of second brackets, a second driven shaft, a second driven roller, a first conveyor belt, two groups of third brackets, a third driven shaft, a third driven roller and a second conveyor belt.

The existing paper pressing mechanism generally adopts a cylindrical press roller, the cylindrical press roller is driven to rotate through a driving structure, and when the paper is pulled, the paper is extruded by the upper pair of rollers and the lower pair of rollers, so that the paper is compacted.

Disclosure of Invention

The conveying belt and the conveying pressing belt are arranged, so that the pressed path and time of the rust-proof paper can be greatly prolonged by utilizing a longer contact surface between the conveying belt and the conveying pressing belt, and the pressed compactness of the rust-proof paper is improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a paper pressing mechanism is pressed to antirust paper, which comprises a base, frame bottom surface four corners department all is equipped with a support column that is used for supporting, cavity and be equipped with a conveyer belt in the middle of the frame, frame upper portion is equipped with a roof-rack above the conveyer belt, cavity and be equipped with a transmission in the middle of the roof-rack and press the area, transmission press the area and align to be arranged about with the conveyer belt, a recess is all seted up to frame top surface four corners department, be equipped with a telescopic cylinder in the recess, telescopic cylinder drive a vertical telescopic shaft of arranging and the roof-rack is connected on the top, the conveyer belt is all through setting up the transmission shaft drive operation with transmission press the area both ends, the transmission shaft passes through the motor drive that sets up on frame, roof-rack, the transmission shaft both ends are connected with frame, roof-rack through the bearing. The working principle is as follows: firstly, the antirust paper passes through the space between the transmission belt and the transmission pressing belt and can be continuously transported under an external traction driving structure; secondly, according to the thickness of VCI coated by the antirust paper and the degree of compaction required, the telescopic cylinder drives the telescopic shaft to shrink, so that the top frame moves downwards, the downwards movement is stopped until the bottom surface of the transmission press belt contacts and starts to extrude the antirust paper, and the longer contact surface between the transmission press belt 3 and the transmission press belt 5 can be fully utilized through extrusion and transmission of the transmission press belt, so that the transmission can be carried for one time and extruded, and the extruded and compacted path and time of the antirust paper can be prolonged.

The further preferred scheme is as follows: the surface of the transmission belt and the surface of the transmission pressing belt are smooth and flat, the top surface and the bottom surface of the transmission belt are protruded out of the machine base, and the top surface and the bottom surface of the transmission pressing belt are protruded out of the top frame. The surfaces of the conveying belt and the conveying press belt are smooth and flat, and the flatness and smoothness of the surface of the compacted antirust paper can be ensured.

The further preferred scheme is as follows: the machine seat is characterized in that the two sides of the machine seat are sequentially provided with a flattening roller, a tension adjusting roller and a transmission roller along the direction away from the transmission belt, the two ends of the flattening roller, the tension adjusting roller and the transmission roller are supported by the bearing plate and the support column at the bottom of the bearing plate, and the two ends of the flattening roller, the tension adjusting roller and the transmission roller are connected with the bearing plate through bearings. The conveying rollers, the tension adjusting rollers and the flattening rollers are arranged on two sides of the conveying belt, so that tension adjusting and flattening effects on the antirust paper can be achieved, and the compaction effect can be improved.

The further preferred scheme is as follows: the topmost end of the roller body of the flattening roller is flush with the top surface of the conveying belt. The height of the flattening roller is flush with the height of the conveying belt, so that the flattened antirust paper can be horizontally fed into the conveying belt and extruded between the conveying press belt.

The further preferred scheme is as follows: and a hydraulic cylinder is arranged below the bearing plates at the two ends of the tension adjusting roller and drives a hydraulic shaft which is vertically arranged and the top end of which is connected with the supporting column. The height of the tension adjusting roller can be adjusted by arranging the hydraulic cylinder and the hydraulic shaft, and the tension of the antirust paper can be adjusted through the height.

The further preferred scheme is as follows: the height of the conveying roller is level with that of the flattening roller, and the maximum height which can be achieved by the tension adjusting roller is lower than that of the flattening roller. The tension adjusting roller is lower than the flattening roller in height, so that an S-shaped tape running mode can be formed, and the traction effect is improved.

The utility model provides a rust-proof paper pressing mechanism, which has the following beneficial effects:

1. according to the utility model, the transmission belt and the transmission pressing belt are arranged, so that the extruded path and time of the anti-rust paper can be greatly prolonged by utilizing a longer contact surface between the transmission belt and the transmission pressing belt, the extruded compactness of the anti-rust paper is improved, the surfaces of the transmission belt and the transmission pressing belt are smooth and flat, and the smoothness and smoothness of the compacted surface of the anti-rust paper can be ensured.

2. The utility model has the advantages that the transmission rollers, the tension adjusting rollers and the flattening rollers are arranged on the two sides of the transmission belt, so that the tension adjusting and flattening effects on the antirust paper can be realized, and the compaction effect can be improved; the height of the tension adjusting roller can be adjusted by arranging the hydraulic cylinder and the hydraulic shaft, and the tension of the antirust paper can be adjusted through the height.

Drawings

FIG. 1 is a schematic view of the external overall structure of the present utility model.

Fig. 2 is a schematic drawing of the belt threading traction structure of the antirust paper.

Fig. 3 is a schematic top view of the top frame of the present utility model.

Fig. 4 is a schematic diagram of a connection structure between a top frame and a base of the present utility model.

1-4: 1. a base; 2. a telescopic shaft; 3. a transmission press belt; 4. a top frame; 5. a transmission belt; 6. a flattening roller; 7. a tension adjusting roller; 8. a conveying roller; 9. a bearing; 10. a carrying plate; 11. a support column; 12. a hydraulic cylinder; 13. a hydraulic shaft; 14. a motor; 15. a groove; 16. a telescopic cylinder; 17. and a transmission shaft.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 4 of the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples:

please refer to fig. 1 to 4:

the four corners of the bottom surface of the machine base 1 are respectively provided with a supporting column 11 for supporting, the middle of the machine base 1 is hollow and is provided with a transmission belt 5, a top frame 4 is arranged above the transmission belt 5 at the upper part of the machine base 1, the middle of the top frame 4 is hollow and is provided with a transmission press belt 3, the transmission press belt 3 and the transmission belt 5 are arranged in an up-down alignment manner, the four corners of the top surface of the machine base 1 are respectively provided with a groove 15, a telescopic cylinder 16 is arranged in each groove 15, the telescopic cylinders 16 drive a telescopic shaft 2 which is vertically arranged and is connected with the top frame 4 at the top end, the transmission belt 5 and two ends of the transmission press belt 3 are respectively driven to operate by a transmission shaft 17, the transmission shafts 17 are driven by a motor 14 arranged on the machine base 1 and the top frame 4, and the two ends of the transmission shafts 17 are connected with the machine base 1 and the top frame 4 by bearings 9.

The surfaces of the transmission belt 5 and the transmission press belt 3 are smooth and flat, the top surface and the bottom surface of the transmission belt 5 are protruded out of the machine base 1, and the top surface and the bottom surface of the transmission press belt 3 are protruded out of the top frame 4.

The two sides of the machine base 1 are sequentially provided with a flattening roller 6, a tension adjusting roller 7 and a transmission roller 8 along the direction away from the transmission belt 5, the two ends of the flattening roller 6, the tension adjusting roller 7 and the transmission roller 8 are supported by a bearing plate 10 and a supporting column 11 at the bottom of the bearing plate 10, and the two ends of the flattening roller 6, the tension adjusting roller 7 and the transmission roller 8 are connected with the bearing plate 10 through bearings 9; the topmost end of the roller body of the flattening roller 6 is level with the top surface of the conveyor belt 5, a hydraulic cylinder 12 is arranged below the bearing plates 10 at the two ends of the tension adjusting roller 7, the hydraulic cylinder 12 drives a hydraulic shaft 13 which is vertically arranged and the top end of which is connected with the supporting column 11, the height of the conveying roller 8 is level with the height of the flattening roller 6, and the maximum height which can be reached by the tension adjusting roller 7 is lower than the height of the flattening roller 6.

The working principle is as follows: firstly, the antirust paper passes through between the transmission belt 5 and the transmission press belt 3 and can be continuously transported under an external traction driving structure; secondly, according to the thickness of VCI coated by the anti-rust paper and the degree of compaction required, the telescopic cylinder 16 drives the telescopic shaft 2 to shrink, so that the top frame 4 moves downwards until the bottom surface of the transmission press belt 3 contacts and starts to extrude the anti-rust paper, the long contact surface between the transmission belt 5 and the transmission press belt 3 can be fully utilized through extrusion and transmission of the transmission press belt 3 and the transmission belt 5, extrusion can be carried out while conveying, and the path and time for extrusion compaction of the anti-rust paper are prolonged.

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 rust-resistant paper pressing mechanism, includes frame (1), and frame (1) bottom surface four corners department all is equipped with one and is used for supporting support column (11), its characterized in that: the middle of frame (1) is hollow and is equipped with a transmission band (5), frame (1) upper portion is located transmission band (5) top and is equipped with a roof-rack (4), the middle cavity of roof-rack (4) and be equipped with a transmission and press band (3), transmission press band (3) are arranged with transmission band (5) alignment from top to bottom, a recess (15) is all offered in frame (1) top surface four corners department, be equipped with telescopic cylinder (16) in recess (15), telescopic cylinder (16) drive a vertical arrangement and telescopic shaft (2) of roof-rack (4) are connected on the top, transmission band (5) and transmission press band (3) both ends are all through setting up transmission shaft (17) drive operation, transmission shaft (17) are through setting up motor (14) drive on frame (1), roof-rack (4), transmission shaft (17) both ends are connected with frame (1), roof-rack (4) through bearing (9).

2. The antirust paper pressing mechanism according to claim 1, wherein: the surface of the transmission belt (5) and the surface of the transmission pressing belt (3) are smooth and flat, the top surface and the bottom surface of the transmission belt (5) are protruded out of the machine base (1), and the top surface and the bottom surface of the transmission pressing belt (3) are protruded out of the top frame (4).

3. The antirust paper pressing mechanism according to claim 1, wherein: the machine seat is characterized in that the two sides of the machine seat (1) are sequentially provided with a flattening roller (6), a tension adjusting roller (7) and a transmission roller (8) along the direction away from the transmission belt (5), the two ends of the flattening roller (6), the tension adjusting roller (7) and the transmission roller (8) are supported by a bearing plate (10) and a supporting column (11) at the bottom of the bearing plate (10), and the two ends of the flattening roller (6), the tension adjusting roller (7) and the transmission roller (8) are connected with the bearing plate (10) through bearings (9).

4. A rust inhibitive paper pressing mechanism according to claim 3, wherein: the topmost end of the roller body of the flattening roller (6) is level with the top surface of the conveying belt (5).

5. A rust inhibitive paper pressing mechanism according to claim 3, wherein: a hydraulic cylinder (12) is arranged below the bearing plates (10) at the two ends of the tension adjusting roller (7), and the hydraulic cylinder (12) drives a hydraulic shaft (13) which is vertically arranged and the top end of which is connected with the supporting column (11).

6. A rust inhibitive paper pressing mechanism according to claim 3, wherein: the height of the conveying roller (8) is level with the height of the flattening roller (6), and the maximum height which can be reached by the tension adjusting roller (7) is lower than the height of the flattening roller (6).

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