CN217622281U - Low-shrinkage-rate flame-retardant fiber layer adhesion device - Google Patents

Abstract

The utility model discloses a low shrinkage flame retardant fiber's fibrous layer adhesion device relates to fibrous layer adhesion technical field, glues to see through the fibrous layer easily and adheres to on the squeeze roll for the adhesion of solving the spraying, and long-time accumulation leads to the squeeze roll to glue and be difficult to rotate because of adhering to too much adhesion easily to the influence is to the squeezing action on two-layer fibrous layer, leads to the not good problem of composite fiber layer quality after the adhesion. Processing incasement wall middle part longitudinal symmetry is provided with the actuating lever, the actuating lever is fixed with central connecting block along the inside one end of processing incasement, central connecting block outer wall ring array is fixed with the spring telescopic link, the spring telescopic link other end is fixed with the side connecting block, and two correspond it is connected with the squeeze roll to rotate between the side connecting block, the rotation spread groove has all been seted up with the squeeze roll to the side connecting block, the processing case has seted up the shifting chute, two along actuating lever one side lower extreme sliding connection has the removal frame between the shifting chute.

Description

Low-shrinkage-rate flame-retardant fiber layer adhesion device

Technical Field

The utility model relates to a fibrous layer adhesion technical field specifically is a fibrous layer adhesion device of low shrinkage flame retardant fiber.

Background

The flame-retardant fiber is also called flame-retardant fiber, is a fiber which is only smoldered in flame, does not generate flame per se, leaves the flame, and is self-extinguished due to smoldering, and is widely applied to clothes, home furnishings, decoration, non-woven fabrics, fillers and the like. Compared with common fibers, the flame-retardant fibers have obviously reduced flammability, obviously slowed combustion rate in the combustion process, quick self-extinguishment after leaving a fire source and less release of toxic smoke, and need to be subjected to composite adhesion between fiber layers by using an adhesion glue during processing;

when the device for fiber layer adhesion utilizes the squeeze roll to adhere two-layer fibers together, the sprayed adhesion glue easily permeates through the fiber layer and is attached to the squeeze roll, the squeeze roll is easily caused to rotate due to the fact that too much adhesion glue is attached to the squeeze roll due to long-time accumulation, and therefore the squeezing effect on the two fiber layers is affected, the quality of the composite fiber layer after adhesion is poor, and therefore the market needs the fiber layer adhesion device with the low-shrinkage-rate flame-retardant fibers to help people to solve the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a low shrinkage rate flame retardant fiber's fibrous layer adhesion device to the adhesion of the spraying of proposing is glued and is seen through the fibrous layer easily and adheres to on the squeeze roll in solving above-mentioned background art, and long-time accumulation leads to the squeeze roll to glue and be difficult to rotate because of adhering to too much adhesion easily, thereby influences the squeezing action to two-layer fibrous layer, leads to the not good problem of composite fiber layer quality after the adhesion.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a low shrinkage rate flame retardant fiber's fibrous layer adhesion device, is including processing case and fibrous layer, processing incasement wall middle part longitudinal symmetry is provided with the actuating lever, the actuating lever is fixed with the central connecting block along the inside one end of processing incasement, central connecting block outer wall ring array is fixed with the spring telescopic link, the spring telescopic link other end is fixed with the side connecting block, and two correspond it is connected with the squeeze roll to rotate between the side connecting block, the rotation spread groove has all been seted up with the squeeze roll to the side connecting block, the processing case has seted up the shift chute, two along actuating lever one side lower extreme sliding connection has the removal frame between the shift chute, it is fixed with the water receiving fill to remove the frame top, water receiving fill one side is run through and is fixed with the degumming agent shower nozzle, the water receiving fill opposite side runs through and is fixed with the clear water shower nozzle, it is provided with the drain pipe to run through between the water receiving fill and removing the frame, water receiving fill inner wall lower extreme is fixed with spring mounting bracket, the spring mounting bracket upper end is fixed with the brush.

Preferably, a glue removing agent box is fixed at the lower end of the front side of the processing box, glue removing agent is contained in the glue removing agent box, a clear water box is fixed on the processing box along one side of the glue removing agent box, and clear water is contained in the clear water box.

Preferably, the booster pump is all installed with the clear water tank top to the glue removing agent case, the glue removing agent case is through removing the rubber tube through connection with the glue removing agent shower nozzle, clear water tank and clear water shower nozzle pass through clear water pipe through connection.

Preferably, the processing box inner wall one side longitudinal symmetry is provided with the guide roll, and the guide roll passes through the bearing rotation with the processing box and is connected.

Preferably, an adhesion glue spray head is arranged between two edge guide rollers inside the processing box).

Preferably, the upper end of the drain pipe is flushed with the bottom of the inner wall of the water receiving hopper, the other end of the drain pipe extends to the outside of the moving frame, the driving rod is connected with a driving motor through a key groove along one end of the outside of the processing box, the driving motor is fixedly connected with the processing box, and the driving rod is rotatably connected with the processing box through a bearing.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses an in, through setting up the actuating lever, rotate the spread groove, connect the water bucket, remove the glue agent shower nozzle, clear water shower nozzle and brush isotructure, the usable driving motor output of staff drives actuating lever and central connecting block and rotates the quarter round, make two clean squeeze rolls remove the position of originally being covered with the squeeze roll that the adhesion was glued, promote the one end of removing the frame from the shift chute after that and remove the other end, make the brush hug closely the squeeze roll that is covered with the adhesion and glues, utilize removing glue agent shower nozzle to spray the glue agent on this squeeze roll, utilize the brush to brush remaining adhesion and glue, wash the glue agent that removes on the squeeze roll with the clear water, whole cleaning process is simple and convenient, clean effectual, can effectively get rid of the adhesion on the squeeze roll and glue, thereby solve the squeeze roll and be difficult to rotate because of adhering to too much adhesion, thereby influence the squeezing action to two-layer, lead to the not good problem of composite fiber layer quality after the adhesion.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a perspective view showing the connection relationship between the center connecting block and the squeeze roll of the present invention;

fig. 4 is an enlarged view of the structure a of the present invention.

In the figure: 1. a processing box; 2. a drive motor; 3. a drive rod; 4. a central connecting block; 5. a spring telescopic rod; 6. a side connecting block; 7. rotating the connecting groove; 8. a squeeze roll; 9. a guide roller; 10. a fibrous layer; 11. adhering the glue nozzle; 12. a moving groove; 13. moving the frame; 14. a water receiving hopper; 15. a drain pipe; 16. a spring mount; 17. a brush; 18. a glue removing agent box; 19. a clear water tank; 20. a booster pump; 21. a glue removing agent spray head; 22. a clear water spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, the present invention provides an embodiment: a fiber layer adhesion device of flame retardant fibers with low shrinkage rate comprises a processing box 1 and a fiber layer 10, wherein driving rods 3 are symmetrically arranged at the upper part and the lower part of the middle part of the inner wall of the processing box 1, a central connecting block 4 is fixed at one end inside the processing box 1 by the driving rods 3, a spring telescopic rod 5 is fixed at the outer wall of the central connecting block 4 in an annular array manner, a side connecting block 6 is fixed at the other end of the spring telescopic rod 5, an extrusion roller 8 is rotatably connected between the two corresponding side connecting blocks 6, a rotating connecting groove 7 is respectively formed in each of the side connecting blocks 6 and the extrusion roller 8, a moving groove 12 is formed at the lower end of one side of the driving rod 3 of the processing box 1, a moving frame 13 is slidably connected between the two moving grooves 12, a water receiving hopper 14 is fixed at the top of the moving frame 13, a degumming agent spray nozzle 21 is fixedly penetrated at one side of the water receiving hopper 14, a clear water spray nozzle 22 is fixedly penetrated at the other side of the water receiving hopper 14, and a drain pipe 15 is arranged between the water receiving hopper 14 and the moving frame 13, the lower end of the inner wall of the water receiving bucket 14 is fixed with a spring mounting rack 16, the upper end of the spring mounting rack 16 is fixed with a brush 17, by arranging the driving rod 3, the rotating connecting groove 7, the water receiving bucket 14, the glue removing agent spray head 21, the clear water spray head 22, the brush 17 and the like, a worker can drive the driving rod 3 and the central connecting block 4 to rotate for a quarter circle by using the output end of the driving motor 2, so that two clean extrusion rollers 8 move to the positions of the extrusion rollers 8 which are originally fully covered with the glue, then the moving frame 13 is pushed to move from one end of the moving groove 12 to the other end, the brush 17 is tightly attached to the extrusion rollers 8 which are fully covered with the glue, the glue removing agent is sprayed on the extrusion rollers 8 by using the glue removing agent spray head 21, the brush 17 is used for brushing off the residual glue removing agent, the glue removing agent on the extrusion rollers 8 is washed by clear water, the whole cleaning process is simple and convenient, and has good cleaning effect, the adhesion glue on the squeeze roll 8 can be effectively removed, so that the problem that the squeeze roll 8 is difficult to rotate due to the adhesion glue attached too much is solved, the extrusion effect on the two fiber layers is influenced, and the quality of the composite fiber layer after adhesion is poor is caused.

Further, processing case 1 front side lower extreme is fixed with removes glue agent case 18, removes the inside glue agent that has held of glue agent case 18, and processing case 1 is fixed with clear water tank 19 along removing glue agent case 18 one side, and clear water tank 19 is inside to have held the clear water, and the glue agent case 18 that removes that sets up is used for providing the glue agent that removes, and clear water tank 19 that sets up is used for providing the clear water.

Further, booster pumps 20 are installed on the tops of the glue removing agent box 18 and the clear water box 19, the glue removing agent box 18 and the glue removing agent spray head 21 are in through connection through a glue removing pipe, the clear water box 19 and the clear water spray head 22 are in through connection through a clear water pipe, and the arranged booster pumps 20 are used for boosting the glue removing agent box 18 and the clear water box 19.

Further, the guide rollers 9 are symmetrically arranged on one side of the inner wall of the processing box 1 from top to bottom, the guide rollers 9 are rotatably connected with the processing box 1 through bearings, and the guide rollers 9 are used for guiding the fiber layer 10.

Further, the processing box 1 is inside two and is installed adhesion between the guide roll 9 and glue shower nozzle 11), the adhesion of setting is glued shower nozzle 11 for even adhesion that sprays is glued on to fibrous layer 10.

The working principle is as follows: before using the device, a worker should connect the drain pipe 15 with a sewage bucket, then pass the fiber layer 10 to be adhered between the guide roller 9 and two extrusion rollers 8 which extrude each other, then wind the fiber layer 10 on the winding device to be wound, then start to adhere the fiber layer 10, spray the adhesion glue by using the adhesion glue spray head 11, make the adhesion glue evenly spray on the adhesion surface of the fiber layer 10, extrude the fiber layer 10 by using the two extrusion rollers 8 which extrude each other, make the two fiber layers 10 adhere each other, after processing for a while, the worker can start the driving motor 2, drive the driving rod 3 and the central connecting block 4 to rotate for a quarter turn by using the output end of the driving motor 2, make the two clean extrusion rollers 8 move to the positions of the extrusion rollers 8 which are originally fully coated with the adhesion glue, the two extrusion rollers 8 which are moved to one side and fully coated with the adhesion glue are positioned at the upper end of the moving groove 12, the worker can push the movable frame 13 to move from one end of the movable groove 12 to the other end until the movable frame 13 can not move any more, at the moment, the brush 17 is just positioned at the lower end of the extrusion roller 8 fully covered with the adhesive and tightly attached to the extrusion roller 8 in a box, at the moment, the worker can use a square strip-shaped tool to insert into the rotary connecting groove 7 and rotate the tool, so as to drive the extrusion roller 8 to rotate, the booster pump 20 is opened, the adhesive removing agent spray head 21 is used for spraying the adhesive removing agent on the extrusion roller 8, the brush 17 is used for brushing off the residual adhesive, the adhesive removing agent on the extrusion roller 8 is washed by clear water, the waste water generated by cleaning is discharged by the drain pipe 15, after the extrusion roller 8 is cleaned, the booster pump 20 is closed, after the extrusion roller 8 is basically dried, the movable frame 13 is moved to return to the original position, in the process, the worker does not need to stop for a long time to clean the extrusion roller 8, the multiunit squeeze roll 8 that sets up is removable, and need not to take off squeeze roll 8 and wash, and whole cleaning process is simple and convenient, and is clean effectual, can effectively get rid of the adhesion glue on the squeeze roll 8 to solve squeeze roll 8 and glue and be difficult to rotate because of adhering to too much adhesion, thereby the influence is to the squeezing action on two-layer fiber layer, lead to the not good problem of composite fiber layer quality after the adhesion.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a fibrous layer adhesion device of fire-retardant fibre of low shrinkage, includes processing case (1) and fibrous layer (10), its characterized in that: processing case (1) inner wall middle part longitudinal symmetry is provided with actuating lever (3), actuating lever (3) are fixed with central connecting block (4) along processing case (1) inside one end, central connecting block (4) outer wall annular array is fixed with spring telescopic link (5), spring telescopic link (5) other end is fixed with side connecting block (6), two correspond rotate between side connecting block (6) and be connected with squeeze roll (8), rotation spread groove (7) have all been seted up with squeeze roll (8) in side connecting block (6), processing case (1) have been seted up shifting chute (12) along actuating lever (3) one side lower extreme, two sliding connection has between shifting chute (12) removes frame (13), it is fixed with water receiving fill (14) to remove frame (13) top, it runs through to be fixed with except that glue shower nozzle (21) to connect water fill (14) one side, it runs through and is fixed with clear water shower nozzle (22) to connect water fill (14) opposite side, it runs through and is provided with drain pipe (15) to connect water fill (14) and remove between frame (13), it is fixed with spring fill (14) inner wall lower extreme spring brush mounting bracket (16), spring mounting bracket (17) upper end is fixed.

2. A fiber laminar adhesion apparatus of low shrinkage flame retardant fibers according to claim 1, wherein: the processing box is characterized in that a glue removing agent box (18) is fixed to the lower end of the front side of the processing box (1), glue removing agents are contained in the glue removing agent box (18), a clear water box (19) is fixed to the processing box (1) along one side of the glue removing agent box (18), and clear water is contained in the clear water box (19).

3. A fiber laminar bonding apparatus of low shrinkage flame retardant fibers according to claim 2, wherein: booster pump (20) are all installed at except that glue agent case (18) and clear water case (19) top, remove glue agent case (18) and remove glue agent shower nozzle (21) through removing the rubber tube through connection, clear water case (19) and clear water shower nozzle (22) are through clear water pipe through connection.

4. A fiber laminar adhesion apparatus of low shrinkage flame retardant fibers according to claim 1, wherein: the processing box is characterized in that guide rollers (9) are symmetrically arranged on one side of the inner wall of the processing box (1) from top to bottom, and the guide rollers (9) are rotatably connected with the processing box (1) through bearings.

5. A fiber laminar adhesion apparatus of low shrinkage flame retardant fibers according to claim 1, wherein: and an adhesive spray head (11) is arranged between two edges of the guide roller (9) in the processing box (1).

6. A fiber laminar adhesion apparatus of low shrinkage flame retardant fibers according to claim 1, wherein: drain pipe (15) upper end flushes with water receiving fill (14) inner wall bottom, drain pipe (15) other end extends to and removes frame (13) outside, actuating lever (3) are connected with driving motor (2) through the keyway along processing case (1) outside one end, driving motor (2) and processing case (1) fixed connection, actuating lever (3) are connected through the bearing rotation with processing case (1).

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