CN111876933B - Dyeing device of cloth - Google Patents

Abstract

The invention discloses a dyeing device of cloth, belonging to the technical field of cloth dyeing, and the device comprises: the dyestuff box, dyestuff box bottom surface is connected with the circulation box through the connecting piece, place the dyestuff liquid that is used for dyeing to the cloth in dyestuff box and the circulation box respectively, dyestuff box one side is connected with circulation box corresponding side through the second transmission body, the opposite side is connected with circulation box corresponding side through first transmission body, be equipped with first pump body on the first transmission body, be connected with on the second transmission body and be used for reinforced feeding pipe, be equipped with the aeration subassembly in the dyestuff box and the circulation box respectively, this device solves the inhomogeneous and current cloth dyeing of cloth dyeing and piles up the fold problem that appears in-process, this application effective control cloth is balanced at approximate density of dyeing process cloth cover, keep suitable tension, the cloth is difficult for appearing the fold and guarantees to dye and obtains the difficult fading of cloth at the dyeing in-process.

Description

Dyeing device of cloth

Technical Field

The invention belongs to the field of cloth dyeing, and particularly relates to a cloth dyeing device.

Background

The textile industry is the traditional strut industry in China and comprises five parts of textile, printing and dyeing, chemical fiber, clothing, manufacturing of special textile equipment and the like. With the rapid development of national economy, the printing and dyeing industry in China also enters a high-speed development period, equipment and technical levels are obviously improved, and production processes and equipment are continuously updated. The printing and dyeing process plays a significant role in the textile industry, and the cost control in the printing and dyeing process directly influences the economic value of the fabric. Therefore, the cost of the fabric dyeing process is strictly controlled, and the dyeing process mainly utilizes a dyeing machine to dye the cloth.

Cloth dyeing machine holds a large amount of dye solutions in being prior to a big dye vat usually, puts into this big dye vat with the cloth that waits to dye, then through the dip-dye, treats the cloth and dyes the processing, current dyeing machine because the precision of equipment is not enough, the in-process of dyeing can have the condition that the cloth piles up to lead to dyeing inequality, it is lighter to dye like middle cloth that waits to dye, and the cloth dyeing of outer waiting to dye is darker, still produces the fold because pile up easily simultaneously, the fold that exists in the dyeing process.

Disclosure of Invention

The invention aims to provide a cloth dyeing device, which solves the problems of uneven cloth dyeing and folds in the stacking process of the existing cloth dyeing process, effectively controls the approximate density balance of the cloth surface of the cloth in the dyeing process of the cloth, keeps proper tension, is not easy to fold in the dyeing process of the cloth, and ensures that the dyed cloth is not easy to fade.

The technical scheme adopted by the invention for realizing the purpose is as follows: a dyeing apparatus for cloth, comprising: the dyeing box body, the bottom surface of the dyeing box body is connected with a circulating box body through a connecting piece, dye liquid for dyeing cloth is respectively placed in the dyeing box body and the circulating box body, one side of the dyeing box body is connected with the corresponding side surface of the circulating box body through a second transmission pipe body, the other side of the dyeing box body is connected with the corresponding side surface of the circulating box body through a first transmission pipe body, a first pump body is arranged on the first transmission pipe body, a feeding pipe for feeding is connected onto the second transmission pipe body, aeration components are respectively arranged in the dyeing box body and the circulating box body, each aeration component comprises an aeration stone arranged at the inner bottom of the dyeing box body and the inner bottom of the circulating box body, a first air pump is respectively arranged outside the dyeing box body and the circulating box body, the first air pump is connected with the aeration stone through a fourth transmission pipe body, a first screen plate horizontally arranged above the aeration stone is arranged, one side, the first rotating disc is driven to rotate by a first driving motor, the first driving motor is arranged on the outer sides of the dye box body and the circulating box body respectively, opposite sides of the connecting main rod body connected with the first screen plate are connected with the second rotating disc through the connecting main rod body and the connecting transition piece, the second rotating disc is parallel to the first rotating disc, the second rotating disc is connected with the bearing ring through the connecting rod, the bearing ring is arranged on the inner walls of the dye box body and the circulating box body respectively, the first screen plate is connected with the second screen plate close to the upper portion of one side of the first rotating disc, the second screen plate is connected with the first screen plate in an inclined mode, the included angle range is smaller than 90 degrees, the first screen plate is connected with the third screen plate close to the lower portion of one side of the second rotating disc, the third screen plate is connected with the first screen plate in an inclined mode, and the.

The invention recycles the dye in the dye box body and supplements the materials needed by the dye, such as water, dye and the like, in time by designing the circulating box, thereby avoiding the problem that the prior dye equipment needs to stop working after the dye liquid is lacked in the dye process to feed and prolong the processing time, in particular, the liquid dye in the dye box body is discharged into the circulating box body through the second conveying pipe body, so as to filter the residual liquid dye discharged from the dye box body in the circulating box body, for example, cleaning the cloth thread head possibly remained in the residual dye in the dye box body or large particles in the dye, and the like, the second conveying pipe is not only used for discharging the residual dye in the fuel box body into the circulating box body, but also can be matched with a feeding pipe to feed water, dye raw materials, softener and the like into the circulating box body so as to mix the dye for use by the dye box body, the problem that the process of distributing dye needs to be stopped during feeding is effectively avoided, the dyeing raw material is thrown into the feeding pipe in the process that residual liquid dye in the dye box body is discharged to the second transmission pipe body, the thrown raw material is brought into the circulating box body by the aid of the residual liquid dye falling, the problem that the thrown raw material is adhered to the inside of the feeding pipe is avoided, the solid raw material can be thrown in the feeding pipe firstly when the feeding pipe is used, then the liquid raw material is thrown in so that the solid raw material is washed into the circulating box body from the inner wall of the feeding pipe by the liquid raw material, the dyeing raw material is mixed by the aid of the aeration assembly after entering the circulating box body, air is input into the circulating box body by the aid of the first air pump and the aeration stone, a large number of bubbles are formed in liquid in the circulating box body, shock waves generated by bursting of the bubbles in the liquid are beneficial to stirring of liquid flowing in the circulating box body to improve mixing of the The air bubbles at the bottom of the circulating box body contact with a first screen plate of the mixing component in the upward moving process, and the first screen plate moves back and forth under the rotating motion of a first rotating disc at the side of the circulating box body to perform certain decomposition action on rising air bubbles, namely the air bubbles are burst and decomposed into smaller air bubbles when contacting with the first screen plate, so that the air bubbles burst in water for one time or multiple times, the material mixing in a water body is facilitated, the problem that the air bubbles are broken when moving up to the water surface in large quantity is avoided, meanwhile, the distribution quantity of the air bubbles in water can be enlarged due to the large quantity of the air bubbles decomposed into small air bubbles, and a large quantity of micro air bubbles are uniformly distributed in the inner space of the circulating box body under the back and forth motion of the first screen plate, and further, the contact quantity of the screen plates and the air bubbles is increased due to the second screen plate and the third screen plate which are arranged in two pairs from top to bottom of the first screen plate, the second screen plate and the third screen plate are driven to do left-right reciprocating motion along with the left-right reciprocating motion of the first screen plate, so that bubbles in a water body of the circulating box body are uniformly distributed, the mixed contact effect of liquid and materials on two sides of the circulating box body is improved, more importantly, the design utilizes the bubble decomposition scheme and the reciprocating screen plate to avoid the deposition of the materials in the circulating box body and ensure the full mixing of dyeing raw materials, the liquid in the circulating box body has higher liquid gas content under the aeration action, the liquid dye after the liquid in the circulating box body is sent into the dye box body by utilizing the first pump body and the first transmission pipe body has higher gas content, the probability that the gas aerated by the dye box body is dissolved into the liquid after the aeration scheme is reused in the dye box body is reduced, and the breakage rate of the gas aerated in the dye box body is favorably improved, the increase dyestuff box in the bubble rupture rate can improve the attached effect of dyestuff on the cloth in the dyestuff box, and the mixed subassembly that its dyestuff box was equipped with can impel the rupture and the even distribution of a large amount of tiny bubbles in the dyestuff box, and the produced impact force of the rupture of tiny bubble is favorable to impel the dyestuff granule in the liquid dyestuff to get into the gap smoothly abundant and the yarn contact, promotes the quality that final dyeing obtained the cloth.

The present invention is further preferably: the feeding port of the second conveying pipe body is communicated with the bottom of the side face of the dye box body, a control valve is arranged at the joint of the feeding port of the second conveying pipe body and the bottom of the side face of the dye box body, the discharging port of the second conveying pipe body is communicated with the bottom of the side face of the circulating box body, the control valve is arranged at the joint of the first conveying pipe body and the bottom of the side face of the dye box body, and the horizontal height of the first conveying pipe body and the horizontal height of the communicating port of.

The present invention is further preferably: divide into dyestuff room and drying chamber by the baffle in the dyestuff box, the drying chamber setting still is equipped with first transmission shaft at dyestuff room middle part in the dyestuff box, and first transmission shaft sets up respectively in dyestuff room and drying chamber, and the cloth is in the dyestuff box: carry out drying process through the drying chamber after dyeing through the dyestuff room earlier and then convey out the dyestuff box after dyeing through the dyestuff room, the business turn over material mouth of drying chamber sets up respectively at two corresponding lateral walls on drying chamber upper portion, dyestuff box upper portion lid connects first sealed lid, be connected with the vice body of fourth transmission on the first sealed lid, drying chamber and dyestuff room upper portion are through the vice body intercommunication of fourth transmission, the bottom is equipped with first shower nozzle in the drying chamber, first shower nozzle is connected with the third transmission body that is used for carrying steam, the third transmission body is connected with steam generator, steam generator sets up in the dyestuff box outside. Through dividing two dyestuff rooms and a drying chamber in dyestuff box inside, can play better effect to coloring and the fixation of cloth like this, the cloth at first dyes after getting into the dyestuff box, its effect that contacts with the liquid dyestuff in the dyestuff box and accompany the microbubble dyes the cloth high-efficiently, then send into the drying chamber with the cloth, utilize steam to make the dyestuff of preliminary dyeing at the cloth surface preliminary cure with the cloth of dyeing get into the dyestuff indoor again before it is not completely cured and carry out the dyestuff and handle, can effectively improve the fastness of cloth dyeing like this, use its problem of losing colour to the later stage and can obtain better solution, and obtain the even colour difference problem that is difficult for appearing of cloth dyeing through above-mentioned dyeing process. Wherein high temperature gas in the drying chamber is sent into the dye chamber through the fourth transmission auxiliary pipe body in the rising process and plays a proper effect of improving the temperature in the dye chamber, thereby being beneficial to dissolving materials in the dyeing liquid in the dye chamber and being beneficial to breaking and decomposing bubbles in the dyeing liquid.

The present invention is further preferably: two sides of the inner wall of the drying chamber are respectively connected with a guide bent plate, one end of each guide bent plate is fixedly connected with the inner wall of the drying chamber, the other end of each guide bent plate is fixedly connected with the inner wall of the drying chamber through a first spring, the two guide bent plates are bent towards opposite surfaces, a first conveying shaft is arranged on the side of a material inlet and a material outlet in the drying chamber, a first conveying shaft is arranged above a first spray head at the bottom, so that the cloth is fed in from the material inlet of the drying chamber and then is sent out from a material outlet of the drying chamber through the upper part of the first spray head, the two guide bent plates arranged in the drying chamber are used for controlling the tension of the cloth to properly expand gaps among cloth yarns in the drying process so as to improve the drying effect, especially, the dye is fixed in the gaps of the cloth to realize the comprehensive dyeing, thus, the possible color difference and uneven dyeing of the cloth have certain improvement effect, and the position range of, and when the cloth of both sides is through the direction bent plate surface, the both sides cloth interval reduces to the steam of bottom displacement upwards, and the circulation face that rises reduces, does benefit to the increase steam and promotes the stoving effect of cloth in the dwell time of bottom.

The present invention is further preferably: the drying chamber is characterized in that a drying feeding port is formed in a feeding port of the drying chamber, an auxiliary drying box is installed on the inner side of the drying chamber, draining cylinders distributed in an arc shape are arranged in the auxiliary drying box, the distance between each draining cylinder and the cloth is smaller than 2mm, a discharging channel 3 and a water outlet channel are further formed in the auxiliary drying box respectively, the discharging channel is vertically formed in the bottom of the auxiliary drying box, the water outlet channel is formed in the side of the auxiliary drying box, the cloth enters the auxiliary drying box after passing through the drying feeding port and then is sent out from the discharging channel, the water content on the cloth is higher during the process that the cloth is sent into the drying chamber through a dye chamber and is not beneficial to the effective drying of the cloth, most part of the water on the surface of the cloth entering the drying chamber is drained by controlling the distance between the draining cylinders in the auxiliary drying box and a first conveying shaft, so that the cloth is dried, excessive drying of a large amount of high-temperature steam sent into by the first collision head to the cloth is avoided through a proper water body, and the quality of the cloth is guaranteed.

The present invention is further preferably: the connecting piece is provided with a through groove body which is vertically arranged in the middle, an auxiliary supporting plate which is equal to the connecting piece in height is arranged in the groove body, gaps are arranged between two side surfaces of the auxiliary supporting plate and two inner side surfaces of the connecting piece, through holes are arranged on two side surfaces of the auxiliary supporting plate, and rubber strips are arranged on the outer edges of the upper end and the lower end of the connecting. The through hole extends outwards to the two side walls of the through connecting piece. The connecting piece is used for realizing being connected of dyestuff box and circulation box of upper and lower extreme, alleviates the relative weight of connecting piece through the mode of seting up logical groove in the connecting piece is inside, and the auxiliary stay board effectively improves and supports intensity, and the perforating hole of seting up is used for alleviateing the bulk strength of connecting piece, and the rubber body is used for improving connecting piece and dyestuff box, the circulation box joint strength of upper and lower extreme.

The present invention is further preferably: a feeding box is arranged at a feeding port of the dye box body, one side wall of the feeding box is fixedly connected with the outer side wall of the dye box body, a vertically through and corresponding in-out through groove is respectively arranged at the upper part and the lower part of the feeding box, a driving main shaft which is parallel to the horizontal plane is arranged in the hollow part of the feeding box, a driving auxiliary shaft is arranged at the adjacent side of the driving main shaft, the distance between the driving main shaft and the driving auxiliary shaft is less than 1mm, the gap position between the driving main shaft and the driving auxiliary shaft corresponds to the position of the in-out through groove, two ends of the driving main shaft are connected with the inner wall of the feeding box through bearings, a first feeding driving motor which is coaxially connected with the driving main shaft is arranged outside the feeding box, an auxiliary pressing plate is arranged at one side of the driving auxiliary shaft, a bearing seat which is connected with the driving auxiliary shaft, the bottom surface of the auxiliary pressure plate is connected with the inner bottom surface of the feeding box through a second spring. The cloth passes through the upper and lower business turn over logical groove of feeding case and then enters into the dyestuff box, all adopt the transfer gear etc. to convey at the in-process of cloth through the feeding case and avoid current dyestuff equipment directly to put into the dyestuff jar with the cloth and carry out the dyestuff and probably cause the cloth to pile up the friction scheduling problem, convey the cloth through reducing drive main shaft and drive countershaft, and the contact of cloth and drive main shaft and drive countershaft is favorable to getting rid of the fine hair on cloth surface, end of a thread etc. makes the cloth cover bright and clean pleasing to the eye, place because of the fine hair on cloth surface, the existence of end of a thread produces the uneven dyeing or dyes the flaw scheduling problem in the dyeing process.

The present invention is further preferably: a cylindrical inner cavity is formed in the driving main shaft, one side surface of the driving main shaft is in threaded connection with a side cover, and a strip-shaped through groove parallel to the axis of the driving main shaft is formed in the axial surface of the driving main shaft in a surrounding mode; fluff, thread ends and the like on the surface of the cloth can enter a cylindrical inner cavity in a driving main shaft through a strip-shaped through groove on the surface of the driving main shaft in the contact process of the surface of the cloth, so that the fluff and the thread ends are collected, and the surface smoothness of the cloth is improved.

The present invention is further preferably: the collecting assembly is arranged in the driving main shaft and comprises a rolling shaft body coaxial with the driving main shaft, the side face of the rolling shaft body is surrounded with a rolling brush, the two end portions of the rolling shaft body are connected with rolling ring bodies through fixed connecting rods, the rolling shaft body is arranged at the circle center of the rolling ring bodies, and the diameter of the outer rings of the rolling ring bodies is smaller than the diameter of the cylindrical inner cavity of the driving main shaft. The collecting assembly is placed in a cylindrical inner cavity formed in the driving main shaft, and collected fluff, thread ends and the like are collected to be wound on the upper wall surface of the rolling brush, and the fluff, the brush and the like can float and move in the driving main shaft in a large amount.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, through the design of the connection scheme of the circulating box body and the dye box body, the problem that the dye distribution process needs to be stopped during feeding is effectively solved, the aeration component is arranged in the dye box body to effectively promote the effective mixing of dye components, and the design scheme of the aeration component can also improve the adhesion effect of the dye on the cloth, so that dye particles in the liquid dye smoothly enter gaps and fully contact with yarns.

Drawings

FIG. 1 is a schematic structural view of a dyeing apparatus for fabric according to the present invention;

FIG. 2 is a view showing the inside of a cloth dyeing apparatus according to the present invention;

FIG. 3 is a schematic view of the interior of the dye box of the present invention;

FIG. 4 is a schematic view of the interior of the drying chamber of the present invention;

FIG. 5 is a schematic view of the inside of the auxiliary drying box of the present invention;

FIG. 6 is a schematic view of the interior of the circulation box of the present invention;

FIG. 7 is a schematic view of the structure of the aeration assembly of the present invention;

FIG. 8 is a schematic view of the connection between the second rotating disk and the main connecting rod according to the present invention;

FIG. 9 is a schematic view of a connector structure of the present invention;

FIG. 10 is a schematic view of the interior of the feed box of the present invention;

FIG. 11 is a schematic view of the driving shaft and the driving countershaft according to the present invention;

FIG. 12 is a schematic view of the drive spindle of the present invention;

FIG. 13 is a schematic view of the collection assembly of the present invention;

FIG. 14 is a schematic view of the feed box structure of the present invention;

fig. 15 is another structural schematic diagram of the connector of the present invention.

Reference numerals: 10-a feeding box; 11-a sticky plate body; 12-a drive spindle; 121 installing a side cover; 122-strip-shaped through grooves; 13-driving the secondary shaft; 14-an auxiliary pressure plate; 15-mounting a base; 16-a second spring; 17-pass in and out through slots; 18-an auxiliary transfer shaft; 19-auxiliary driven rollers; 110-a first feed drive motor; 111-platen shaft; 20-dye box body; 21-a dye chamber; 22-a drying chamber; 23-a first sealed cover body; 24-a fourth transmission auxiliary pipe body; 25-a first transmission shaft; 26-drying a feeding port; 27-guiding the bent plate; 28-a first spring; 29-auxiliary drying oven; 291-draining cylinder; 292-a water outlet channel; 293-discharge channel; 30-a connector; 31-a secondary support plate; 32-an isolated groove body; 33-through holes; 34-a rubber strip; 40-circulating the box body; 41-a second sealed cover body; 42-a sewage draining pipe; 43-a dirt collection chamber; 44-a spacer plate; 50-a first pump body; 51-a first transport tube; 52-a control valve; 53-feeding pipe; 54-a second transport tube; 55-a steam generator; 56-a third transport tube; 57-a first spray head; 60-an aeration component; 61-a first air pump; 62-aerated stone; 63-a fourth transmission pipe body; 70-a mixing assembly; 71-a first drive motor; 72-a first rotating disk; 73-a first mesh panel; 74-a second mesh panel; 75-a second rotating disk; 76-a third mesh panel; 77-a connection transition piece; 78-connecting the main rod body; 80-a collection assembly; 81-rolling ring body; 82-rolling shaft body; 83-rolling brush; 84-fixed connecting rod.

Detailed Description

The technical solution of the present invention is further described in detail below with reference to the following detailed description and the accompanying drawings:

example 1:

referring to fig. 1 to 15 of the specification, a dyeing apparatus for cloth includes: the dyeing box body 20, the bottom surface of the dyeing box body 20 is connected with a circulating box body 40 through a connecting piece 30, dye liquid for dyeing cloth is respectively placed in the dyeing box body 20 and the circulating box body 40, one side of the dyeing box body 20 is connected with the corresponding side surface of the circulating box body 40 through a second transmission pipe body 54, the other side of the dyeing box body is connected with the corresponding side surface of the circulating box body 40 through a first transmission pipe body 51, a first pump body 50 is arranged on the first transmission pipe body 51, a feeding pipe 53 for feeding is connected on the second transmission pipe body 54, aeration assemblies 60 are respectively arranged in the dyeing box body 20 and the circulating box body 40, each aeration assembly 60 comprises an aeration stone 62 arranged at the inner bottom of the dyeing box body 20 and the inner bottom of the circulating box body 40, a first air pump 61 is respectively arranged outside the dyeing box body 20 and the circulating box body 40, the first air pump 61 is connected with the aeration stone 62 through a, one side of a first screen plate 73 is connected with a first disc-shaped rotating disc 72 through a connecting main rod body 78 and a connecting transition piece 77, the axis of the first disc-shaped rotating disc 72 is parallel to the first screen plate 73, the first disc-shaped rotating disc 72 is driven to rotate by a first driving motor 71, the first driving motor 71 is respectively arranged at the outer sides of the dye box 20 and the circulating box 40, the opposite side edges of the connecting main rod body 78 connected with the first screen plate 73 are connected with a second disc-shaped rotating disc 75 through the connecting main rod body 78 and the connecting transition piece 77, the second disc-shaped rotating disc 75 is parallel to the axis of the first disc-shaped rotating disc 72, the second disc-shaped rotating disc 75 is connected with a bearing ring through a connecting rod, the bearing ring is respectively arranged on the inner walls of the dye box 20 and the circulating box 40, the upper part of one side edge of the first screen plate 73 close to the first disc-shaped rotating disc 72 is connected with, preferably 75. The lower part of one side edge of the first net plate 73 close to the second rotating disk 75 is connected with a third net plate 76, and the third net plate 76 is obliquely connected with the first net plate 73, wherein the included angle range is less than 90 degrees, and is preferably 67 degrees.

The invention recycles the dye in the dye box body 20 and supplements the materials needed by the dye, such as water, dye and the like, in time by designing the circulating box 40, thereby avoiding the problem that the existing dye equipment needs to stop working after the lack of dye liquid in the dye process to feed and prolong the processing time, in particular, the liquid dye in the dye box body 20 is discharged into the circulating box body 40 through the second conveying pipe body 54, so as to filter the residual liquid dye discharged from the dye box body 20 in the circulating box body 40, for example, cleaning the possibly remained cloth thread ends in the residual dye in the dye box body 20 or large particles in the dye, and the like, the second conveying pipe 54 is not only used for discharging the residual dye in the dye box body 20 into the circulating box body 40, but also can be matched with the feeding pipe 53 to feed water, dye raw materials, softener and other raw materials into the circulating box body 40 to be mixed to be used by the dye in the circulating box body 40, the problem that the dye distribution process needs to be stopped during feeding is effectively avoided, the dyeing raw material can be fed into the feeding pipe 53 in the process that the residual liquid dye in the dye box body 20 is discharged to the second transmission pipe body 54, the fed raw material is brought into the circulating box body 40 by utilizing the residual liquid dye which falls, and the problem that the fed raw material is adhered in the feeding pipe 53 is avoided, the solid raw material can be fed firstly when the feeding pipe 53 is used, then the liquid raw material is fed so that the liquid raw material can flush the solid raw material into the circulating box body 40 from the inner wall of the feeding pipe 53, the dyeing raw material is mixed by the aeration component 60 after entering the circulating box body 40, air is input into the circulating box body 40 by the first air pump 61 and the aeration stone 62, a large number of air bubbles are formed in the liquid in the circulating box body 40, shock waves generated by bursting of the air bubbles in the liquid are favorable for stirring the liquid flow in the circulating box body 40 to improve the mixing of the materials, and impact force The solid dyeing raw material in the box body 40 has a certain impact destructive effect to decompose the solid dyeing raw material, so that the dissolving speed of the solid dyeing raw material in water and the mixing speed of the solid dyeing raw material with other materials are accelerated, bubbles at the bottom of the circulating box body 40 are in contact with the first screen plate 73 of the mixing component 70 in the upward moving process, and under the rotating motion of the first rotating disc 72 at the side of the first screen plate, the first screen plate 73 is in left-right reciprocating motion to form certain decomposition effect on rising bubbles, namely, the bubbles are burst and decomposed into smaller bubbles when being in contact with the first screen plate 73, so that the bubbles are burst once or repeatedly in the water, the material mixing in a water body is facilitated, the problem that the bubbles are burst when the bubbles move upwards to the water surface in large quantity is avoided, meanwhile, the distribution quantity of the bubbles in the water can be enlarged by decomposing the small bubbles into the large quantity, and a large quantity of micro bubbles are uniformly distributed in, further, the contact amount of the mesh plate and the bubbles is increased by the second mesh plate 74 and the third mesh plate 76 which are arranged in two halves up and down on the first mesh plate 73, and the second mesh plate 74 and the third mesh plate 76 are driven to reciprocate left and right along with the left and right reciprocating motion of the first mesh plate 73, so that the bubbles in the water body of the circulating box 40 are uniformly distributed, and the mixed contact effect of the liquid and the materials on the two sides of the circulating box 40 is improved, more importantly, the bubble decomposition scheme and the reciprocating mesh plates are utilized in the design, the deposition of the materials in the circulating box 40 can be avoided, the dyeing raw materials are fully mixed, the liquid content of the liquid in the circulating box 40 is higher under the aeration effect of the liquid, the probability that the gas aerated by the dye box 20 is dissolved in the liquid after the liquid in the circulating box 40 is sent into the dye box 20 by utilizing the first pump body 50 and the first transmission pipe 51 due to the higher gas content, the gas that is favorable to aeration in the dyestuff box 20 like this in the dyestuff box 20 rupture rate improvement in the liquid dyestuff, increase the dyestuff box 20 in the bubble rupture rate can improve the attached effect of dyestuff on the cloth in the dyestuff box 20, the mixed subassembly 70 that is equipped with in its dyestuff box 20 can impel the rupture of a large amount of micro bubbles and evenly distributed in the dyestuff box 20, the produced impact force of rupture of micro bubbles is favorable to impel the dyestuff granule in the liquid dyestuff to get into the gap smoothly abundant and the yarn contact, promote the quality that final dyeing obtained the cloth.

The feed port of the second conveying pipe 54 is communicated with the bottom of the side face of the dye box body 20, the connection part of the feed port of the second conveying pipe 54 is provided with a control valve 52, the discharge port of the second conveying pipe 54 is communicated with the bottom of the side face of the circulating box body 40, the first conveying pipe 51 is communicated with the bottom of the side face of the dye box body 20, the connection part of the first conveying pipe 51 and the dye box body 20 is provided with the control valve 52, and the horizontal height of the communication port of the first conveying pipe 51 and the dye box body 20 is equal.

Divide into dyestuff room 21 and drying chamber 22 by the baffle in the dyestuff box 20, drying chamber 22 sets up at dyestuff room 21 middle part, still is equipped with first transmission shaft 25 in the dyestuff box 20, and first transmission shaft 25 sets up respectively in dyestuff room 21 and drying chamber 22, and the cloth is in dyestuff box 20: carry out drying process through drying chamber 22 after dyeing through dyestuff room 21 earlier and then convey out dyestuff box 20 after dyeing through dyestuff room 21, drying chamber 22's business turn over material mouth sets up respectively at two corresponding lateral walls on drying chamber 22 upper portion, dyestuff box 20 upper portion lid connects first sealed lid 23, be connected with the vice body 24 of fourth transmission on the first sealed lid 23, drying chamber 22 and dyestuff room 21 upper portion are through the vice body 24 intercommunication of fourth transmission, the bottom is equipped with first shower nozzle 57 in drying chamber 22, first shower nozzle 57 is connected with the third transmission body 56 that is used for carrying steam, third transmission body 56 is connected with steam generator 55, steam generator 55 sets up in the dyestuff box 20 outside. Through dividing two dyestuff rooms 21 and a drying chamber 22 inside the dyestuff box 20, can play better effect to the coloring and the fixation of cloth like this, the cloth gets into at first dyeing behind the dyestuff box 20, its effect with the liquid dyestuff contact in the dyestuff box 20 and accompanying the microbubble dyes the cloth high-efficiently, then send the cloth into the drying chamber 22 in, utilize steam to make the dyestuff of preliminary dyeing in the cloth surface preliminary solidification carry out the dyestuff processing in its cloth entering dyestuff room 21 of dying again before still not curing completely, can effectively improve the fastness of cloth dyeing like this, can obtain better solution to its problem of losing colour of later stage use, and obtain the even difficult colour difference problem that appears of cloth dyeing through above-mentioned dyeing process. Wherein the high temperature gas in the drying chamber 22 is sent into the dyeing chamber 21 through the fourth transmission auxiliary pipe body 24 in the rising process to achieve a proper effect of raising the temperature inside the dyeing chamber 21, which is beneficial to the dissolution of the material in the dyeing liquid in the dyeing chamber 21 and the breaking and decomposition of bubbles in the dyeing liquid.

Two sides of the inner wall of the drying chamber 22 are respectively connected with a guide bent plate 27, one end of the guide bent plate 27 is fixedly connected with the inner wall of the drying chamber 22, the other end is fixedly connected with the inner wall of the drying chamber 22 through a first spring 28, the two guide bent plates 27 are bent towards opposite surfaces, a first conveying shaft 25 is arranged at the side of a material inlet and a material outlet in the drying chamber 22, the first conveying shaft 25 is arranged above a first spray nozzle 57 at the bottom, so that the cloth enters from the material inlet of the drying chamber 22 and passes through the upper part of the first spray nozzle 57 and then is conveyed out from the material outlet of the drying chamber 22, the two guide bent plates 27 arranged in the drying chamber 22 are used for controlling the tension of the cloth to properly expand gaps among cloth yarns in the drying process so as to improve the drying effect, particularly, the dye is fixed in the gaps of the cloth to realize the overall dyeing, thus, a certain improvement effect is realized on the possible color difference and uneven dyeing problem of the cloth, and the main control of the main guide Position range to both sides cloth is when the curved plate 27 surface of direction, and both sides cloth interval reduces to the steam of bottom displacement upwards, and the circulation face that rises reduces, does benefit to the stoving effect that increases steam and promote the cloth in the dwell time of bottom.

The drying chamber 22 is provided with a drying inlet 26 at the inlet and an auxiliary drying box 29, the auxiliary drying box 29 is arranged at the inner side of the drying chamber 22, the auxiliary drying box 29 is internally provided with draining cylinders 291 arranged in an arc shape, the distance between the draining cylinders 291 and the cloth is less than 2mm, the auxiliary drying box 29 is also provided with a discharging channel 293 and a discharging channel 292 respectively, the discharging channel 293 is vertically arranged at the bottom of the auxiliary drying box 29, the discharging channel 292 is arranged at the side of the auxiliary drying box 29, the cloth enters the auxiliary drying box 29 after passing through the drying inlet 26 and then is sent out from the discharging channel 293, the cloth has higher water content on the cloth during the process of being sent into the drying chamber 22 through the dye chamber 21, which is not beneficial to the effective drying of the cloth, most of the water on the surface of the cloth entering the drying chamber 22 is drained by controlling the distance between the draining cylinders 291 in the auxiliary drying box 29 and the first transmission shaft, the drained water body falls onto the cloth above the first spray head 57 through the water outlet passage 292, excessive drying of a large amount of high-temperature steam sent by the first collision head 57 on the cloth is avoided through a proper water body, and the quality of the cloth is guaranteed.

The connecting piece 30 is provided with a through groove body which is vertically penetrated in the middle, an auxiliary supporting plate 31 which is equal to the connecting piece 30 in height is arranged in the groove body, gaps are arranged between two side surfaces of the auxiliary supporting plate 31 and two inner side surfaces of the connecting piece 30, through holes 33 are arranged on two side surfaces of the auxiliary supporting plate 31, and rubber strips 34 are arranged on the outer edges of the upper end and the lower end of the connecting piece 30. The through-holes 33 extend outward to both side walls of the through-connection member 30. The connecting member 30 is used for connecting the upper and lower dye box bodies 20 and the circulating box body 40, the relative weight of the connecting member 30 is reduced by forming a through groove in the connecting member 30, the auxiliary supporting plate 31 effectively improves the supporting strength, the through hole 33 is formed for reducing the overall strength of the connecting member 30, and the rubber body 34 is used for improving the connecting strength of the connecting member 30 with the upper and lower dye box bodies 20 and the circulating box body 40.

A feeding box 10 is installed at a feeding port of a dye box body 20, one side wall of the feeding box 10 is fixedly connected with the outer side wall of the dye box body 20, a vertical through and corresponding in-out through groove 17 is respectively arranged at the upper part and the lower part of the feeding box 10, a driving main shaft 12 which is hollow and parallel to a horizontal plane is arranged in the feeding box 10, a driving auxiliary shaft 13 is arranged at the adjacent side of the driving main shaft 12, the distance between the driving main shaft 12 and the driving auxiliary shaft 13 is less than 1mm, the gap position between the driving main shaft 12 and the driving auxiliary shaft 13 corresponds to the position of the in-out through groove 17, two ends of the driving main shaft 12 are connected with the inner wall of the feeding box 10 through bearings, a first feeding driving motor 110 which is coaxially connected with the driving main shaft 12 is arranged outside the feeding box 10, an auxiliary pressing plate 14 is arranged at one side of the driving auxiliary shaft 13, a bearing seat which is connected with the driving auxiliary shaft, the mounting base 15 is fixedly arranged on the inner bottom surface of the feeding box 10, and the bottom surface of the auxiliary pressure plate 14 is connected with the inner bottom surface of the feeding box 10 through a second spring 16. Cloth enters the dye box body 20 after passing through the upper and lower inlet and outlet through grooves 17 of the feeding box 10, the cloth is conveyed by adopting conveying wheels and the like in the process of passing through the feeding box 10, the problems that the cloth is directly put into a dye vat by the existing dye equipment to be dyed and the cloth is possibly accumulated and rubbed and the like are avoided, the cloth is conveyed by reducing the driving main shaft 12 and the driving auxiliary shaft 13, and the contact between the cloth and the driving main shaft 12 and the driving auxiliary shaft 13 is favorable for removing fluff, thread ends and the like on the surface of the cloth, so that the cloth surface is bright, clean and attractive, and the cloth is placed in the dyeing process to cause the problems of uneven dyeing or dyeing defects and the like due to the fluff and.

A cylindrical inner cavity is formed in the driving main shaft 12, one side surface of the driving main shaft is in threaded connection with a side cover 121, and a strip-shaped through groove 122 parallel to the axis of the driving main shaft is formed in the axial surface of the driving main shaft 12 in a surrounding mode; fluff, thread ends and the like on the surface of the cloth can enter the cylindrical inner cavity of the driving main shaft 12 through the strip-shaped through groove 122 on the surface of the driving main shaft 12 in the contact process of the surface of the cloth, so that the fluff and the thread ends are collected, and the surface smoothness of the cloth is improved.

The collecting assembly 80 is arranged in the driving main shaft 12, the collecting assembly 80 comprises a rolling shaft body 82 coaxial with the driving main shaft 12, a rolling brush 83 is arranged on the side face of the rolling shaft body 82 in a surrounding mode, two end portions of the rolling shaft body 82 are connected with a rolling ring body 81 through fixed connecting rods 84, the rolling shaft body 82 is arranged at the circle center of the rolling ring body 81, and the diameter of the outer ring of the rolling ring body 81 is smaller than the diameter of the inner cylindrical cavity of the driving main shaft 12. The collecting assembly 80 is placed in a cylindrical inner cavity formed in the driving main shaft 12, and collected fluff, thread ends and the like are collected to be wound on the upper wall surface of the rolling brush 83, and the fluff, the brush and the like can float and move in the driving main shaft 12 in a large amount.

Example 2:

the embodiment further optimizes the scheme on the basis of the embodiment as follows: connect excessive 77 and include a cylinder arch, the cylinder arch is coaxial with first carousel 72, second carousel 75 that rotates, and a coaxial coupling cylinder is gone up to the cylinder arch, sets up the spliced eye of pegging graft with the cylinder on connecting the body of the staff 78, and cylindrical end portion is connected with the spiral cover body for guarantee connect the relative cylinder rotation of the body of the staff 78 but avoid both to break away from.

Example 3:

the embodiment further optimizes the scheme on the basis of the embodiment as follows: an auxiliary driven roller 19 with parallel axes is arranged on the side of the driving main shaft 12, two ends of the auxiliary driven roller 19 are connected with the inner wall of the feeding box 10 through bearings, the distance between the auxiliary driven roller 19 and the axial surface of the driving main shaft 12 is less than 1mm, an auxiliary conveying shaft 18 is further arranged on the bottom surface of the feeding box 10, the axes of the auxiliary conveying shafts 18 are arranged in parallel with the horizontal plane, and two ends of the auxiliary conveying shafts are connected with the bottom surface of the feeding box 10 through connecting rods. The rotation directions of the driving main shaft 12 and the driving auxiliary shaft 13 are relative rotation, the upper surface of the feeding box 10 is provided with an insertion groove, a material sticking plate body 11 is inserted in the insertion groove, and the bottom surface of the material sticking plate body 11 is contacted with the inner bottom surface of the feeding box body 10.

The shaft body spacing described in this case is the axial face spacing, not the axial centerline spacing.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (3)

1. A dyeing apparatus for cloth, comprising: the dyeing box body (20), the bottom surface of the dyeing box body (20) is connected with a circulating box body (40) through a connecting piece (30), dye liquid for dyeing cloth is respectively placed in the dyeing box body (20) and the circulating box body (40), one side of the dyeing box body (20) is connected with the corresponding side surface of the circulating box body (40) through a second transmission pipe body (54), the other side of the dyeing box body is connected with the corresponding side surface of the circulating box body (40) through a first transmission pipe body (51), a first pump body (50) is arranged on the first transmission pipe body (51), a feeding pipe (53) for feeding is connected onto the second transmission pipe body (54), aeration assemblies (60) are respectively arranged in the dyeing box body (20) and the circulating box body (40), each aeration assembly (60) comprises an aeration stone (62) arranged at the inner bottom of the dyeing box body (20) and the inner bottom of the circulating box body (40), the dye box body (20) and the circulating box body (40) are externally provided with first air pumps (61), the first air pumps (61) are connected with an aeration stone (62) through fourth transmission pipe bodies (63), a first screen plate (73) horizontally arranged is arranged above the aeration stone (62), one side of the first screen plate (73) is connected with a disc-shaped first rotating disc (72) through a connecting main rod body (78) and a connecting transition piece (77), the axis of the first rotating disc (72) is parallel to the first screen plate (73), the first rotating disc (72) is driven to rotate by a first driving motor (71), the first driving motor (71) is respectively arranged at the outer sides of the dye box body (20) and the circulating box body (40), the first screen plate (73) is connected with the opposite side edge of the connecting main rod body (78) and is connected with the transition piece (77) through the connecting main rod body (78) and the connecting transition piece (75) and is connected with a second rotating disc (75), the second rotating disc (75) is parallel to the axis of the first rotating disc (72), the second rotating disc (75) is connected with a bearing ring through a connecting rod, the bearing ring is respectively arranged on the inner walls of the dye box body (20) and the circulating box body (40), the upper part of one side of the first screen plate (73) close to the first rotating disc (72) is connected with a second screen plate (74), the second screen plate (74) is obliquely connected with the first screen plate (73), the included angle range is smaller than 90 degrees, the lower part of one side of the first screen plate (73) close to the second rotating disc (75) is connected with a third screen plate (76), the third screen plate (76) is obliquely connected with the first screen plate (73), and the included angle range is smaller than 90 degrees;

the feeding port of the second conveying pipe body (54) is communicated with the bottom of the side face of the dye box body (20), a control valve (52) is arranged at the connecting position, the discharging port of the second conveying pipe body (54) is communicated with the bottom of the side face of the circulating box body (40), the first conveying pipe body (51) is communicated with the bottom of the side face of the dye box body (20), the control valve (52) is arranged at the connecting position, and the horizontal height of the communicating port of the first conveying pipe body (51) and the dye box body (20) is equal to the horizontal height of the communicating pipe body of the second conveying pipe body (54) and the dye box body (20);

divide into dyestuff room (21) and drying chamber (22) by the baffle in dyestuff box (20), drying chamber (22) set up in dyestuff room (21) middle part, still be equipped with first transmission shaft (25) in dyestuff box (20), first transmission shaft (25) set up respectively in dyestuff room (21) and drying chamber (22), the cloth is in dyestuff box (20): firstly, the dyeing is carried out in a dye chamber (21), then the drying treatment is carried out in a drying chamber (22), and the dyed dyeing is carried out in the dye chamber (21) and then is sent out of a dye box body (20), the material inlet and outlet of the drying chamber (22) are respectively arranged on two corresponding side walls at the upper part of the drying chamber (22), the upper part of the dye box body (20) is covered and connected with a first sealing cover body (23), the first sealing cover body (23) is connected with a fourth transmission auxiliary pipe body (24), the drying chamber (22) is communicated with the upper part of the dye chamber (21) through a fourth transmission auxiliary pipe body (24), a first spray head (57) is arranged at the bottom in the drying chamber (22), the first spray head (57) is connected with a third transmission pipe body (56) used for conveying steam, the third conveying pipe body (56) is connected with a steam generator (55), and the steam generator (55) is arranged outside the dye box body (20);

two sides of the inner wall of the drying chamber (22) are respectively connected with a guide bent plate (27), one end of each guide bent plate (27) is fixedly connected with the inner wall of the drying chamber (22), the other end of each guide bent plate is fixedly connected with the inner wall of the drying chamber (22) through a first spring (28), the two guide bent plates (27) are bent towards opposite surfaces, a first conveying shaft (25) is arranged on the side of a material inlet and a material outlet in the drying chamber (22), and a first conveying shaft (25) is arranged above a first spray head (57) at the bottom of the drying chamber, so that cloth enters from the material inlet of the drying chamber (22), passes through the upper part of the first spray head (57) and then is conveyed out from the material outlet of;

the dye box is characterized in that a feeding box (10) is installed at a feeding port of the dye box body (20), one side wall of the feeding box (10) is fixedly connected with the outer side wall of the dye box body (20), vertical through and corresponding in-out through grooves (17) are respectively formed in the feeding box (10) from top to bottom, a driving main shaft (12) parallel to the horizontal plane is arranged in the feeding box (10) in a hollow mode, a driving auxiliary shaft (13) is arranged on the adjacent side of the driving main shaft (12), the distance between the driving main shaft (12) and the driving auxiliary shaft (13) is smaller than 1mm, the gap position between the driving main shaft (12) and the driving auxiliary shaft (13) corresponds to the position of the in-out through grooves (17), two ends of the driving main shaft (12) are connected with the inner wall of the feeding box (10) through bearings, a first feeding driving motor (110) coaxially connected with, the feeding device is characterized in that a bearing seat connected with a driving auxiliary shaft (13) is arranged on the auxiliary pressing plate (14), a first feeding driving motor (110) coaxially connected with the driving auxiliary shaft (13) is arranged outside the feeding box (10), two sides of the bottom of the auxiliary pressing plate (14) are connected with a mounting base (15) through pressing plate rotating shafts (111), bearings are arranged at the joint of the mounting base (15), the mounting base (15) is fixedly arranged on the inner bottom surface of the feeding box (10), and the bottom surface of the auxiliary pressing plate (14) is connected with the inner bottom surface of the feeding box (10) through a second spring (16).

2. A dyeing apparatus for cloth according to claim 1, characterized in that: the utility model discloses a drying chamber, including drying chamber (22), waterlogging caused by excessive rainfall cylinder (291) that the arc was arranged in supplementary drying chamber (29), drying chamber (22) inboard is located in supplementary drying chamber (29), waterlogging caused by excessive rainfall cylinder (291) and cloth interval are less than 2mm, discharging channel (293) and exhalant canal (292) have still been seted up respectively in supplementary drying chamber (29), discharging channel (293) are seted up perpendicularly and are assisted drying chamber (29) bottom, exhalant canal (292) are seted up in supplementary drying chamber (29) side, the cloth is gone into supplementary drying chamber (29) and is seen off from exhalant canal (293) again after dry pan feeding mouth (26).

3. A dyeing apparatus for cloth according to claim 1, characterized in that: a cylindrical inner cavity is formed in the driving main shaft (12), a side cover (121) is installed on one side face of the driving main shaft in a threaded connection mode, and a strip-shaped through groove (122) parallel to the axis of the driving main shaft (12) is formed in the shaft surface in a surrounding mode;

the collecting assembly (80) is arranged in the driving main shaft (12), the collecting assembly (80) comprises a rolling shaft body (82) coaxial with the driving main shaft (12), rolling brushes (83) are arranged on the side face of the rolling shaft body (82) in a surrounding mode, two ends of the rolling shaft body (82) are connected with rolling ring bodies (81) through fixed connecting rods (84), the rolling shaft body (82) is arranged at the circle center of the rolling ring bodies (81), and the diameter of the outer ring of each rolling ring body (81) is smaller than the diameter of the inner cavity of the cylinder of the driving main shaft (12).

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