CN113638174B - Water-saving preshrinking setting machine for woven cloth and dyeing process - Google Patents

Abstract

The utility model relates to a technical field that the woven cloth was dyed discloses a woven cloth water conservation preshrinking forming machine and dyeing technology, and main technical scheme is a woven cloth water conservation preshrinking forming machine, including the setting box and set up the frame at the setting box tip, be connected with the elasticity clitellum in the frame, be provided with in the frame and be used for compressing tightly the heating pressure-bearing roller on the elasticity clitellum with the cloth. The application has the following effects: the heating pressure bearing roller will act on cloth and elastic ring belt in step, order about cloth and elastic ring belt synchronous deformation, will make the cloth carry out deformation stretching in advance in the in-process of deformation to under the circumstances of heating, can make the cloth design, and such preshrinking operation only need utilize the moisture in the preceding process can, do not need a large amount of water resource to soak, further heat in subsequent shaping box makes the cloth design, compares the more water resource of saving of correlation technique.

Description

Water-saving preshrinking setting machine for woven cloth and dyeing process

Technical Field

The application relates to the technical field of woven fabric dyeing, in particular to a water-saving preshrinking setting machine for woven fabric and a dyeing process.

Background

At present, dyeing of woven cloth is common, and general dyeing steps are that firstly, grey cloth is desized, then preshrinking treatment is carried out on the cloth, so that the cloth reaches a stable state, then preshaping operation is carried out, then dyeing operation is carried out, and finally setting is carried out through a setting machine after dyeing is finished.

In the current process steps, preshrinking is usually carried out by immersing the cloth in a water tank through a conveying roller, and by matching with heated water, the cloth is shrunk in advance, and then the cloth is preliminarily shaped through preshaping and heating.

However, when the related art is used, a large amount of hot water is needed first, and the hot water needs to be replaced regularly, so that water resources are wasted more.

Disclosure of Invention

In order to reduce the water resource usage amount in the production process, the application provides a water-saving preshrinking setting machine for woven fabrics and a dyeing process.

In a first aspect, the present application provides a water-saving preshrinking setting machine for woven fabrics, which adopts the following technical scheme: the water-saving preshrinking shaping machine for woven cloth comprises a shaping box and a frame arranged at the end part of the shaping box, wherein an elastic girdle is connected to the frame, and a heating pressure bearing roller for pressing cloth on the elastic girdle is arranged on the frame.

Through adopting above-mentioned technical scheme, add the frame before the forming machine, the cloth will hold the compression roller downside through the heating, the heating holds the compression roller and will act on cloth and elasticity annular belt in step, order about cloth and the synchronous deformation of elasticity annular belt, will make the cloth carry out the deformation in advance and stretch in the in-process of deformation, and under the circumstances of heating, can make the cloth design, and such preshrinking operation only need utilize the moisture in the preceding process can, do not need a large amount of water resources to soak, further heat makes the cloth design in subsequent forming box, compare the water resources of saving more of correlation technique.

Preferably, the heating pressure roller comprises a plurality of hollow assembling cylinder rollers arranged at intervals, and an elastic heat-conducting sleeve wrapped on the outer side of the assembling cylinder rollers, an expansion gap is formed between every two adjacent assembling cylinder rollers, and an expansion piece which is used for extending into the expansion gap and abutting against the elastic heat-conducting sleeve is arranged in the heating pressure roller.

Through adopting above-mentioned technical scheme, to the cloth of broad width in the course of handling, it is comparatively even to need keep heating pressure-bearing roller to the pressure of cloth, and the accessible expansion member exerts pressure to the elasticity heat conduction cover to the cloth to a certain position is pressed and is supported tightly, adjusts then, makes holistic pressure comparatively even and reasonable.

Preferably, the expansion piece comprises a base ring arranged in the heating compression bearing roller, and an outer expansion ring arranged on the outer side of the base ring and used for abutting against the elastic heat conduction sleeve, and when the outer expansion ring is not expanded, the base ring abuts against the inner side of the elastic heat conduction sleeve and fills the expansion gap.

Through adopting above-mentioned technical scheme, when not having the inflation, pack the clearance between two equipment section of thick bamboo rollers through the base ring for holistic cylindrical surface remains intact, under the condition that does not need the adjustment, can be better support tightly on the cloth.

Preferably, the outer wall of the base ring is provided with a containing groove for embedding the outer expansion ring, and the heating pressure bearing roller is connected with an inflation piece for inflating the inner cavity of the outer expansion ring.

Through adopting above-mentioned technical scheme, when not expanding, the outer bulge loop will be located the storage tank, is mainly realized contradicting effect by the base ring, inflates in the outer bulge loop inner chamber through the piece of inflating when needs are adjusted, and the outer bulge loop will expand this moment to apply effort to the elasticity heat conduction cover.

Preferably, the plurality of assembly cylinder rollers are fixed through a connecting assembly, the connecting assembly comprises a plurality of connecting ring pieces corresponding to the assembly cylinder rollers and a fixing rod penetrating through and fixed on the connecting ring pieces, and the base ring is fixedly connected to the fixing rod.

Through adopting above-mentioned technical scheme, the dead lever is even fixed with each go-between piece and base ring, can make like this heating bear the compression roller when using, be an entity, can comparatively steadily exert pressure to the cloth.

Preferably, both ends of the heating pressure-bearing roller are provided with sealing covers, and the air charging piece comprises an air charging pipe penetrating through and installed on the sealing covers, and an air inlet head arranged on the air charging pipe and used for being in butt joint with the inner cavity of the outer expansion ring.

Through adopting above-mentioned technical scheme, the gas tube is fixed through the closing cap at both ends, and after penetrating to the heating pressure-bearing roller, the air inlet head will dock with the outer ring inner chamber, aerify the back in the gas tube when adjusting for outer ring inflation is adjusted then.

Preferably, the base ring is provided with a connector communicated with the inner cavity of the outer expansion ring, the connector is provided with a connecting channel communicated with the inner cavity of the outer expansion ring and arranged along the radial direction of the base ring, the air inlet is provided with a cannula which is inserted into the end part of the connecting channel, and the connector is provided with an opening and closing component for opening and closing the connecting channel.

Through adopting above-mentioned technical scheme, when the butt joint, the intubate will insert the intubate in the connecting channel, realizes the intercommunication to the switching subassembly can be opened connecting channel, when not aerifing, will keep closed state, just can communicate when inserting.

Preferably, the opening and closing assembly comprises an opening and closing block and an elastic piece, wherein the opening and closing block and the elastic piece are connected to the connecting head in a sliding mode, the opening and closing block is used for cutting off a connecting channel, a matching channel is arranged on the opening and closing block along the radial direction of the base ring, a sliding groove for the opening and closing block to slide is formed in the connecting head, the elastic piece is located in the sliding groove and is used for being connected to one end of the opening and closing block, a slot for the connector to be embedded is formed in the air inlet head, and when one end of the opening and closing block is abutted to the bottom of the slot, the matching channel is communicated with the connecting channel.

Through adopting above-mentioned technical scheme, the connector will imbed in the slot to open and close the piece in step and will contradict in the bottom of slot, thereby order about the piece to slide, the cooperation passageway will communicate with the connecting channel after sliding, thereby opens the passageway of admitting air.

On the other hand, the application provides a water-saving dyeing process for woven fabrics, which adopts the following technical scheme: the water-saving dyeing process of the woven fabric comprises the following steps of:

s1: desizing water washing, desizing the cloth by using a desizing agent, and keeping the cloth wet;

s2: performing moisture preservation and shaping, firstly performing mechanical preshrinking, and preshrinking the cloth in a shaping box while presetting by setting the preshaping temperature to 160-180 ℃;

s3: dyeing;

s4: and (5) washing and shaping.

By adopting the technical scheme, after desizing and finishing, wet cloth is prestretched by machinery, the cloth is stretched and prestretched in advance, and then is prestretched by heating of the shaping box, so that the dyeing process can greatly reduce the use amount of water resources.

Preferably, the step S2 includes:

s21: mechanical preshrinking, namely pressing cloth into a position between a heating pressure-bearing roller and an elastic endless belt, and preshrinking after stretching;

s22: the shaping and preshrinking are carried out, preshrinking amount is reserved on a conveying belt of the shaping machine through the contact pin, and the shaping machine is preshrinked after being heated in the shaping box.

Through adopting above-mentioned technical scheme, under the preshrinking volume in the design case and expecting under the different circumstances, the accessible is heated and is held compression roller and elasticity clitellum's tight power size of support to adjust the volume of mechanical preshrinking, then be fit for the volume of follow-up design preshrinking, do not need to go to adjust the position of contact pin as far as possible, facilitate the use.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the original preshrinking mode is adjusted to be that the pressure is applied between the heating pressure bearing roller and the elastic endless belt for preshrinking treatment, so that the overall water resource utilization is reduced, and a better preshrinking effect can be achieved;

2. when the preshrinking operation is carried out on the wide cloth, the outer expansion ring can be expanded outwards through the inflation tube, and the compression force of a certain part is regulated, so that the acting force of the whole on the cloth is regulated.

Drawings

FIG. 1 is a schematic structural view of the present application;

FIG. 2 is a schematic view of the structure of a heated pressure-bearing roller;

FIG. 3 is a cross-sectional view of a heated pressure bearing roller;

FIG. 4 is a schematic diagram of the connection relationship between the connector and the air inlet;

fig. 5 is a schematic diagram of the connection relationship between the opening and closing block and the connector.

Reference numerals illustrate: 10. a shaping box; 100. a frame; 110. a conveying roller; 111. an elastic endless belt; 112. a connecting seat; 113. a first cylinder; 114. a second cylinder; 115. a reinforcing sheet; 120. heating the pressure bearing roller; 121. assembling a cylinder roller; 122. an elastic heat conducting sleeve; 123. an expansion gap; 130. a cover; 140. a connection assembly; 141. a connecting ring piece; 142. a fixed rod; 150. an expansion member; 151. a base ring; 152. an outer expansion ring; 153. a receiving groove; 160. an inflatable member; 161. an inflation tube; 162. an air inlet head; 163. a connector; 164. a connection channel; 165. a cannula; 166. a slot; 171. an opening and closing block; 172. a spring; 173. a mating channel; 174. a sliding groove.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses water conservation preshrinking forming machine of woven cloth, refer to fig. 1, including the sizing box 10 and frame 100, frame 100 fixed mounting is at the feed end of sizing box 10, rotate on frame 100 and be connected with three transfer roller 110, two are established to the top interval, another one is located the below, three transfer roller 110 forms the triangle-shaped that pointed end is down, cover is equipped with elasticity clitellum 111 on three transfer roller 110, normally between the transfer roller 110 of two top, elasticity clitellum 111 will be the state of falling, and rotate on frame 100 and be connected with the heating pressure-bearing roller 120 that is located this position top of falling, and have a connecting seat 112 in the one end of heating pressure-bearing roller 120, install first cylinder 113 on frame 100, its piston rod is connected on connecting seat 112, be used for driving the heating pressure-bearing roller 120 to move in vertical direction. The heating pressure-bearing roller 120 clamps the cloth on the upper side of the elastic endless belt 111, and the heating pressure-bearing roller 120 presses downwards, so that the cloth and the elastic endless belt 111 deform synchronously, and then enter the shaping box 10 for preshrinking after mechanical preshrinking.

Referring to fig. 2 and 3, the heating pressure-bearing roller 120 includes a plurality of hollow assembling rollers 121 arranged at intervals, and an elastic heat-conducting sleeve 122 wrapped outside the assembling rollers 121, in this embodiment, the elastic heat-conducting sleeve 122 is made of silica gel, and expansion gaps 123 are formed between two adjacent assembling rollers 121, four assembling rollers 121 are provided in this embodiment, so three expansion gaps 123 exist, sealing caps 130 are provided at ends of the assembling rollers 121 on both sides, two ends of the elastic heat-conducting sleeve 122 are fixedly connected to the two sealing caps 130, and a plurality of rings of adhesive ring edges adhered and fixed to the single assembling roller 121 are provided inside the elastic heat-conducting sleeve 122. The plurality of assembly drum rollers 121 are fixed by the connection assembly 140, the connection assembly 140 includes connection ring pieces 141 and fixing rods 142, the connection ring pieces 141 are integrally provided on the inner wall of the assembly drum roller 121 and located at intermediate positions, and the fixing rods 142 penetrate through the respective connection ring pieces 141, thereby fixing the respective assembly drum rollers 121.

Referring to fig. 3 and 4, an expansion member 150 is provided in the heating pressure receiving roller 120 to extend into the expansion gap 123 and to abut against the elastic heat-conducting jacket 122. The expansion member 150 includes a base ring 151 and an outer expansion ring 152, the base ring 151 being positioned in the expansion gap 123, and when the base ring 151 is inserted between the expansion gaps 123, both sides of the base ring 151 are butted with the assembly drum rollers 121 on both sides. The outer expansion ring 152 is disposed on the outer side of the base ring 151, in this embodiment, the base ring 151 is provided with a receiving groove 153 into which the outer expansion ring 152 is inserted, and meanwhile, the heating pressure-bearing roller 120 is connected with an inflating member 160, and the inflating member 160 is used for inflating the inner cavity of the outer expansion ring 152. And in order to fix the base ring 151, the fixing rod 142 is synchronously penetrated through and fixedly connected to the base ring 151, thereby forming the whole of the heating pressure-bearing roller 120.

The inflatable member 160 includes an inflation tube 161 and an air inlet head 162, the inflation tube 161 is axially inserted into the heating pressure-bearing roller 120, two ends of the inflation tube 161 are inserted into and fixed on two opposite covers 130, the air inlet head 162 is arranged on the inflation tube 161, and because the inflation member 150 has three inflatable tubes 150 in this embodiment, the corresponding inflation tubes 161 are also three and correspond one to one, the air inlet head 162 is provided with an insertion tube 165, and the insertion tube 165 is communicated with the inner cavity of the inflation tube 161. In order to match the air inlet head 162, a connector 163 is arranged on the inner side of the base ring 151, and a connecting channel 164 which is communicated with the inner cavity of the outer expansion ring 152 and is arranged along the radial direction of the base ring 151 is arranged on the connector 163. For matching and positioning, a slot 166 is formed on the air inlet head 162 for the connector 163 to be embedded, and the insertion tube 165 is located in the slot 166, when the connector 163 is embedded, the insertion tube 165 will be correspondingly inserted into the connection channel 164.

Referring to fig. 4 and 5, in order to control that the expander 152 does not enter air when not engaged, the air inlet head 162 is unidirectional in this embodiment, and only can exit air from the inside of the air tube 161, and the connector 163 has an opening/closing means for opening/closing the connecting passage 164. The opening and closing assembly comprises an opening and closing block 171 and an elastic member which are slidably connected to the connector 163 and used for cutting off the connecting channel 164, wherein the opening and closing block 171 is provided with a matching channel 173 along the radial direction of the base ring 151, and the connector 163 is provided with a sliding groove 174 for sliding the opening and closing block 171. In this embodiment, the elastic member is a spring 172, the spring 172 is located in the sliding groove 174, and one end of the spring 172 is fixedly connected to one end of the opening and closing block 171. During docking, when one end of the shutter 171 abuts against the bottom of the slot 166, the mating channel 173 communicates with the connecting channel 164, and when undocked, the shutter 171 keeps the connecting channel 164 closed.

Referring back to fig. 1 and 2, in order to adjust the position of the elastic heat-conducting sleeve 122 after ventilation, a second cylinder 114 is mounted on the connection base 112, and a piston rod of the second cylinder 114 is rotatably connected to one end of the heating and pressing roller 120, so that the second cylinder can move along the width direction of the cloth, and thus the position of the protruding portion along the axial direction is adjusted. And a heating medium, such as hot steam or hot water, is introduced into the heating pressure-bearing roller 120, and the introduction position is generally located at the central axis of the heating pressure-bearing roller 120. An inflatable structure may be provided at one end of the inflation tube 161, and in use, inflated inwardly to expand the corresponding outer expander 152 and close the inflation tube 161. It may be configured to rotate with the heating pressure-receiving roller 120, and may be configured to rotate while maintaining the inflated state of the expander 152.

The implementation principle of the embodiment of the application is as follows: the heating pressure-bearing roller 120 is assembled through the fixing rod 142, and the air charging tube 161 is inserted into the sealing cover 130, so that the air inlet head 162 is embedded into and is in butt joint with the connecting head 163, the connecting head 163 is embedded into the inserting groove 166, the inserting tube 165 is inserted into the connecting channel 164, meanwhile, one end of the opening and closing block 171 is abutted against the bottom of the inserting groove 166, the opening and closing block 171 slides in the sliding groove 174, the spring 172 is compressed, and the matching channel 173 is communicated with the connecting channel 164.

The cloth is firstly passed through between the heating pressure-bearing roller 120 and the elastic endless belt 111, so that the heating pressure-bearing roller 120 is pressed down to deform the cloth and the elastic endless belt 111, the cloth is led into the subsequent shaping box 10, and in the subsequent operation process, the pressure of the heating pressure-bearing roller 120 on the cloth is regulated according to the shrinkage degree of the cloth in the shaping box 10, so that the cloth can be preshrinked according to the position of an inserting needle in the shaping box 10.

When the pressing force of the heating pressure bearing roller 120 to the cloth is uneven, the outer expansion ring 152 near the corresponding position is supported by the inflation tube 161, so that the heat conduction elastic sleeve expands outwards to increase the pressure, the pressing force to the cloth can be adjusted by adjusting the position of the integral heating pressure bearing roller 120, thereby realizing a better preshrinking effect, and compared with the related art, the consumption of water resources is greatly reduced.

Based on the woven fabric water-saving preshrinking setting machine, the embodiment of the application also discloses a woven fabric water-saving dyeing process, which comprises the following steps:

s1: desizing and water washing, namely, firstly, singeing the blank cloth, desizing the cloth through a desizing agent, and keeping the cloth wet, wherein the desizing can be carried out through caustic soda and the desizing agent at the temperature of 100 ℃, then, countercurrent water washing is carried out, and cold pile desizing can also be carried out through biological enzyme and the desizing agent for 24 hours, and then, plain washing is carried out;

s2: performing moisture retention and shaping, performing mechanical preshrinking, and preshrinking the cloth in the shaping box 10 while presetting by setting the preshaping temperature to 160-180 ℃;

s3: dyeing, namely dyeing and washing under the action of disperse dye, glacial acetic acid and a leveling agent at 130 ℃;

s4: washing with water to fix, washing with hot water once, washing with cold water once, dyeing cotton with reactive dye, anhydrous sodium sulfate, sodium carbonate and dye leveler at 40-60deg.C, washing with hot water once, washing with soap at 80deg.C, washing with water once, and oven drying to fix.

Wherein step S2 comprises:

s21: mechanical preshrinking, namely pressing cloth between the heating pressure-bearing roller 120 and the elastic endless belt 111, and preshrinking after stretching;

s22: the shaping and preshrinking are carried out, preshrinking amount is reserved on a conveying belt of the shaping machine through pins, and the shaping machine is preshrinked after being heated in the shaping box 10.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (3)

1. The utility model provides a water conservation preshrinking forming machine of woven cloth which characterized in that: the automatic sizing machine comprises a sizing box (10) and a machine frame (100) arranged at the end part of the sizing box (10), wherein an elastic endless belt (111) is connected to the machine frame (100), and a heating pressure-bearing roller (120) for pressing cloth on the elastic endless belt (111) is arranged on the machine frame (100);

the heating pressure-bearing roller (120) comprises a plurality of hollow assembly barrel rollers (121) which are arranged at intervals, and an elastic heat-conducting sleeve (122) which is wrapped outside the assembly barrel rollers (121), an expansion gap (123) is formed between two adjacent assembly barrel rollers (121), and an expansion piece (150) which is used for extending into the expansion gap (123) and is abutted against the elastic heat-conducting sleeve (122) is arranged in the heating pressure-bearing roller (120);

the expansion piece (150) comprises a base ring (151) arranged in the heating pressure-bearing roller (120), and an outer expansion ring (152) arranged on the outer side of the base ring (151) and used for abutting against the elastic heat-conducting sleeve (122), wherein when the outer expansion ring (152) is not expanded, the base ring (151) abuts against the inner side of the elastic heat-conducting sleeve (122) and fills an expansion gap (123);

the outer wall of the base ring (151) is provided with a containing groove (153) for embedding the outer expansion ring (152), and the heating pressure-bearing roller (120) is connected with an inflating piece (160) for inflating the inner cavity of the outer expansion ring (152);

both ends of the heating pressure-bearing roller (120) are provided with sealing covers (130), and the inflating piece (160) comprises an inflating pipe (161) penetrating through and installed on the sealing covers (130) and an air inlet head (162) arranged on the inflating pipe (161) and used for being in butt joint with the inner cavity of the outer expanding ring (152);

the base ring (151) is provided with a connector (163) communicated with the inner cavity of the outer expansion ring (152), the connector (163) is provided with a connecting channel (164) communicated with the inner cavity of the outer expansion ring (152) and radially arranged along the base ring (151), the air inlet head (162) is provided with a cannula (165) which is inserted into the end part of the connecting channel (164), and the connector (163) is provided with an opening and closing assembly for opening and closing the connecting channel (164).

2. The water-saving preshrinking shaper for woven cloth according to claim 1, wherein: the assembly drum rollers (121) are fixed through the connecting assembly (140), the connecting assembly (140) comprises a plurality of connecting ring pieces (141) corresponding to the assembly drum rollers (121) and fixing rods (142) penetrating through and fixed on the connecting ring pieces (141), and the base rings (151) are fixedly connected to the fixing rods (142).

3. The water-saving preshrinking shaper for woven cloth according to claim 2, wherein: the opening and closing assembly comprises an opening and closing block (171) and an elastic piece, wherein the opening and closing block (171) is connected to the connector (163) in a sliding mode and used for cutting off a connecting channel (164), the opening and closing block (171) is radially provided with a matching channel (173) along the base ring (151), the connector (163) is provided with a sliding groove (174) for the opening and closing block (171) to slide, the elastic piece is located in the sliding groove (174) and used for being connected to one end of the opening and closing block (171), a slot (166) for the connector (163) to be embedded in is formed in the air inlet head (162), and when one end of the opening and closing block (171) is abutted to the bottom of the slot (166), the matching channel (173) is communicated with the connecting channel (164).

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