CN115744400A - Solar gas claw fixed-length online laying mechanism - Google Patents

Abstract

The invention discloses a solar energy gas claw fixed-length online laying mechanism, which relates to the technical field of EVA cutting and laying, and comprises an EVA raw material coiled material I and a glass plate, wherein the right side of the EVA raw material coiled material I is provided with an EVA raw material coiled material II, one end of the EVA raw material coiled material II is provided with a pay-off traction rubber roller, a pay-off traction motor is arranged above the right side of the pay-off traction rubber roller, the output end of the pay-off traction motor is connected with a floating swing arm through the raw material coiled material, the outer surface of the floating swing arm is provided with a tongue telescopic platform through the raw material coiled material, the left side of the tongue telescopic platform is provided with a tongue pressure lever cylinder, and the lower side of the tongue telescopic cylinder is provided with a tongue telescopic cylinder. According to the invention, the weight of the floating swing arm is reduced, the precision of the material pulling in the length direction is ensured, the precision of the laying position is ensured in a clamping and translation mode, and the problem of bulge or cutting inclination caused by the fact that EVA is loosened during cutting is effectively avoided.

Description

Solar gas claw fixed-length online laying mechanism

Technical Field

The invention relates to the technical field of EVA cutting and laying, in particular to a solar air claw fixed-length online laying mechanism.

Background

The ethylene-vinyl acetate copolymer, called EVA for short, has a molecular formula of (C2H 4) x, (C4H 6O 2) y and a chemical property of general high molecular polymer, and has a code of 1314. The waterproof coating has the characteristics of water resistance, closed cellular structure, no water absorption, moisture resistance and good water resistance, and is required to be laid and cut for use in the processing and combining process.

EVA cutting and laying of a solar laying machine in the market are all rubber roller fixed length and air claw auxiliary material pulling modes. However, the EVA material is thin and unequal in thickness on the left and right sides at present, so that the EVA material is deformed and bulges after being extruded by a rubber roller, the section of the EVA material is not straight after being cut by a cutter, the EVA material is not flush with glass when being laid on the glass, glue overflow or insufficient glue amount occurs, and the quality of a component is degraded.

In view of the above, a fixed-length online laying mechanism of solar air gripper is provided by researching and improving the existing structure and defects.

Disclosure of Invention

The invention aims to provide a fixed-length online laying mechanism for a solar gas claw, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a mechanism is laid on line to solar energy gas claw fixed length, includes EVA raw material coiled material one and glass board, the right side of EVA raw material coiled material one is provided with EVA raw material coiled material two, and the one end of EVA raw material coiled material two is provided with the unwrapping wire and pulls the rubber roll, the unwrapping wire pulls the rubber roll upper right side and installs unwrapping wire traction motor, unwrapping wire traction motor's output is connected with the swing arm that floats through raw material coiled material, and the surface of swing arm that floats is provided with tongue telescopic platform through raw material coiled material, tongue depression bar cylinder is installed to tongue telescopic platform's left, and the below of tongue depression bar cylinder installs tongue telescopic cylinder, the right-hand cutter that is provided with of tongue telescopic platform, and the below of cutter installs the gas claw, the right-hand depression bar cylinder of laying is provided with, and the below of laying the depression bar cylinder installs the platform, there is the gas claw motor at the top of gas claw through belt and drive shaft connection, lay the bottom of platform and the chain is installed the chain, and the one end surface of chain is provided with the chain motor, the glass board sets up in the right side below of laying the platform, the glass board sets up glass transmission conveyer belt, the below of glass board is installed to the below.

Furthermore, EVA raw material coiled material one and two size of EVA raw material coiled material are the same, and EVA raw material coiled material one and EVA raw material coiled material two are circular structure.

Furthermore, an included angle between the paying-off traction rubber roller and the paying-off traction motor is 45 degrees, and the size of the floating swing arm is smaller than that of the paying-off traction rubber roller.

Further, the tongue telescopic cylinder and the tongue pressure rod cylinder are fixed through bolts, and the tongue telescopic cylinder and the tongue pressure rod cylinder are of T-shaped structures.

Furthermore, the pneumatic claw is provided with six groups, and the pneumatic claw forms a transmission structure through a belt, a driving shaft and a pneumatic claw motor.

Furthermore, the air claw and the laying pressure rod cylinder are vertically distributed, and the air claw and the laying platform are parallel to each other.

Furthermore, an auxiliary frame is mounted outside the chain, and the inside of the auxiliary frame is of a hollow structure.

Furthermore, the receiving plate is slidably mounted inside the auxiliary frame, and a mounting frame is mounted on the outer surface of the top of the auxiliary frame.

Further, the middle part of mounting bracket is provided with electric putter, and electric putter's output installs the rubber push pedal, the surface of rubber push pedal is provided with the toper bucket.

Furthermore, the interior of the conical barrel is of a hollow structure, and the conical barrel and the auxiliary frame are of an integrated structure.

The invention provides a solar gas claw fixed-length online laying mechanism which has the following beneficial effects: according to the solar gas claw fixed-length online laying mechanism, the material bulge and the inclination of the material are overcome in a mode of directly pulling the material with a gas claw fixed length without using a rubber roller, in addition, the precision of the material pulling length direction is ensured by reducing the weight of a floating swing arm, and the precision of the laying position is ensured in a clamping translation mode;

1. according to the invention, through the design of clamping the EVA raw material coiled material by the air claw, the air claw of the limiting EVA raw material coiled material can be driven to move by utilizing the interaction of the belt, the driving shaft and the air claw motor, and the EVA raw material coiled material can be driven to lay by moving the air claw, and meanwhile, the fixed length of the EVA raw material coiled material is convenient to fix by moving the air claw, and the action of the tongue pressure lever air cylinder can be utilized when the EVA raw material coiled material is laid, so that the action of the laying pressure lever air cylinder is utilized to firmly press the EVA material, and the material is effectively prevented from being bulged.

2. According to the invention, the weight of the floating swing arm is reduced, the precision of the length direction of the pulling material is ensured, the precision of the laying position is ensured in a clamping and translation mode, the EVA raw material is conveniently subjected to clamping type cutting, and the problem that the EVA is loosened to generate bulging or cutting inclination during cutting is effectively avoided.

3. According to the chain motor, lubricating oil which needs to be stored in the conical barrel between the long-time use of the chain and the chain motor is dripped to the outer surface of the chain through the design of the electric push rod and the rubber push plate, so that the chain and the chain motor can be conveniently lubricated, and the dripped redundant lubricating oil can be dripped into the receiving plate through the chain, so that a user can conveniently recollect the lubricating oil.

Drawings

FIG. 1 is a schematic overall structure diagram of a solar gas claw fixed-length online laying mechanism of the invention;

FIG. 2 is a schematic diagram of an extended overlooking structure of a gas claw of the solar gas claw fixed length online laying mechanism;

FIG. 3 is a schematic diagram of a laying structure of an air claw clamping EVA (ethylene vinyl acetate) coiled material of the solar air claw fixed length online laying mechanism;

FIG. 4 is a schematic diagram of a pneumatic claw clamping EVA (ethylene vinyl acetate) coiled material laying moving structure of the solar pneumatic claw fixed-length online laying mechanism;

FIG. 5 is a schematic view of a gas claw clamping EVA (ethylene vinyl acetate) coiled material and a glass plate laying overlooking structure of the solar gas claw fixed length online laying mechanism.

In the figure: 1. EVA raw material coil I; 2. EVA raw material coiled material II; 3. paying off a traction rubber roller; 4. paying off a traction motor; 5. a floating swing arm; 6. a tongue extension cylinder; 7. a tongue compression bar cylinder; 8. a tongue retraction platform; 9. a cutter; 10. a pneumatic claw; 11. laying a compression bar cylinder; 12. laying a platform; 13. a chain; 14. a glass plate; 15. a glass conveying belt; 16. a pneumatic claw motor; 17. a chain motor; 18. an auxiliary frame; 19. a receiving plate; 20. a conical barrel; 21. a rubber push plate; 22. a mounting frame; 23. an electric push rod.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: a solar energy gas claw fixed-length online laying mechanism comprises an EVA raw material coiled material I1, an EVA raw material coiled material II 2, a paying-off traction rubber roll 3, a paying-off traction motor 4, a floating swing arm 5, a tongue telescopic cylinder 6, a tongue pressure lever cylinder 7, a tongue telescopic platform 8, a cutter 9, a gas claw 10, a laying pressure lever cylinder 11, a laying platform 12, a chain 13, a glass plate 14, a glass transmission conveying belt 15, a gas claw motor 16, a chain motor 17, an auxiliary frame 18, a receiving plate 19, a conical barrel 20, a rubber push plate 21, a mounting frame 22 and an electric push rod 23, wherein the right side of the EVA raw material coiled material I1 is provided with the EVA raw material coiled material II 2, one end of the EVA raw material coiled material II 2 is provided with the paying-off traction rubber roll 3, an included angle between the paying-off traction rubber roll 3 and the paying-off traction motor 4 is 45 degrees, and the size of the floating swing arm 5 is smaller than that of the paying-off traction rubber roll 3, the EVA raw material coiled material I1 and the EVA raw material coiled material II 2 have the same size, the EVA raw material coiled material I1 and the EVA raw material coiled material II 2 are of circular structures, a paying-off traction motor 4 is installed at the upper right of a paying-off traction rubber roller 3, the output end of the paying-off traction motor 4 is connected with a floating swing arm 5 through the raw material coiled material, the outer surface of the floating swing arm 5 is provided with a tongue telescopic platform 8 through the raw material coiled material, a tongue pressure lever air cylinder 7 is installed at the left of the tongue telescopic platform 8, a tongue telescopic air cylinder 6 is installed below the tongue pressure lever air cylinder 7, the tongue telescopic air cylinder 6 and the tongue pressure lever air cylinder 7 are fixed through bolts, the tongue telescopic air cylinder 6 and the tongue pressure lever air cylinder 7 are of a T-shaped structure, a cutter 9 is arranged at the right of the tongue telescopic platform 8, an air claw 10 is installed below the cutter 9, the air claw 10 is vertically distributed with a laying pressure lever air cylinder 11, the air claw 10 is parallel to a laying platform 12, six groups of gas claws 10 are arranged, the gas claws 10 form a conveying structure through a belt, a driving shaft and a gas claw motor 16, a laying pressure rod cylinder 11 is arranged on the right side of the gas claws 10, a laying platform 12 is arranged below the laying pressure rod cylinder 11, the top of the gas claws 10 is connected with the gas claw motor 16 through the belt and the driving shaft, a chain 13 is arranged at the bottom of the laying platform 12, a chain motor 17 is arranged on the outer surface of one end of the chain 13, a glass plate 14 is arranged on the right lower side of the laying platform 12, and a glass conveying conveyer belt 15 is arranged below the glass plate 14;

the operation is as follows, the tongue telescopic cylinder 6 is in a contraction state, the EVA material is pulled out of the opening of the cutter 9, the tongue pressure lever cylinder 7 is started to press the EVA material, the cutter 9 is started to cut the material flat, the tongue telescopic cylinder 6 acts to extend out, the tongue telescopic platform 8 extends out of the incision, the air claw 10 acts to clamp the EVA material firmly, the tongue pressure lever cylinder 7 is closed, the tongue telescopic cylinder 6 is closed to enable the tongue telescopic platform 8 to retract into the incision, the air claw 10 is used for clamping the EVA raw material coiled material, meanwhile, the air claw 10 of the limiting EVA raw material coiled material can be driven to move by the interaction of the belt, the driving shaft and the air claw motor 16, the EVA raw material coiled material can be driven to lay by moving the air claw 10, and when laying, the pneumatic claw motor 16 acts to enable the pneumatic claw 10 to advance to a fixed length position, the tongue presses the rod cylinder 7 to act, the laying pressing rod cylinder 11 acts to press the EVA material firmly, the cutter 9 is started to cut the EVA as shown in figure 2, the pneumatic claw motor 16 and the chain motor 17 are started, the two motors act synchronously to enable the EVA material to move to a laying position, meanwhile, the fixed length of the EVA raw material coiled material is facilitated through the movement of the pneumatic claw 10, the tongue presses the rod cylinder 7 to act when the EVA raw material coiled material is laid, the laying pressing rod cylinder 11 acts to press the EVA material firmly, the precision of the length direction of the pulling material is guaranteed by reducing the weight of the floating swing arm 5, the precision of the laying position is guaranteed in a clamping translation mode, and clamping type cutting of the EVA raw material is facilitated;

referring to fig. 1, an auxiliary frame 18 is mounted outside a chain 13, the inside of the auxiliary frame 18 is a hollow structure, a receiving plate 19 is slidably mounted inside the auxiliary frame 18, a mounting frame 22 is mounted on the outer surface of the top of the auxiliary frame 18, an electric push rod 23 is arranged in the middle of the mounting frame 22, a rubber push plate 21 is mounted at the output end of the electric push rod 23, a conical barrel 20 is arranged on the outer surface of the rubber push plate 21, the inside of the conical barrel 20 is a hollow structure, and the conical barrel 20 and the auxiliary frame 18 are of an integrated structure;

the specific operation is as follows, through the long-time use of chain 13 and the inside lubricating oil of depositing of cone bucket 20 between chain motor 17, design through electric putter 23 and rubber push pedal 21 instils into to chain 13 surface, be convenient for lubricate between chain 13 and the chain motor 17, and the unnecessary lubricating oil of drippage can instils into to accepting inside board 19 through chain 13, utilize accepting board 19 and auxiliary frame 18 sliding connection's design, the person of facilitating the use collects lubricating oil again, need not user's manual operation and scribble lubricating oil to chain 13.

To sum up, solar energy gas claw fixed length lays mechanism on line, during the use, at first, through tongue telescopic cylinder 6 at the contraction state, pull out cutter 9 mouths to the EVA material, start tongue depression bar cylinder 7, push down the EVA material, start cutter 9, cut out flat material, tongue telescopic cylinder 6 acts and stretches out, tongue telescopic platform 8 stretches out the incision, gas claw 10 acts, press from both sides jail EVA material, close tongue depression bar cylinder 7, close tongue telescopic cylinder 6, make tongue telescopic platform 8 withdrawal incision, as figure 2, the EVA lays the principle: the pneumatic claw motor 16 acts to enable the pneumatic claw 10 to advance to a fixed-length position, the tongue pressing rod cylinder 7 acts to enable the laying pressing rod cylinder 11 to act to firmly press the EVA material, the cutter 9 is started to cut the EVA material, as shown in figure 3, the pneumatic claw motor 16 and the chain motor 17 are started to synchronously act to enable the EVA material to move to a laying position, as shown in figure 4, the chain motor 17 is started to enable the laying platform 12 to move backwards, the EVA material on the laying platform falls onto the glass plate 14, meanwhile, the pneumatic claw 10 is loosened to enable the EVA material on the other end to fall onto the glass plate 14 to complete laying, as shown in figure 5, the laid glass plate 14 flows out, a glass plate 14 which is not laid is further fed into for next circulation, finally, lubricating oil which needs to be stored in the conical barrel 20 between the chain motor 17 and used for a long time through the chain 13 is dripped into the outer surface of the chain 13 through the design of the electric push rod 23 and the rubber push plate 21, lubricating oil which is dripped into the receiving plate 19 to be connected with the auxiliary collecting frame 18 is convenient for a user to take out the lubricating oil through the chain 13.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a mechanism is laid on line to solar energy gas claw fixed length, its characterized in that, including EVA raw material coiled material one (1) and glass board (14), the right side of EVA raw material coiled material one (1) is provided with EVA raw material coiled material two (2), and the one end of EVA raw material coiled material two (2) is provided with unwrapping wire and pulls rubber roll (3), unwrapping wire pulls rubber roll (3) upper right side and installs unwrapping wire traction motor (4), the output of unwrapping wire traction motor (4) is connected with unsteady swing arm (5) through raw material coiled material, and the surface of unsteady swing arm (5) is provided with tongue flexible platform (8) through raw material coiled material, depression bar cylinder (7) is installed to the left of tongue flexible platform (8), and tongue depression bar cylinder (6) is installed to the below of tongue depression bar cylinder (7), the right-hand cutter (9) that is provided with of tongue flexible platform (8), and the below of cutter (9) installs gas claw (10), the right-hand depression bar is laid cylinder (11), and the below of laying of gas claw cylinder (11) is installed to the below of depression bar cylinder (11), and the top of laying platform (10) is installed through the chain (13), the chain (13) of belt (13) and motor (13) are provided with chain (13), the glass plate (14) is arranged at the right lower part of the laying platform (12), and a glass conveying and conveying belt (15) is arranged below the glass plate (14).

2. The solar air claw fixed-length online laying mechanism according to claim 1, wherein the first EVA raw material coiled material (1) and the second EVA raw material coiled material (2) are the same in size, and the first EVA raw material coiled material (1) and the second EVA raw material coiled material (2) are circular in structure.

3. The solar pneumatic claw fixed-length online laying mechanism according to claim 1, wherein an included angle between the paying-off traction rubber roller (3) and the paying-off traction motor (4) is 45 degrees, and the size of the floating swing arm (5) is smaller than that of the paying-off traction rubber roller (3).

4. The solar air claw fixed-length online laying mechanism according to claim 1, wherein the tongue stretching cylinder (6) and the tongue pressing rod cylinder (7) are fixed through bolts, and the tongue stretching cylinder (6) and the tongue pressing rod cylinder (7) are of a T-shaped structure.

5. The solar air gripper fixed-length online laying mechanism according to claim 1 is characterized in that six groups of air grippers (10) are arranged, and the air grippers (10) form a conveying structure through a belt, a driving shaft and an air gripper motor (16).

6. The solar air claw fixed-length online laying mechanism is characterized in that the air claws (10) and the laying pressure rod air cylinder (11) are vertically distributed, and the air claws (10) and the laying platform (12) are parallel to each other.

7. The solar gripper fixed-length online laying mechanism according to claim 1, wherein an auxiliary frame (18) is mounted outside the chain (13), and the inside of the auxiliary frame (18) is a hollow structure.

8. The solar gripper fixed-length online laying mechanism according to claim 7, characterized in that a receiving plate (19) is slidably mounted inside the auxiliary frame (18), and a mounting frame (22) is mounted on the outer surface of the top of the auxiliary frame (18).

9. The solar air claw fixed-length online laying mechanism according to claim 8, wherein an electric push rod (23) is arranged in the middle of the mounting frame (22), a rubber push plate (21) is mounted at the output end of the electric push rod (23), and a conical barrel (20) is arranged on the outer surface of the rubber push plate (21).

10. The solar gripper fixed-length online laying mechanism according to claim 9, wherein the interior of the conical barrel (20) is of a hollow structure, and the conical barrel (20) and the auxiliary frame (18) are of an integrated structure.

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