CN114670254B

CN114670254B - Residual material recovery device for textile fabric

Info

Publication number: CN114670254B
Application number: CN202210418972.7A
Authority: CN
Inventors: 卞红标
Original assignee: Nantong Aiguo Textile Co ltd
Current assignee: Nantong Aiguo Textile Co ltd
Priority date: 2022-04-20
Filing date: 2022-04-20
Publication date: 2023-12-22
Anticipated expiration: 2042-04-20
Also published as: CN114670254A

Abstract

The invention discloses a residual material recovery device for textile fabrics, which comprises a rack and a material rack, wherein a material guide cylinder is fixed at the upper end of the material rack, the material guide cylinder is fixed with the side wall of the rack and communicated with the interior of the rack, a mounting plate is fixed at the upper end of the rack, a sealing push rod is fixed on the side wall of the rack, a sealing plate is fixed at the end part of the sealing push rod, the sealing plate is in sealing sliding connection with the inner wall of the rack, and a guide rack is fixed on the side wall of the rack. The advantages are that: the transfer and the two-way ash removal processing of cloth are realized by utilizing two groups of fans, the fixing of the cloth is realized by utilizing wind power and wind power, the effect of cloth cutting is improved, meanwhile, the full cutting of the cloth is finished by utilizing two groups of matched cutters, the kinetic energy of ash removal airflow is fully utilized, the transfer box can swing continuously, and then the collecting box swings continuously, so that the gap of the collected cloth is smaller, and the inner space of the collecting box is fully utilized.

Description

Residual material recovery device for textile fabric

Technical Field

The invention relates to the technical field of textile, in particular to a residual material recovery device for textile fabric.

Background

In the process of textile processing, the fabric is inevitably cut, a large amount of leftover materials are formed on the edge, and the leftover materials can still be used, but are required to be recovered and treated for the second time;

in the existing textile waste collection process, the fabric cannot be subjected to effective fragmentation generally, dust in crushed aggregates is inconvenient to withdraw, utilization of the crushed aggregates is affected, and independent packing treatment is required to be carried out manually later, so that a large amount of manpower is required to be consumed when the batch textile waste is processed, recovery cost is overlarge, and actual recovery benefit is affected.

Disclosure of Invention

The invention aims to solve the problem of poor treatment effect in the prior art, and provides a residual material recovery device for textile fabrics.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a defective material recovery unit for textile fabric, includes rack and work or material rest, the upper end of work or material rest is fixed with the guide cylinder, guide cylinder and rack lateral wall are fixed and with the inside switch-on of rack, the upper end of rack is fixed with the mounting panel, the lateral wall of rack is fixed with the closure push rod, the tip of closure push rod is fixed with the closure plate, the closure plate is sealed sliding connection with the inner wall of rack, the lateral wall of rack is fixed with the guide bracket;

the upper end of the rack is fixedly provided with a slitting motor and a transverse cutting motor, the end parts of the slitting motor and the transverse cutting motor are respectively fixedly provided with a slitting screw rod and a transverse cutting screw rod, the slitting screw rod and the transverse cutting screw rod are both rotationally connected with the side wall of the mounting plate, the side walls of the slitting screw rod and the transverse cutting screw rod are respectively in threaded connection with a slitting slide block and a transverse cutting slide block, the upper end of the rack is provided with two sliding grooves, the bottoms of the slitting slide block and the transverse cutting slide block are respectively fixedly provided with a driving rod, the two driving rods respectively penetrate through the two sliding grooves, the side walls of the two driving rods are respectively fixedly provided with a cutter rest, and the bottoms of the two cutter rest are respectively fixedly provided with a plurality of cutting cutters;

the upper end of work or material rest is fixed with a plurality of main fans, the play tuber pipe of main fan is put through with the guide cylinder is inside, the lateral wall of work or material rest is fixed with a plurality of blowing push rods, and is a plurality of the tip of blowing push rod is fixed with the flitch jointly, the lateral wall of guide cylinder runs through and has seted up the closed groove, the flitch is sealed sliding connection with the inner wall of closed groove, the lateral wall of rack is fixed with wind-control dust removal mechanism, transport mechanism has been placed to the lower part of guide frame.

Further, the wind-control dust removing mechanism comprises an upper fan cover fixed at the upper end of the rack and a lower fan cover fixed at the bottom of the rack, wherein a plurality of air holes are formed in the upper end and the lower end of the rack, the upper fan cover and the lower fan cover are communicated with the inside of the rack through the air holes, an upper fan is fixed at the top of the upper fan cover, a lower fan is fixed at the bottom of the lower fan cover, air inlet pipes of the upper fan and the lower fan are communicated with the upper fan cover and the lower fan cover respectively, and air outlet ends of the upper fan and the lower fan are respectively fixed with an upper air pipe and a lower air pipe.

Further, transfer mechanism is including deriving area and leading-in area and driving box, the upper end of driving box is fixed with two and carries on the piece, two it has the transfer case to carry on the upper end counterbalance of piece, the inside of transfer case is equipped with the transfer area, the collection box has been placed to the upper end of transfer area, the collection box is located under the leading truck, the upper end of carrying on the piece is equipped with pressure sensor, pressure sensor is used for controlling the opening and close of leading-in area and transfer area.

Further, the inner wall of the driving box is rotatably connected with a rotating shaft, a plurality of net plates are fixed on the side wall of the rotating shaft, a centralized pipe is penetrated through the side wall of the driving box, and the upper air pipe and the lower air pipe are communicated with the centralized pipe.

Further, the upper end of pivot runs through the top of drive box and is fixed with the swinging arms, the bottom of transfer box is fixed with two swing plates, two the swing plate is connected with reset spring jointly with two carrying blocks respectively.

The invention has the following advantages:

1. the cloth is completely cut and crushed by the respective cutting of the longitudinal and transverse cutters, so that subsequent recovery treatment is facilitated, inconvenience caused by overlarge cloth is avoided, the cloth is driven to be transferred to the inside of the rack by the wind power of the main fan, and the effect of cloth diffusion is achieved;

2. the two groups of fans are used for realizing the transfer and bidirectional ash removal treatment of the cloth, the fixing of the cloth is realized by using wind power and wind power, the cloth cutting effect is improved, and meanwhile, two groups of matched cutters are used for completing the full cutting of the cloth;

3. the pressure sensor senses the weight of the collecting box, so that the opening and closing of the leading-out belt and the leading-in belt are controlled, the automatic transfer of the collecting box is realized, and further, the automatic continuous processing treatment is realized;

4. the kinetic energy of ash removal air current is fully utilized for the transfer box can constantly swing, and then makes the collecting box constantly swing, thereby makes the clearance of the cloth of collecting smaller, thereby guarantees that the collecting box inner space obtains abundant utilization.

Drawings

Fig. 1 is a front isometric view of a residual material recycling device for textile fabrics, which is provided by the invention;

FIG. 2 is a rear isometric view of a residual material recycling device for textile fabric according to the present invention;

fig. 3 is a front view of a residual material recycling device for textile fabrics according to the present invention;

fig. 4 is a top view of a residual material recycling device for textile fabrics according to the present invention;

FIG. 5 is a side view of a residual material recycling device for textile fabrics according to the present invention;

FIG. 6 is a semi-sectional axial side view of a residual material recycling device for textile fabrics, according to the present invention;

FIG. 7 is a front view of a semi-section of a residual material recycling device for textile fabrics according to the present invention;

FIG. 8 is a schematic view of the structure of a rack part of a residual material recycling device for textile fabric according to the present invention;

FIG. 9 is a side view of a gantry portion of a residual material recycling device for textile fabric according to the present invention;

fig. 10 is a schematic structural view of a transfer mechanism of a residual material recycling device for textile fabrics according to the present invention;

FIG. 11 is a semi-sectional isometric view of a drive box portion of a residual material recovery device for textile fabric in accordance with the present invention;

fig. 12 is a front view showing a half-section of a driving box part in a residual material recycling device for textile fabrics.

In the figure: 1 bench, 2 work or material rest, 3 guide cylinder, 4 mounting plate, 5 closing push rod, 6 closing plate, 7 guide frame, 8 longitudinal cutting motor, 9 transversal motor, 10 longitudinal cutting screw rod, 11 transversal screw rod, 12 longitudinal cutting slide block, 13 transversal slide block, 14 chute, 15 driving rod, 16 cutting knife, 17 upper fan cover, 18 lower fan cover, 19 upper fan, 20 lower fan, 21 wind hole, 22 upper wind pipe, 23 lower wind pipe, 24 concentrated pipe, 25 main fan, 26 discharging push rod, 27 discharging plate, 28 closing groove, 29 driving box, 30 loading block, 31 transferring box, 32 transferring belt, 33 collecting box, 34 swinging plate, 35 reset spring, 36 rotary shaft, 37 swinging rod, 38, 39 leading-out belt, 40 leading-in belt, 41 guide plate, 42 knife rest.

Detailed Description

Examples

Referring to fig. 1-9, a residual material recovery device for textile fabrics comprises a rack 1 and a material rack 2, wherein a material guiding cylinder 3 is fixed at the upper end of the material rack 2, the material guiding cylinder 3 is fixed with the side wall of the rack 1 and communicated with the interior of the rack 1, a mounting plate 4 is fixed at the upper end of the rack 1, a sealing push rod 5 is fixed on the side wall of the rack 1, a sealing plate 6 is fixed at the end part of the sealing push rod 5, the sealing plate 6 is in sealing sliding connection with the inner wall of the rack 1, a guide frame 7 is fixed on the side wall of the rack 1, the recovered fabrics are guided into the rack 1 by the material guiding cylinder 3, and are guided out by the guide frame 7 after being processed;

the upper end of the rack 1 is fixedly provided with a slitting motor 8 and a transverse cutting motor 9, the ends of the slitting motor 8 and the transverse cutting motor 9 are respectively fixedly provided with a slitting screw rod 10 and a transverse cutting screw rod 11, the slitting screw rod 10 and the transverse cutting screw rod 11 are both rotationally connected with the side wall of the mounting plate 4, the side walls of the slitting screw rod 10 and the transverse cutting screw rod 11 are respectively in threaded connection with a slitting slide block 12 and a transverse cutting slide block 13, the upper end of the rack 1 is provided with two slide grooves 14, the bottoms of the slitting slide block 12 and the transverse cutting slide block 13 are respectively fixedly provided with a driving rod 15, the two driving rods 15 respectively penetrate through the two slide grooves 14, the side walls of the two driving rods 15 are respectively fixedly provided with a cutter rest 42, and the bottoms of the two cutter rests 42 are respectively fixedly provided with a plurality of cutting cutters 16;

the longitudinal cutting motor 8 is started to realize the rotation of the longitudinal cutting screw rod 10, so that the longitudinal cutting sliding block 12 moves longitudinally, the corresponding driving rod 15 is driven to move, the knife rest 42 and the cutting knife 16 are driven to move, the effective longitudinal cutting of cloth is realized, the transverse cutting motor 9 is started to realize the transverse movement of the knife rest 42 and the cutting knife 16, the transverse cutting of the cloth is realized, the comprehensive cutting and crushing of the cloth can be realized through the respective cutting of the longitudinal and transverse two groups of knives, the subsequent recovery treatment is facilitated, and the inconvenience caused by overlarge cloth is avoided;

the upper end of the material rack 2 is fixedly provided with a plurality of main fans 25, an air outlet pipe of each main fan 25 is communicated with the inside of the material guide cylinder 3, the side wall of the material rack 2 is fixedly provided with a plurality of discharging push rods 26, the end parts of the discharging push rods 26 are jointly fixedly provided with a discharging plate 27, the side wall of the material guide cylinder 3 is penetrated and provided with a closed groove 28, the discharging plate 27 is in sealed sliding connection with the inner wall of the closed groove 28, the side wall of the table rack 1 is fixedly provided with a wind-control dust removing mechanism, and the lower part of the guide rack 7 is provided with a transfer mechanism;

the material discharging push rod 26 is contracted, so that shrinkage abdication of the material discharging plate 27 can be realized, the cloth on the upper part of the material guiding cylinder 3 falls down, then the material discharging plate 27 is restored, the bottom of the material guiding cylinder 3 is sealed, and meanwhile, the sealing push rod 5 is started, the sealing plate 6 seals the rack 1, the main fan 25 can be started, the cloth is driven to be transferred to the inside of the rack 1 by the wind power of the main fan 25, the effect of cloth diffusion is achieved, the conveyer belt can be arranged to continuously input the cloth into the material guiding cylinder 3, so that extrusion of a large amount of cloth is avoided, the input speed is controlled, the amount of the cloth processed once can be ensured to be basically consistent, and the processing effect is improved;

the wind control dust removing mechanism comprises an upper fan cover 17 fixed at the upper end of the rack 1 and a lower fan cover 18 fixed at the bottom of the rack 1, wherein a plurality of air holes 21 are formed in the upper end and the lower end of the rack 1, the upper fan cover 17 and the lower fan cover 18 are communicated with the inside of the rack 1 through the air holes 21, an upper fan 19 is fixed at the top of the upper fan cover 17, a lower fan 20 is fixed at the bottom of the lower fan cover 18, air inlet pipes of the upper fan 19 and the lower fan 20 are respectively communicated with the upper fan cover 17 and the lower fan cover 18, and an upper air pipe 22 and a lower air pipe 23 are respectively fixed at air outlet ends of the upper fan 19 and the lower fan 20;

when transverse cutting is carried out, the lower fan 20 is started, so that the lower fan 20 extracts air in the rack 1, cloth is intensively attached to the lower surface of the rack 1, effective cutting can be realized because the cutting edge of the transverse cutting knife 16 faces downwards, meanwhile, effective cleaning of dust at the lower part of the cloth can be realized due to the existence of air flow, the cloth is effectively cut and ash cleaning is carried out at the same time, when longitudinal cutting is carried out, the lower fan 20 is closed, the upper fan 19 is started, the attaching direction of the cloth is changed, the cloth is attached upwards, the cutting edge of the cutting knife 16 for longitudinal cutting faces upwards, effective cutting can be realized, cleaning of dust at the other side of the cloth is finished, transfer and bidirectional ash cleaning of the cloth are realized by using two groups of fans, fixing of the cloth is realized by using wind power and wind power, the cloth cutting effect is improved, and meanwhile, full cutting of the cloth is finished by using two groups of matched cutters;

after the treatment is finished, the movable sealing plate 6 is moved, and the main blower 25 is started again, so that the treated cloth is blown out by utilizing wind power, and the cloth is transferred, and when the treatment period is the same each time, each part operates in a timing and positioning mode, so that the integral control can be programmed, and the description of the prior art is omitted;

referring to fig. 10-12, the transfer mechanism comprises a lead-out belt 39, a lead-in belt 40 and a driving box 29, wherein two carrying blocks 30 are fixed at the upper end of the driving box 29, a transfer box 31 is propped against the upper ends of the two carrying blocks 30, a transfer belt 32 is arranged in the transfer box 31, a collecting box 33 is arranged at the upper end of the transfer belt 32, the collecting box 33 is positioned under the guide frame 7, and a pressure sensor is arranged at the upper end of the carrying block 30 and used for controlling the opening and closing of the lead-in belt 40 and the transfer belt 32;

the processed cloth is transferred to the collecting box 33 through the guiding of the guiding frame 7, so that effective collection is obtained, along with continuous accumulation of the cloth, the weight of the collecting box 33 is continuously increased, when a limiting value is reached, a pressure sensor is triggered, so that the transfer belt 32 is started, the fully loaded collecting box 33 is transferred to the guiding-out belt 39, the guiding-out belt 39 is used for transferring the cloth to carry out subsequent processing, after the collecting box 33 leaves, the whole gravity of the transfer box 31 is greatly reduced, the pressure sensor is triggered again, so that the guiding-in belt 40 is started, the empty collecting box 33 is conveyed to the transfer belt 32 by the guiding-in belt 40, the guide plate 41 is arranged on the side wall of the transfer box 31, so that the empty collecting box 33 can be ensured to smoothly reach a set position, and continuous and effective cloth collection is carried out;

the inner wall of the driving box 29 is rotatably connected with a rotating shaft 36, the side wall of the rotating shaft 36 is fixedly provided with a plurality of screen plates 38, the side wall of the driving box 29 is penetrated and penetrated with a centralized pipe 24, the upper air pipe 22 and the lower air pipe 23 are communicated with the centralized pipe 24, and more effective filtering equipment can be arranged at the outlet of the driving box 29;

the collecting pipe 24 collects the dust-doped air flow and guides the air flow into the driving box 29, the air flow is subjected to preliminary filtration treatment when passing through the mesh plates 38, so that the subsequent effective treatment of the air flow is facilitated, the air flow drives the mesh plates 38 to rotate, and the comprehensive utilization of each mesh plate 38 can be realized.

The upper end of the rotating shaft 36 penetrates through the top of the driving box 29 and is fixed with a swinging rod 37, the bottom of the transferring box 31 is fixed with two swinging plates 34, and the two swinging plates 34 are respectively connected with two carrying blocks 30 together with a reset spring 35;

the otter board 38 rotates under the air current drive to lead to pivot 36 to rotate, pivot 36 will drive swinging arms 37 and rotate, and swinging arms 37 will intermittent type nature collide with swinging arms 34 in the rotation process for swinging arms 34 reciprocal under reset spring 35's elasticity effect, and then make transfer box 31 can constantly swing, and then make collecting box 33 constantly swing, thereby make the clearance of the cloth of collecting less, thereby guarantee that collecting box 33 inner space obtains abundant utilization.

Claims

1. The utility model provides a residual material recovery unit for textile fabric, includes rack (1) and work or material rest (2), its characterized in that, the upper end of work or material rest (2) is fixed with guide cylinder (3), guide cylinder (3) are fixed and are put through with rack (1) inside with rack (1) lateral wall, the upper end of rack (1) is fixed with mounting panel (4), the lateral wall of rack (1) is fixed with and seals push rod (5), the tip of sealing push rod (5) is fixed with and seals closure plate (6), seal sliding connection with the inner wall of rack (1) is sealed, the lateral wall of rack (1) is fixed with leading truck (7);

the automatic cutting machine is characterized in that a longitudinal cutting motor (8) and a transverse cutting motor (9) are fixed at the upper end of the rack (1), longitudinal cutting screw rods (10) and transverse cutting screw rods (11) are respectively fixed at the end parts of the longitudinal cutting motor (8) and the transverse cutting motor (9), the longitudinal cutting screw rods (10) and the transverse cutting screw rods (11) are both rotationally connected with the side wall of the mounting plate (4), longitudinal cutting sliding blocks (12) and transverse cutting sliding blocks (13) are respectively connected with the side wall of the longitudinal cutting screw rods (10) and the side wall of the transverse cutting screw rods (11) in a threaded mode, two sliding grooves (14) are formed in the upper end of the rack (1), driving rods (15) are respectively fixed at the bottoms of the longitudinal cutting sliding blocks (12) and the transverse cutting sliding blocks (13), knife rest (42) are respectively fixed on the side walls of the driving rods (15), and a plurality of cutting knife rest (16) are respectively fixed at the bottoms of the two knife rest (42);

the upper end of the material rack (2) is fixedly provided with a plurality of main fans (25), an air outlet pipe of each main fan (25) is communicated with the inside of each guide cylinder (3), the side wall of each material rack (2) is fixedly provided with a plurality of discharging push rods (26), the end parts of the discharging push rods (26) are jointly fixedly provided with discharging plates (27), the side wall of each guide cylinder (3) is penetrated and provided with a closed groove (28), the discharging plates (27) are in sealing sliding connection with the inner wall of the closed groove (28), the side wall of the rack (1) is fixedly provided with a wind-control dust removing mechanism, and the lower part of each guide rack (7) is provided with a transfer mechanism;

the wind control dust removing mechanism comprises an upper fan cover (17) fixed at the upper end of the rack (1) and a lower fan cover (18) fixed at the bottom of the rack (1), a plurality of air holes (21) are formed in the upper end and the lower end of the rack (1), the upper fan cover (17) and the lower fan cover (18) are communicated with the inside of the rack (1) through the air holes (21), an upper fan (19) is fixed at the top of the upper fan cover (17), a lower fan (20) is fixed at the bottom of the lower fan cover (18), air inlet pipes of the upper fan (19) and the lower fan (20) are respectively communicated with the upper fan cover (17) and the lower fan cover (18), and an air outlet end of the upper fan (19) and an air outlet end of the lower fan (20) are respectively fixed with an upper air pipe (22) and a lower air pipe (23);

the transfer mechanism comprises a lead-out belt (39), a lead-in belt (40) and a driving box (29), wherein two carrying blocks (30) are fixed at the upper end of the driving box (29), the upper ends of the two carrying blocks (30) are propped against a transfer box (31), a transfer belt (32) is arranged in the transfer box (31), a collecting box (33) is arranged at the upper end of the transfer belt (32), the collecting box (33) is located under the guide frame (7), and a pressure sensor is arranged at the upper end of the carrying blocks (30) and used for controlling the opening and closing of the lead-in belt (40) and the transfer belt (32).

2. The residual material recovery device for textile fabrics according to claim 1, wherein the inner wall of the driving box (29) is rotatably connected with a rotating shaft (36), a plurality of net plates (38) are fixed on the side wall of the rotating shaft (36), a centralizing pipe (24) is penetrated and penetrated through the side wall of the driving box (29), and the upper air pipe (22) and the lower air pipe (23) are communicated with the centralizing pipe (24).

3. The residual material recovery device for textile fabrics according to claim 2, wherein the upper end of the rotating shaft (36) penetrates through the top of the driving box (29) and is fixedly provided with a swinging rod (37), the bottom of the transferring box (31) is fixedly provided with two swinging plates (34), and the two swinging plates (34) are respectively connected with a reset spring (35) together with the two carrying blocks (30).