CN220861841U - Waterproof breathable fabric coating processing equipment - Google Patents

Abstract

The utility model discloses waterproof and breathable fabric coating processing equipment which comprises an upper bracket and a lower bracket, wherein a footing is arranged at the bottom side of the bracket at the lower side, a plurality of telescopic cylinders are arranged at the bottom of the bracket at the lower side, lifting rods are arranged in the telescopic cylinders in a power connection mode, the lifting rods are fixedly matched and connected with the bracket at the upper side, a plurality of rollers are rotatably arranged in the bracket, a driving device for driving the rollers to rotate is arranged at one side of the bracket, an unreeling device is arranged at one side of the bracket, a PTFE film is wound in the unreeling device, the equipment can glue fabrics by using a gluing device, after the fabrics enter the space between the PTFE films, the PTFE film is preliminarily pasted after being contacted with the fabrics, then the fabrics are compacted and rotated through the rollers, so that the compounded fabrics and the PTFE film keep continuous movement, and the waterproof and breathable fabrics are formed through processing.

Description

Waterproof breathable fabric coating processing equipment

Technical Field

The utility model relates to the technical field of waterproof and breathable fabric coating processing equipment, in particular to waterproof and breathable fabric coating processing equipment.

Background

The waterproof and breathable fabric is prepared by coating a macromolecule waterproof and breathable material on the fabric, coating a glue layer on the fabric in the process, then adhering a macromolecule waterproof and breathable material, such as a PTFE film, on the fabric to form a stable composite layer fabric, wherein the fabric also has waterproof and breathable functions due to the fact that waterproof and breathable layers are arranged on both sides of the fabric, and the waterproof and breathable fabric has more defects in equipment for preparing the fabric, such as the fact that the macromolecule waterproof and breathable material is troublesome in loading and unloading, the working efficiency of the equipment in continuous working is low, the actual production needs cannot be met, the glue solution is difficult to prepare and the glue solution is difficult to be added into raw material particles and the glue solution is difficult to extrude, paste and form, the actual working efficiency of the equipment is poor, and the quality of the processed waterproof and breathable fabric is poor.

Disclosure of utility model

The utility model aims to solve the technical problem of providing waterproof and breathable fabric coating processing equipment which can solve the problems in the prior art.

The utility model is realized by the following technical scheme: the utility model relates to waterproof breathable fabric coating processing equipment which comprises an upper bracket and a lower bracket, wherein a footing is arranged at the bottom side of the bracket at the lower side, a plurality of telescopic cylinders are arranged at the bottom of the bracket at the lower side, lifting rods are arranged in the telescopic cylinders in a power connection mode, the lifting rods are fixedly matched and connected with the bracket at the upper side, a plurality of rollers are arranged in the bracket in a rotating mode, a driving device for driving the rollers to rotate is arranged at one side of the bracket, an unreeling device is arranged at one side of the bracket, and PTFE films are wound in the unreeling device.

Further technical scheme, drive arrangement including set up in the band pulley of cylinder pivot tip, adjacent the band pulley surface winding in the cylinder outside is provided with the power area, the power area will be adjacent the band pulley power connection, one of them the cylinder is rotated by power component drive.

According to a further technical scheme, the power assembly comprises a power motor arranged on one of the supports, and the power motor is in power connection with one of the rollers.

Further technical scheme, unreeling device includes the pivot, PTFE membrane winding set up in the surface of pivot, the PTFE membrane can be followed the surface of pivot draws forth completely, the pivot not with the PTFE membrane pastes fixedly, the inboard front and back end of support is provided with the spout, spout one end pivoted is provided with the rotating block, be provided with the slot in the rotating block, the pivot both ends are provided with the connecting block, the connecting block with the slot offsets to block.

According to a further technical scheme, one end of the bracket is provided with a driving motor, and the driving motor is in power connection with the rotating block in the bracket at the side.

Further technical scheme still includes the rubber coating device, and the rubber coating device includes the organism, be provided with a plurality of sliding tray in the organism, one of them sliding tray internal rotation is provided with the screw thread axle, the top of screw thread axle is provided with the drive screw thread axle pivoted motor, sliding tray internal sliding is provided with the lifting support, the lifting support is frame construction, the lifting support with screw thread axle screw thread cooperation is connected, lifting support internal fixation is provided with and holds the case, it is provided with the inner chamber to hold the incasement, the intracavity is provided with the intermediate chamber, intermediate chamber both sides are provided with heating element, the lifting support tip is provided with rotating electrical machines, rotating electrical machines one side power connection is provided with inside rotary drum, inside rotary drum with hold the case normal running fit and be connected, be provided with the extrusion chamber that runs through in the inside rotary drum, the intracavity sliding is provided with the extrusion board, the intracavity is provided with the drive the flexible subassembly of extrusion board concertina movement.

According to a further technical scheme, the heating assembly comprises a heating box arranged at the bottom of the inner cavity, and a plurality of electric heating rods are arranged in the heating box.

Further technical scheme, flexible subassembly including set up in the slip inner chamber in the extrusion board, extrude the intracavity fixed connection slide that is provided with, connect the slide with slip inner chamber sliding fit is connected, be provided with fixed threaded rod in the slip inner chamber, fixed threaded rod passes connect the slide, it is provided with driven gear to connect the intraductal pivoted of slide, driven gear with fixed threaded rod screw thread fit connection, it is provided with high temperature resistant motor to connect slide one side, high temperature resistant motor one side power connection is provided with the driving gear, the driving gear with driven gear meshing sets up.

The beneficial effects of the utility model are as follows:

1. This equipment utilizes can carry out pivoted inside rotary drum in the rubber coating device, makes extrusion chamber in the inside rotary drum can load the glue solution when the opening is upwards to along with inside rotary drum rotates down the back, can extrude the back coating on the surface fabric with the glue solution through the crowd board that moves, when this process carries out continuous processing faster, can realize slower pause, and then improves the coating effect and satisfies production efficiency.

2. Utilize convenient to the setting of unloading is gone up to the PTFE membrane, and the personnel of being convenient for in time change the PTFE membrane has improved the work efficiency of equipment to the cylinder that goes up and down will after PTFE membrane and surface material offset will the effect that PTFE membrane and surface material laminate promotes.

Drawings

For ease of illustration, the utility model is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of a waterproof and breathable fabric coating processing device;

FIG. 2 is a schematic view of another side structure of the apparatus of FIG. 1;

FIG. 3 is a schematic diagram of FIG. 2 at A;

FIG. 4 is a schematic diagram at B in FIG. 3;

FIG. 5 is a schematic structural view of a glue applicator;

FIG. 6 is a schematic view of the internal drum and heating box of FIG. 5;

FIG. 7 is a schematic diagram at C in FIG. 6;

In the drawing, a PTFE film, a power belt 12, a pulley 13, a drum 14, a holder 15, a lifter 16, a telescopic cylinder 17, a power motor 41, a driving motor 42, a chute 51, a shaft 52, a socket 53, a rotating block 54, a connection block 55, a heating box 61, an inner chamber 62, an intermediate chamber 63, a screw shaft 64, a sliding groove 65, a lifter holder 66, a body 67, a housing box 68, a rotating motor 69, an inner drum 71, an electric bar 72, a sliding inner chamber 74, a pushing plate 75, and a pushing chamber 76.

Detailed Description

The present utility model will be described in detail with reference to fig. 1 to 7, and for convenience of description, the following orientations will be defined as follows: the waterproof breathable fabric coating processing equipment comprises an upper bracket 15 and a lower bracket 15, feet are arranged at the bottom of the lower bracket 15, a plurality of telescopic cylinders 17 are arranged at the bottom of the lower bracket 15, lifting rods 16 are arranged in power connection in the telescopic cylinders 17, the lifting rods 16 are fixedly matched and connected with the upper bracket 15, a plurality of rollers 14 are rotatably arranged in the bracket 15, a driving device for driving the rollers 14 to rotate is arranged on one side of the bracket 15, an unreeling device is arranged on one side of the bracket 15, PTFE films are wound in the unreeling device, fabrics pass through the unreeling device, and the PTFE films are attached to two sides of the fabrics.

The driving device comprises belt wheels 13 arranged at the end part of a rotating shaft of a roller 14, a power belt 12 is wound on the outer surface of each belt wheel 13 outside each adjacent roller 14, the power belt 12 is used for connecting the adjacent belt wheels 13 in a power mode, one PTFE film drives the belt wheels 13 to rotate, the belt wheels 13 and the rollers 14 at other positions can be driven to rotate through the power connection effect of the power belt 12 after one PTFE film drives the belt wheels 13 to rotate, the PTFE film and the fabric are led out from the positions between the rollers 14 after being compounded, so that the laminating effect of the fabric and the PTFE film is improved, and one roller 14 is driven to rotate by a power assembly.

Advantageously, among other things, the power assembly comprises a power motor 41 provided to one of the brackets 15, the power motor 41 being in power connection with one of the rollers 14.

The unwinding device includes pivot 52, the PTFE membrane winding sets up in the surface of pivot 52, the PTFE membrane can be followed the surface of pivot 52 and drawn forth completely, pivot 52 is fixed with the PTFE membrane is not pasted, the inboard front and back end of support 15 is provided with spout 51, spout 51 one end pivoted is provided with rotating block 54, be provided with slot 53 in the rotating block 54, pivot 52 both ends are provided with connecting block 55, connecting block 55 offsets with slot 53 and blocks, when making pivot 52 and rotating block 54 keep power connection, pivot 52 can rotate along with rotating block 54.

Advantageously, one end of the bracket 15 is provided with a driving motor 42, the driving motor 42 is in power connection with a rotating block 54 in the side bracket 15, so that the driving motor 42 drives the rotating block 54 to rotate and then abuts against a connecting block 55 through a slot 53 to clamp the rotating shaft 52, and then the PTFE film is unreeled.

The gluing device comprises a machine body 67, a plurality of sliding grooves 65 are formed in the machine body 67, a threaded shaft 64 is arranged in one sliding groove 65 in a rotating mode, a motor for driving the threaded shaft 64 to rotate is arranged at the top end of the threaded shaft 64, a lifting support 66 is arranged in the sliding groove 65 in a sliding mode, the lifting support 66 is of a frame structure, the lifting support 66 is connected with the threaded shaft 64 in a threaded fit mode, a containing box 68 is fixedly arranged in the lifting support 66, an inner cavity 62 is formed in the containing box 68, an intermediate cavity 63 is formed in the inner cavity 62, heating assemblies are arranged on two sides of the intermediate cavity 63, a rotating motor 69 is arranged at the end portion of the lifting support 66, an inner rotary drum 71 is arranged on one side of the rotating motor 69 in a power connection mode, the inner rotary drum 71 is connected with the containing box 68 in a rotating mode, a penetrating extrusion cavity 76 is arranged in the inner rotary drum 71, a pushing plate 75 is arranged in the extrusion cavity 76 in a sliding mode, and a telescopic assembly for driving the pushing plate 75 to move in a telescopic mode is arranged in the extrusion cavity 76.

Advantageously, the heating assembly comprises a heating box 61 arranged at the bottom of the inner cavity 62, a plurality of electric heating rods 72 are arranged in the heating box 61, the heating box 61 is heated by the electric heating rods 72, granular glue particles are melted, and the glue solution moves downwards from the middle cavity 63.

The telescopic assembly comprises a sliding inner cavity 74 arranged in a pushing plate 75, a connecting sliding plate 85 is fixedly arranged in the pushing cavity 76, the connecting sliding plate 85 is connected with the sliding inner cavity 74 in a sliding fit mode, a fixed threaded rod 81 is arranged in the sliding inner cavity 74, the fixed threaded rod 81 penetrates through the connecting sliding plate 85, a driven gear 82 is arranged in the connecting sliding plate 85 in a rotating mode, the driven gear 82 is connected with the fixed threaded rod 81 in a threaded fit mode, a high-temperature resistant motor 84 is arranged on one side of the connecting sliding plate 85, a driving gear 83 is arranged on one side of the high-temperature resistant motor 84 in a power connection mode, the driving gear 83 is meshed with the driven gear 82, when the pushing cavity 76 is opposite to the middle cavity 63, glue solution enters the pushing cavity 76, then after the inner rotary drum 71 is turned over, the part of the pushing cavity 76 loaded with the glue solution faces downwards, then the pushing plate 75 slides in the pushing cavity 76, the glue solution in the part of the pushing cavity 76 is pushed downwards and smeared onto the shell, and the other end of the pushing cavity 76 is communicated with the middle cavity 63, and then the glue solution in the inner cavity 62 is reentered into the pushing cavity 76.

The equipment can glue the fabric by using the glue coating device, and after the fabric enters between the PTFE films, the PTFE films are preliminarily stuck after being contacted with the fabric in advance, and then the composite fabric and the PTFE films are kept continuously moving through the compaction between the rollers 14 and the rotation, so that the waterproof and breathable fabric is formed.

Firstly, the inner cavity 62 is filled with colloidal particles, the colloidal particles are melted after the electric heating rod 72 in the heating box 61 works, the colloidal particles enter the middle cavity 63 and enter the extrusion cavity 76, the push plate 75 is at the lowest position at the lower side, the top of the extrusion cavity 76 can be filled with the colloidal particles, after the shell fabric passes through the machine body 67, the threaded shaft 64 can rotate, the lifting bracket 66 moves downwards, the inner rotary drum 71 is contacted with the shell fabric, before the shell fabric moves, the inner rotary drum 71 is driven to rotate after the rotating motor 69 works, the extrusion cavity 76 with the colloidal particles faces downwards, the high-temperature-resistant motor 84 drives the driving gear 83 to rotate, after the driving gear 83 is meshed with the driven gear 82, the driven gear 82 is in threaded fit connection with the fixed threaded rod 81, and the connecting slide plate 85 is in sliding fit with the sliding cavity 74, the colloidal particles are extruded downwards after the push plate 75 slides in the extrusion cavity 76, the shell fabric needs to move, the shell fabric can be fully coated with the colloidal particles, the shell fabric stops working after the shell fabric is extruded, the shell fabric is pulled by a traction device through an external space, the rotating motor 69 needs to rotate again, the inner rotary drum 71 to rotate again, the shell fabric is driven again, the shell fabric is required to rotate 180 degrees, the shell fabric can be coated in the extrusion cavity 76 is further slowly, the continuous coating effect can be achieved, and the shell fabric can be continuously processed, and the shell fabric can be coated in a continuous process, the process can be further improved, and the continuous process can be achieved, and the shell fabric can be continuously, and further coated by the continuous coating, and has the shell fabric can be continuously and has high speed.

When the fabric enters between the PTFE membranes, the telescopic cylinder 17 works and then drives the upper bracket 15 to move downwards, so that the roller 14 clamps the fabric and the PTFE membranes, and the roller 14 is indirectly driven to rotate after the power motor 41 works, so that the roller 14 conveys the fabric and the PTFE membranes rightward after rotating.

When the spindle 52 is replaced, the spindle 52 is slid out of the slot 53 and then moved out of the slide groove 51, and at this time, the slide groove 51 is required to be opposed to the slot 53, and when the spindle 52 is placed in the slot 53, the spindle is slid in from the slide groove 51 and then is caught in the slot 53.

The rotating block 54 is driven by the driving motor 42 to rotate, so that the rotating shaft 52 can be driven to rotate, and the PTFE membrane is discharged from the outer surface of the rotating shaft 52.

The above is merely a specific embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions that do not undergo the inventive work should be covered in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims (8)

1. Waterproof ventilative surface fabric coating processing equipment, a serial communication port, including upper and lower two support (15), support (15) downside bottom is provided with the footing, and support (15) bottom of downside is provided with a plurality of flexible cylinders (17), power connection is provided with lifter (16) in flexible cylinder (17), lifter (16) are connected with support (15) fixed fit of upside, support (15) internal rotation is provided with a plurality of cylinders (14), support (15) one side is provided with the drive a plurality of cylinder (14) carry out pivoted drive arrangement, support (15) one side is provided with unreeling device, and the winding is provided with the PTFE membrane in the unreeling device.

2. The waterproof breathable fabric coating processing device according to claim 1, wherein: the driving device comprises belt wheels (13) arranged at the end parts of rotating shafts of the rollers (14), a power belt (12) is wound on the outer surfaces of the belt wheels (13) on the outer sides of the adjacent rollers (14), the power belt (12) is used for connecting the adjacent belt wheels (13) in a power mode, and one of the rollers (14) is driven to rotate by a power assembly.

3. The waterproof breathable fabric coating processing device according to claim 2, characterized in that: the power assembly comprises a power motor (41) arranged on one of the brackets (15), and the power motor (41) is in power connection with one of the rollers (14).

4. The waterproof breathable fabric coating processing device according to claim 1, wherein: the unreeling device comprises a rotating shaft (52), the PTFE film is wound on the outer surface of the rotating shaft (52), a sliding groove (51) is formed in the front end and the rear end of the inner side of the support (15), a rotating block (54) is arranged at one end of the sliding groove (51) in a rotating mode, a slot (53) is formed in the rotating block (54), connecting blocks (55) are arranged at two ends of the rotating shaft (52), and the connecting blocks (55) are propped against the slot (53) to be clamped.

5. The waterproof breathable fabric coating processing device according to claim 1, wherein: one end of the bracket (15) is provided with a driving motor (42), and the driving motor (42) is in power connection with a rotating block (54) in the bracket (15) at the side.

6. A waterproof breathable fabric coating processing apparatus according to any one of claims 1-5, characterized in that: still include rubber coating device, rubber coating device includes organism (67), be provided with a plurality of sliding tray (65) in organism (67), one of them sliding tray (65) internal rotation is provided with screw shaft (64), screw shaft (64) top is provided with the drive screw shaft (64) pivoted motor, sliding tray (65) internal sliding is provided with lifting support (66), lifting support (66) are frame construction, lifting support (66) with screw shaft (64) screw thread fit connection, lifting support (66) internal fixation is provided with and holds case (68), be provided with inner chamber (62) in holding case (68), be provided with intermediate chamber (63) in inner chamber (62), intermediate chamber (63) both sides are provided with heating element, lifting support (66) tip is provided with rotation motor (69), rotation motor (69) one side power connection is provided with inside rotary drum (71), inside rotary drum (71) with holding case (68) normal running fit connection, inside rotary drum (71) are provided with and hold case (68), be provided with in-out and hold case (68) internal rotation power connection, be provided with extrusion chamber (76) and extrude flexible extrusion chamber (76) and 75).

7. The waterproof breathable fabric coating processing device according to claim 6, wherein: the heating assembly comprises a heating box (61) arranged at the bottom of the inner cavity (62), and a plurality of electric heating rods (72) are arranged in the heating box (61).

8. The waterproof breathable fabric coating processing device according to claim 6, wherein: the telescopic assembly comprises a sliding inner cavity (74) arranged in a pushing plate (75), a connecting sliding plate (85) is fixedly arranged in the pushing plate (76), the connecting sliding plate (85) is connected with the sliding inner cavity (74) in a sliding fit mode, a fixed threaded rod (81) is arranged in the sliding inner cavity (74), the fixed threaded rod (81) penetrates through the connecting sliding plate (85), a driven gear (82) is arranged in the connecting sliding plate (85) in a rotating mode, the driven gear (82) is connected with the fixed threaded rod (81) in a threaded fit mode, a high-temperature-resistant motor (84) is arranged on one side of the connecting sliding plate (85), a driving gear (83) is arranged on one side of the high-temperature-resistant motor (84) in a power connection mode, and the driving gear (83) is meshed with the driven gear (82).