CN113337983A

CN113337983A - A dehydration stoving integration equipment for fabrics

Info

Publication number: CN113337983A
Application number: CN202110895128.9A
Authority: CN
Inventors: 李中考
Original assignee: Jiangsu Sheai Textile Technology Co ltd
Current assignee: Jiangsu Sheai Textile Technology Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2021-09-03
Anticipated expiration: 2041-08-05
Also published as: CN113337983B

Abstract

The invention discloses a dewatering and drying integrated device for textiles, which comprises: the device comprises a drying box, a buffer box and a dewatering box, wherein the buffer box is arranged between the drying box and the dewatering box, the drying box, the buffer box and the dewatering box are communicated with each other, one side of the dewatering box is provided with an input end for textile input, and one side of the drying box is provided with an output end for textile output; the textile fabric dewatering device comprises a plurality of rotating rollers, wherein the rotating rollers are used for segmenting textiles input into a dewatering box, guide mechanisms used for guiding the rotating rollers to move are arranged on two front and back opposite inner walls of the dewatering box, and two ends of each rotating roller are connected with the guide mechanisms. This device will dewater and dry the design and be in the same place, then can be incessant dry and dewater the fabrics, need not cut apart the fabrics and carry out the operation, the streamlined operating procedure of integration, work load that can effectual reduction staff also can improve equipment's availability factor.

Description

A dehydration stoving integration equipment for fabrics

Technical Field

The invention belongs to the technical field of textile equipment, and particularly relates to dewatering and drying integrated equipment for textiles.

Background

The textile can be dyed in the manufacturing process, the textile needs to be cleaned after dyeing, the dye is cleaned, the textile contains a large amount of moisture and needs to be dehydrated and dried, and finally, the dried textile is correspondingly integrated and rolled.

In the process of drying and dehydrating the textile, the textile can be put into the dehydration and drying equipment for dehydration and drying operation, a whole textile is dehydrated and dried once, the dehydration and drying operation on the textile is intermittent, the treatment mode needs continuous input of the working personnel to form a new textile, the operation mode of the intermittent type can lead the working load of the working personnel to be larger, and the utilization rate of the equipment is limited.

Disclosure of Invention

Based on the technical problems in the prior art, the invention provides a dewatering and drying integrated device for textiles.

The invention provides dewatering and drying integrated equipment for textiles, which comprises:

the device comprises a drying box, a buffer box and a dewatering box, wherein the buffer box is arranged between the drying box and the dewatering box, the drying box, the buffer box and the dewatering box are communicated with each other, one side of the dewatering box is provided with an input end for textile input, and one side of the drying box is provided with an output end for textile output;

the textile fabric dewatering device comprises a plurality of rotating rollers, a plurality of guide mechanisms and a plurality of guide rollers, wherein the rotating rollers are used for segmenting textiles input into a dewatering box;

the textile dewatering machine comprises two rotating mechanisms which are arranged symmetrically left and right, wherein each rotating mechanism comprises three extrusion rollers which are arranged in a triangular shape, the extrusion and the dewatering of textiles are realized when the two extrusion rollers on the left rotating mechanism and the right rotating mechanism are contacted with each other, and a water outlet for leading out water is formed below a dewatering box;

the adjusting shafts are arranged in the buffer box and used for dispersing the textiles, the buffer box is of an arc-shaped box body structure, the inner wall of the buffer box is provided with a partition board used for temporarily storing the textiles, a heat insulation cavity used for introducing hot air is formed between the partition board and the buffer box, and the buffer box is used for preheating the textiles;

the heating rollers are rotatably installed in the drying box and used for drying textiles.

Preferably, guiding mechanism includes the guide rail of fixed mounting on the dewatering box, every the both ends of live-rollers all rotate and are connected with the regulating spindle, the regulating spindle slides and inserts and establish in the guide rail, and is a plurality of first chain has been cup jointed in the outside of regulating spindle, be fixed connection between first chain and the regulating spindle, one of them one side meshing of first chain has first sprocket, fixed mounting has the first motor that is used for driving first sprocket pivoted on the inner wall of dewatering box, the drive end and the first sprocket fixed connection of first motor.

Preferably, slewing mechanism still includes the star axle of rotation installation on the dewatering box inner wall, the three end of star axle rotates with three squeeze roll respectively and is connected, be connected with the telescopic shaft that is used for flexible between star axle and the squeeze roll, two be provided with actuating mechanism between the slewing mechanism, actuating mechanism includes gear, third sprocket and the second sprocket of being connected with the dewatering box inner wall rotation, the center fixed connection of second sprocket and star axle, the meshing is connected with the second chain between second sprocket and the third sprocket, be fixed connection between gear and the third sprocket, install on the inner wall of dewatering box and be used for driving the second motor of one of them third sprocket pivoted, two gear intermeshing.

Preferably, a plurality of holes have been seted up on the division board, still rotate on the inner wall of baffle-box and install the pivot, the equidistance rotates in the pivot and installs a plurality of regulating spindles, the one end fixed mounting that is close to the dewatering box in the regulating spindle has fixed magnetic path, the one end that is close to the stoving case in the regulating spindle slides and is provided with movable magnetic path, be the relation that magnetic force is repulsive each other between movable magnetic path and the fixed magnetic path.

Preferably, stoving case, baffle-box and dewatering box intercommunication department are provided with conveyor components, conveyor components includes two conveying rollers of mutual contact that relative up-down set up, install on the inner wall of stoving case, baffle-box and dewatering box and be used for driving the third motor that the conveying roller rotated.

Preferably, a slot for inserting the telescopic shaft is formed in the star-shaped shaft, one end of the telescopic shaft is fixedly connected with the squeeze roll, a spring is installed in the slot, and limiting strips for limiting the moving range of the squeeze roll are symmetrically arranged on the inner wall of the dewatering box.

Preferably, the bottom of every regulating spindle all fixed mounting have fixed cover, fixed cover cup joints in the pivot, every fixed cover all is fixed below the one end that is close to the stoving case and is provided with the balancing weight that is used for keeping balance.

Compared with the prior art, the invention has the beneficial effects that:

1. the device has the advantages that the dewatering and the drying are designed together, so that the textile can be dried and dewatered uninterruptedly, the textile does not need to be divided for operation, the streamline operation procedure is integrated, the workload of workers can be effectively reduced, and the use efficiency of equipment can be improved;

2. set up the baffle-box between dewatering box and stoving case for cushion both different speeds to the fabrics processing, can also preheat the fabrics simultaneously, be favorable to drying the fabrics.

Drawings

FIG. 1 is a schematic perspective view of an integrated dewatering and drying apparatus for textile according to the present invention;

FIG. 2 is a schematic perspective view of a dewatering box;

FIG. 3 is a schematic perspective view of the buffer box;

FIG. 4 is an enlarged view of the structure at A in FIG. 2;

fig. 5 is an enlarged view of the structure at B in fig. 3.

In the figure: the device comprises a drying box 1, a buffer box 2, a dewatering box 3, a rotating roller 4, an adjusting shaft 5, a separation plate 6, a heating roller 7, a conveying assembly 8, a heat insulation cavity 9, a limiting strip 10, a water outlet 11, a star-shaped shaft 12, an extrusion roller 13, a first chain wheel 14, a second chain wheel 15, a first chain wheel 16, a second chain wheel 17, a telescopic shaft 18, a gear 19, a third chain wheel 20, a fixed magnetic block 21, a movable magnetic block 22, a hole 23, a balancing weight 24, a rotating shaft 25, a fixed sleeve 26 and a guide track 27.

Detailed Description

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

Referring to fig. 1 to 5, an integrated dewatering and drying apparatus for textiles includes: the textile drying and dewatering device comprises a drying box 1, a buffer box 2 and a dewatering box 3, wherein the buffer box 2 is arranged between the drying box 1 and the dewatering box 3, the drying box 1, the buffer box 2 and the dewatering box 3 are communicated with each other, one side of the dewatering box 3 is provided with an input end for textile input, and one side of the drying box 1 is provided with an output end for textile output; the rotating rollers 4 are used for segmenting textiles input into the dewatering box 3, guide mechanisms for guiding the rotating rollers 4 to move are arranged on two front and back opposite inner walls of the dewatering box 3, and two ends of each rotating roller 4 are connected with the guide mechanisms; the textile dewatering machine comprises two rotating mechanisms which are arranged symmetrically left and right, each rotating mechanism comprises three extrusion rollers 13 which are arranged in a triangular shape, when the two extrusion rollers 13 on the left rotating mechanism and the right rotating mechanism are contacted with each other, the textile is extruded and dewatered, and a water outlet 11 for leading out water is arranged below a dewatering box 3; the textile drying device comprises a buffer box 2, a plurality of adjusting shafts 5 arranged in the buffer box 2, wherein the adjusting shafts 5 are used for dispersing textiles, the buffer box 2 is of an arc-shaped box body structure, the inner wall of the buffer box is provided with a partition board 6 used for temporarily storing the textiles, a heat insulation cavity 9 used for introducing hot air is formed between the partition board 6 and the buffer box 2, and the buffer box 2 is used for preheating the textiles; a plurality of heating rollers 7 are rotatably installed in the drying box 1, and the heating rollers 7 are used for drying textiles.

The guiding mechanism comprises a guiding track 27 fixedly installed in the dewatering box 3, two ends of each rotating roller 4 are rotatably connected with adjusting shafts 5, the adjusting shafts 5 are slidably inserted in the guiding track 27, the outer sides of the adjusting shafts 5 are sleeved with first chains 16, the first chains 16 are fixedly connected with the adjusting shafts 5, one side of one first chain 16 is meshed with a first chain wheel 14, a first motor for driving the first chain wheel 14 to rotate is fixedly installed on the inner wall of the dewatering box 3, and the driving end of the first motor is fixedly connected with the first chain wheel 14; when the driving end of the first motor drives the first chain wheel 14 to rotate, the first chain 16 meshed with the first chain wheel is driven to rotate, because the first chain 16 is connected with the rotating rollers 4 through the adjusting shafts 5, the moving range of the adjusting shafts 5 is limited in the guide tracks 27, the rotating rollers 4 can move orderly along the tracks of the guide tracks 27, when textiles enter the dewatering box 3, each rotating roller 4 can hang one textile, and therefore the textiles are divided into multiple sections.

The rotating mechanism further comprises a star-shaped shaft 12 rotatably mounted on the inner wall of the dewatering box 3, three tail ends of the star-shaped shaft 12 are rotatably connected with three squeezing rollers 13 respectively, a telescopic shaft 18 for stretching is connected between the star-shaped shaft 12 and the squeezing rollers 13, a driving mechanism is arranged between the two rotating mechanisms and comprises a gear 19, a third chain wheel 20 and a second chain wheel 15 which are rotatably connected with the inner wall of the dewatering box 3, the second chain wheel 15 is fixedly connected with the center of the star-shaped shaft 12, a second chain 17 is meshed and connected between the second chain wheel 15 and the third chain wheel 20, the gear 19 is fixedly connected with the third chain wheel 20, a second motor for driving one of the third chain wheels 20 to rotate is mounted on the inner wall of the dewatering box 3, and the two gears 19 are meshed with each other;

the second motor drives one of the third chain wheels 20 to rotate through the driving end, the third chain wheel 20 rotates to drive the second chain wheel 15 which is meshed with the third chain wheel to rotate through the second chain 17, the corresponding star-shaped shaft 12 rotates, the two star-shaped shafts 12 rotate relatively due to the fact that the two gears 19 are meshed with each other, namely, one of the two star-shaped shafts rotates anticlockwise and the other of the two star-shaped shafts rotates clockwise, the squeezing rollers 13 connected with the star-shaped shafts 12 are close to each other, and therefore the squeezing and dewatering effects of textiles hung on the rotating rollers 4 can be achieved through the two squeezing rollers 13 which are close to each other.

A plurality of holes 23 are formed in the isolation plate 6, a rotating shaft 25 is rotatably mounted on the inner wall of the buffer box 2, a plurality of adjusting shafts 5 are rotatably mounted on the rotating shaft 25 at equal intervals, a fixed magnetic block 21 is fixedly mounted at one end, close to the dewatering box 3, in each adjusting shaft 5, a movable magnetic block 22 is slidably arranged at one end, close to the drying box 1, in each adjusting shaft 5, and the movable magnetic blocks 22 and the fixed magnetic blocks 21 are in a magnetic force mutual repulsion relationship; when the adjusting shaft 5 is inclined, the moving magnet block 22 approaches the fixed magnet block 21, and the repulsive magnetic force forces the adjusting shaft 5 to return because the moving magnet block and the fixed magnet block repel each other, so that the adjusting shaft 5 returns to a horizontal position.

A conveying assembly 8 is arranged at the communication position of the drying box 1, the buffer box 2 and the dewatering box 3, the conveying assembly 8 comprises two mutually-contacted conveying rollers which are oppositely arranged up and down, and a third motor for driving the conveying rollers to rotate is arranged on the inner walls of the drying box 1, the buffer box 2 and the dewatering box 3; when the third motor passes through the drive end and drives the driving roller pivoted, owing to two upper and lower transfer roller offset contacts, have frictional force between, then when one of them transfer roller pivoted, can realize the transmission effect to the fabrics that passes.

A slot for inserting the telescopic shaft 18 is formed in the star-shaped shaft 12, one end of the telescopic shaft 18 is fixedly connected with the squeeze roll 13, a spring is installed in the slot, and limiting strips 10 for limiting the moving range of the squeeze roll 13 are symmetrically arranged on the inner wall of the dewatering box 3; because the central position of the extrusion roller 13 relative to the star-shaped shaft 12 is variable by the telescopic shaft 18, in order to avoid influencing other components when textiles are not extruded, the limiting strip 10 is arranged for limiting, when the limiting strip 10 is contacted, when the movable type extrusion device moves in the range of the limit strip 10 and moves out of the range of the limit strip 10, the telescopic shaft 18 pushes the extrusion roller 13 under the action of the spring, so that two squeezing rollers 13 which are symmetrical at any moment can be contacted and abutted, the two squeezing rollers 13 which are close to each other can clamp the textile in the middle when being contacted, and along with the movement of the squeezing rollers 13, can be gradually extrude the water on the fabrics, the equal fixed mounting in bottom of every regulating spindle 5 has fixed cover 26, and fixed cover 26 cup joints on pivot 25, and every fixed cover 26 all is fixed below the one end that is close to stoving case 1 and is provided with balancing weight 24 that is used for keeping balance.

In the embodiment applying the technical scheme, moist textile is input from the input end of the dewatering box 3, in the input process, each rotating roller 4 orderly moves along the track of the guide track 27 under the action of the guide mechanism, the first motor drives the first chain wheel 14 to rotate, the first chain wheel 14 is meshed with the first chain 16, the first chain wheel 14 drives the first chain 16 to rotate, the first chain 16 can drive each rotating roller 4 connected with the first chain through the adjusting shaft 5 to move relatively in the rotating process, textile entering the dewatering box 3 can be lapped on the rotating roller 4 in the moving process of each rotating roller 4, and along with the movement of the rotating roller 4, when the next rotating roller 4 rotates to the upper part, the rotating roller 4 is lapped with a section of textile, so that each rotating roller 4 divides the placed product into a plurality of sections;

in the process that the guide mechanism guides the rotating roller 4 to move, the second motor drives a third chain wheel 20 to rotate, the third chain wheel 20 drives a synchronous gear 19 fixedly connected with the third chain wheel to rotate, the two gears 19 are meshed with each other, then the two third chain wheels 20 synchronously and reversely rotate, as shown in fig. 4, the left gear 19 rotates clockwise, the right gear 19 rotates anticlockwise, the third chain wheel 20 rotates to drive a corresponding second chain wheel 15 to rotate through a second chain 17, the second chain wheel 15 drives a star-shaped shaft 12 fixedly connected with the second chain wheel to rotate, the star-shaped shaft 12 drives the extrusion rollers 13 to rotate by taking the center of the star-shaped shaft 12 as the axis through the telescopic shaft 18, because the extrusion rollers 13 are arranged in a one-to-one symmetrical mode, in the process that the star-shaped shaft 12 rotates, in the process that the two extrusion rollers 13 on the same horizontal plane approach each other, when the two extrusion rollers 13 slide through the range of the limit strip 10, the telescopic shaft 18 extends under the elastic force of the spring, when the two extended squeezing rollers 13 are close to contact, the textile between the two squeezing rollers 13 is squeezed and dehydrated, and because the squeezing rollers 13 in the middle move downwards, the moisture on the textile is squeezed from top to bottom, so that the dehydration effect on the textile is realized;

after the textile is dehydrated by the dehydration box 3, the textile enters the buffer box 2 through the conveying component 8, the buffer box 2 is used for adjusting the difference of the drying box 1 and the dehydration box 3 in conveying speed of the textile, the textile is heated in the space in the heat insulation cavity 9, hot air can contact with the textile through the holes 23, and the textile is preheated, in the process of preheating, when the excessively humid textile is concentrated on the isolating plate 6 and is close to one side of the dehydration box 3, the adjusting shaft 5 inclines towards one side of the dehydration box 3 relative to the rotating shaft 25, the movable magnetic block 22 slides in the adjusting shaft 5 and is close to the fixed magnetic block 21, because the fixed magnetic block 21 and the movable magnetic block 22 repel each other, the acting force of the repulsion can enable the movable magnetic block 22 to tend to move towards one end of the drying box 1, under the action of the reverse movement of the movable magnetic block 22, the adjusting shaft 5 tends to be in a horizontal state with the recovery, and the rotating tracks of the adjusting shafts 5 are different, in the process that the textile is preheated, the weight changes, the movable magnetic block 22 can move back and forth, the adjusting shaft 5 can also rotate back and forth, and the textile can be moved, so that local overheating caused by over concentration of the textile is avoided, and meanwhile, the textile which is moved up and scattered can be more effectively contacted with hot air;

the preheated textiles enter the drying box 1 through the conveying assembly 8, all the heating rollers 7 in the drying box 1 are heated to proper temperatures, the textiles entering the drying box 1 firstly bypass all the heating rollers 7 in the first row from top to bottom, then bypass all the heating rollers 7 in the second row from bottom to top, finally the textiles are output from the output end of the drying box 1, and the textiles can be contacted with all the heating rollers 7 in the surrounding process, so that the textiles can be fully dried in the contacting process;

in the process of the textile from top to bottom and from bottom to top, the textile can bypass the heating rollers 7 in a wave mode besides a straight-up and straight-down mode, and the number and the positions of the heating rollers 7 are correspondingly required to be adjusted.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A dehydration and drying integrated device for textiles, characterized in that the dehydration and drying integrated device for textiles comprises:

the textile drying and dewatering device comprises a drying box (1), a buffer box (2) and a dewatering box (3), wherein the buffer box (2) is arranged between the drying box (1) and the dewatering box (3), the drying box (1), the buffer box (2) and the dewatering box (3) are communicated with one another, one side of the dewatering box (3) is provided with an input end for textile input, and one side of the drying box (1) is provided with an output end for textile output;

the textile dewatering device comprises a plurality of rotating rollers (4), a plurality of guide mechanisms and a plurality of guide rollers (4), wherein the rotating rollers (4) are used for segmenting textiles input into a dewatering box (3), the two front and back opposite inner walls of the dewatering box (3) are provided with the guide mechanisms for guiding the rotating rollers (4) to move, and two ends of each rotating roller (4) are connected with the guide mechanisms;

the textile dewatering machine comprises two rotating mechanisms which are arranged symmetrically left and right, wherein each rotating mechanism comprises three extrusion rollers (13) which are arranged in a triangular shape, the extrusion and dewatering of textiles are realized when the two extrusion rollers (13) on the left rotating mechanism and the right rotating mechanism are in mutual contact, and a water outlet (11) for leading out water is formed below a dewatering box (3);

the textile drying device comprises a plurality of adjusting shafts (5) arranged in a buffer box (2), wherein the adjusting shafts (5) are used for dispersing textiles, the buffer box (2) is of an arc-shaped box body structure, the inner wall of the buffer box is provided with a partition board (6) used for temporarily storing the textiles, a heat insulation cavity (9) used for introducing hot air is formed between the partition board (6) and the buffer box (2), and the buffer box (2) is used for preheating the textiles;

the heating device comprises a plurality of heating rollers (7) rotatably arranged in the drying box (1), wherein the heating rollers (7) are used for drying textiles.

2. The textile dewatering and drying integrated device according to claim 1, wherein the guide mechanism comprises a guide rail (27) fixedly installed in the dewatering box (3), adjusting shafts (5) are rotatably connected to both ends of each rotating roller (4), the adjusting shafts (5) are slidably inserted in the guide rail (27), a first chain (16) is sleeved on the outer sides of the adjusting shafts (5), the first chain (16) and the adjusting shafts (5) are fixedly connected, a first chain wheel (14) is meshed on one side of one of the first chains (16), a first motor for driving the first chain wheel (14) to rotate is fixedly installed on the inner wall of the dewatering box (3), and the driving end of the first motor is fixedly connected with the first chain wheel (14).

3. The integrated dewatering and drying device for textiles according to claim 1, wherein the rotating mechanism further comprises a star-shaped shaft (12) rotatably mounted on the inner wall of the dewatering box (3), three ends of the star-shaped shaft (12) are rotatably connected with three squeezing rollers (13) respectively, a telescopic shaft (18) for telescoping is connected between the star-shaped shaft (12) and the squeezing rollers (13), a driving mechanism is arranged between the two rotating mechanisms, the driving mechanism comprises a gear (19) rotatably connected with the inner wall of the dewatering box (3), a third chain wheel (20) and a second chain wheel (15), the second chain wheel (15) is fixedly connected with the center of the star-shaped shaft (12), a second chain (17) is engaged and connected between the second chain wheel (15) and the third chain wheel (20), and the gear (19) is fixedly connected with the third chain wheel (20), and a second motor for driving one third chain wheel (20) to rotate is arranged on the inner wall of the dewatering box (3), and the two gears (19) are meshed with each other.

4. The textile dewatering and drying integrated device according to claim 1, wherein a plurality of holes (23) are formed in the isolation plate (6), a rotating shaft (25) is further rotatably mounted on the inner wall of the buffer box (2), a plurality of adjusting shafts (5) are rotatably mounted on the rotating shaft (25) at equal intervals, a fixed magnetic block (21) is fixedly mounted at one end, close to the dewatering box (3), in each adjusting shaft (5), a movable magnetic block (22) is slidably arranged at one end, close to the drying box (1), in each adjusting shaft (5), and the movable magnetic blocks (22) and the fixed magnetic blocks (21) are in a magnetic force repelling relationship.

5. The textile dewatering and drying integrated device according to claim 1, wherein a conveying assembly (8) is arranged at the communication position of the drying box (1), the buffer box (2) and the dewatering box (3), the conveying assembly (8) comprises two mutually-contacted conveying rollers which are oppositely arranged up and down, and a third motor for driving the conveying rollers to rotate is mounted on the inner walls of the drying box (1), the buffer box (2) and the dewatering box (3).

6. The textile dewatering and drying integrated device according to claim 3, wherein a slot for inserting the telescopic shaft (18) is formed in the star-shaped shaft (12), one end of the telescopic shaft (18) is fixedly connected with the squeezing roller (13), a spring is installed in the slot, and limiting strips (10) for limiting the moving range of the squeezing roller (13) are symmetrically arranged on the inner wall of the dewatering box (3).

7. The integrated textile dewatering and drying device according to claim 4, wherein a fixed sleeve (26) is fixedly mounted at the bottom of each adjusting shaft (5), the fixed sleeve (26) is sleeved on the rotating shaft (25), and a balancing weight (24) for keeping balance is fixedly arranged below one end of each fixed sleeve (26) close to the drying box (1).