阅读说明：本技术 一种纺织面料用上色设备 (Coloring equipment for textile fabric ) 是由 张鹏 于 2021-01-20 设计创作，主要内容包括：本发明公开了一种纺织面料用上色设备,其结构包括支撑座、染色桶、控制台、输液管,染色桶焊接在支撑座内部,控制台设置在支撑座右侧面,由于面料堆积在染色剂顶部,导致染色剂受到搅拌杆的搅拌力减小,并且与液体的混合不均匀,通过扩散机构的分散管随着液体的流动摆动,且通过伸缩管对染色剂扩散,有利于液体均匀与染色剂混合,减少面料不同部位染色出现差异现象,进一步提高面料的上色质量,由于面料直接贴靠在分散块顶部时,导致染色剂直接喷射在面料表面,染色剂直接被面料吸收,通过分散块顶部的推杆对面料支撑,使得分散块与面料之间存在一定的距离,减少染色剂直接喷射在面料表面,能够保持面料不同部位染色均匀。(The invention discloses a coloring device for textile fabric, which structurally comprises a supporting seat, a dyeing barrel, a console and a liquid conveying pipe, wherein the dyeing barrel is welded inside the supporting seat, the console is arranged on the right side surface of the supporting seat, the dyeing agent is reduced by the stirring force of a stirring rod due to the fact that the fabric is piled on the top of the dyeing agent and is not uniformly mixed with liquid, a dispersion pipe of a diffusion mechanism swings along with the flowing of the liquid, the liquid is diffused by a telescopic pipe to be favorably and uniformly mixed with the dyeing agent, the phenomenon of difference in dyeing of different parts of the fabric is reduced, the coloring quality of the fabric is further improved, the dyeing agent is directly sprayed on the surface of the fabric when the fabric is directly attached to the top of a dispersion block and is directly absorbed by the fabric, the fabric is supported by a push rod on the top of the dispersion block, and a certain distance exists between the, the direct spraying of the coloring agent on the surface of the fabric is reduced, and the dyeing uniformity of different parts of the fabric can be kept.)

1. The utility model provides a textile fabric is with equipment of painting, its structure includes supporting seat (1), dyeing bucket (2), control cabinet (3), transfer line (4), the welding of dyeing bucket (2) is inside supporting seat (1), control cabinet (3) set up at supporting seat (1) right flank, transfer line (4) are installed in supporting seat (1) right flank, and with dyeing bucket (2) right side inside down the position be linked together its characterized in that:

dyeing bucket (2) are equipped with dyeing chamber (21), stop door (22), puddler (23), diffusion mechanism (24), connecting pipe (25), dyeing chamber (21) are located dyeing bucket (2) inside, stop door (22) hinged joint at dyeing bucket (2) left side middle part, puddler (23) set up middle part in dyeing chamber (21), bottom in dyeing chamber (21) is installed in diffusion mechanism (24), connecting pipe (25) are connected between transfer line (4) and diffusion mechanism (24).

2. A colouring apparatus for textile fabrics according to claim 1, characterised in that: diffusion mechanism (24) are equipped with drainage groove (a1), cooperation groove (a2), dispersion pipe (a3), cooperation piece (a4), drainage groove (a1) run through diffusion mechanism (24) in between lower position both sides surface and inside, cooperation groove (a2) sets up top in diffusion mechanism (24), and link up with drainage groove (a1) mutually, dispersion pipe (a3) cover is inside cooperation groove (a2), and the top runs through diffusion mechanism (24) upper surface, cooperation piece (a4) cover is between dispersion pipe (a3) and diffusion mechanism (24) top.

3. A colouring apparatus for textile fabrics according to claim 2, characterised in that: the dispersion pipe (a3) is provided with a matching ring (s1), a telescopic pipe (s2), a dispersion block (s3), an accumulation cavity (s4), an opening (s5) and a blocking ring (s6), the matching ring (s1) is located below the dispersion pipe (a3), the telescopic pipe (s2) is installed at the center of the top of the matching ring (s1), the dispersion block (s3) is fixed at the top end of the telescopic pipe (s2), the accumulation cavity (s4) is located inside the matching ring (s1), the opening (s5) penetrates through the middle-lower position surface of the matching ring (s1) and is communicated with the accumulation cavity (s4), and the blocking ring (s6) is arranged at the inner top of the accumulation cavity (s 4).

4. A colouring apparatus for textile fabrics according to claim 3, characterised in that: the stop ring (s6) is provided with a support shaft (d1), a ring body (d2), a spray hole (d3), a clamping plate (d4), a connecting shaft (d5) and a limiting rod (d6), the support shaft (d1) is located in the middle of the stop ring (s6), the ring body (d2) is sleeved outside the support shaft (d1), the spray hole (d3) penetrates through the lower surface of the ring body (d2), the clamping plate (d4) is connected through the connecting shaft (d5) and installed at the top of the ring body (d2), and the limiting rod (d6) is fixed between the bottom surface of the clamping plate (d4) and the inner wall of the ring body (d 2).

5. A colouring apparatus for textile fabrics according to claim 3, characterised in that: the dispersing block (s3) is provided with a clamping groove (r1), a push rod (r2), an elastic block (r3), a liquid outlet (r4), a blocking block (r5) and a telescopic strip (r6), the clamping groove (r1) is arranged at the inner top of the dispersing block (s3), the push rod (r2) is sleeved inside the clamping groove (r1), the elastic block (r3) is fixed at the inner bottom of the clamping groove (r1) and movably matched with the bottom end of the push rod (r2), the liquid outlet (r4) penetrates through the upper surface and the lower surface of the dispersing block (s3), the blocking block (r5) is located inside the liquid outlet (r4), and the telescopic strip (r6) is connected between the bottom surface of the blocking block (r5) and the inner wall of the liquid outlet (r 4).

6. A dyeing apparatus for textile fabrics according to claim 5, characterized in that: block (r5) be equipped with block (t1), connecting axle (t2), telescopic link (t3), push pedal (t4), block (t1) are located block (r5) both sides, connecting axle (t2) link up to be installed between block (t1) top phase connection position, telescopic link (t3) clamp is at block (t1) inboard middle part, push pedal (t4) and block (t1) both ends bottom are even as an organic whole.

Technical Field

The invention belongs to the field of textile fabrics, and particularly relates to a coloring device for textile fabrics.

Background

After the textile fabric is processed, the dyeing machine is adopted to carry out coloring treatment on the fabric, the fabric is placed into a dyeing cavity of the dyeing machine, a dyeing agent and liquid are respectively introduced into the dyeing cavity through a liquid conveying pipe, a stirring plate drives the fabric to stir, and the dyeing agent and the liquid uniformly dye the fabric; adopt dyeing machine to dye textile fabric among the prior art, because the surface fabric absorbs water and gravity increases to deposit to dyeing chamber bottom, and the interface of transfer line is seted up in dyeing machine's right side bottom, when the dyeing agent lets in the dyeing chamber, the surface fabric is piled up at the dyeing agent top, leads to the dyeing agent to receive the stirring power of puddler and reduces to mix inhomogeneous with liquid, cause the dyeing agent content in the liquid not enough, cause the different position of surface fabric to dye and appear the difference phenomenon, further reduce the quality of coloring of surface fabric.

Disclosure of Invention

In order to solve the problems that when the dyeing machine is used for dyeing textile fabrics in the prior art, the gravity of the fabric absorbs water and the gravity of the fabric is increased and precipitates to the bottom of a dyeing cavity, a connector of a liquid conveying pipe is arranged at the bottom of the right side of the dyeing machine, when a dyeing agent is introduced into the dyeing cavity, the fabric is stacked on the top of the dyeing agent, so that the stirring force of a stirring rod on the dyeing agent is reduced, the dyeing agent is not uniformly mixed with liquid, the content of the dyeing agent in the liquid is insufficient, the dyeing of different parts of the fabric is different, and the dyeing quality of the fabric is further reduced, the invention provides dyeing equipment for the.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a textile fabric is with equipment of painting, its structure includes supporting seat, dyeing bucket, control cabinet, transfer line, the welding of dyeing bucket is inside the supporting seat, the control cabinet sets up at the supporting seat right flank, the transfer line is installed in the supporting seat right flank, and is linked together with the inside middle and lower position in dyeing bucket right side.

The dyeing barrel is provided with a dyeing cavity, a stop gate, a stirring rod, a diffusion mechanism and a connecting pipe, the dyeing cavity is located inside the dyeing barrel, the stop gate is hinged to the middle of the left side of the dyeing barrel, the stirring rod is arranged in the middle of the dyeing cavity, the diffusion mechanism is arranged at the bottom of the dyeing cavity, and the connecting pipe is connected between a liquid conveying pipe and the diffusion mechanism.

As a further improvement of the invention, the diffusion mechanism is provided with three drainage grooves, matching grooves, dispersing pipes and matching blocks, the drainage grooves penetrate through the surfaces of two sides of the middle-lower position of the diffusion mechanism and between the two sides of the middle-lower position of the diffusion mechanism, the matching grooves are formed in the top of the diffusion mechanism and are communicated with the drainage grooves, the dispersing pipes are sleeved in the matching grooves, the top ends of the dispersing pipes penetrate through the upper surface of the diffusion mechanism, the matching blocks are sleeved between the dispersing pipes and the top of the diffusion mechanism, the matching blocks are made of spring materials, and the number of the dispersing pipes is three.

As a further improvement of the invention, the dispersing pipe is provided with a matching ring, a telescopic pipe, a dispersing block, an accumulation cavity, an opening and a blocking ring, the matching ring is positioned below the dispersing pipe, the telescopic pipe is arranged at the center of the top of the matching ring, the dispersing block is fixed at the top end of the telescopic pipe, the accumulation cavity is positioned inside the matching ring, the opening penetrates through the lower surface of the matching ring and is communicated with the accumulation cavity, the blocking ring is arranged at the top of the accumulation cavity, the telescopic pipe is in a rubber pipe shape, and the diameter of the opening is gradually reduced from outside to inside.

The blocking ring is further improved by comprising a support shaft, a ring body, spray holes, two clamping plates, a connecting shaft and a limiting rod, wherein the support shaft is positioned in the middle of the blocking ring, the ring body is sleeved outside the support shaft, the spray holes penetrate through the lower surface of the ring body, the clamping plates are connected and installed at the top of the ring body through the connecting shaft, the limiting rod is fixed between the bottom surface of the clamping plate and the inner wall of the ring body, the center of the top of the ring body is smooth, the clamping plates are arranged at the center of the top in the clamping plates, the bottom surfaces of the clamping plates are uneven surfaces, and the interior of the ring body is of.

As a further improvement of the invention, the dispersing block is provided with a clamping groove, a push rod, an elastic block, a liquid outlet, a blocking block and a telescopic strip, the clamping groove is formed in the top of the dispersing block, the push rod is sleeved in the clamping groove, the elastic block is fixed at the bottom in the clamping groove and is movably matched with the bottom end of the push rod, the liquid outlet penetrates through the upper surface and the lower surface of the dispersing block, the blocking block is positioned in the liquid outlet, the telescopic strip is connected between the bottom surface of the blocking block and the inner wall of the liquid outlet, and the diameter of the middle.

As a further improvement of the invention, the blocking block is provided with block bodies, connecting shafts, telescopic rods and push pieces, the block bodies are positioned on two sides of the blocking block, the connecting shafts are connected and installed between the connecting positions of the top ends of the block bodies, the telescopic rods are clamped in the middle of the inner side of the block bodies, the push pieces and the bottoms of two ends of the block bodies are connected into a whole, and the outer walls of the push pieces are rough surfaces.

Advantageous effects

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

1. because the surface fabric piles up at the coloring agent top, lead to the coloring agent to receive the stirring power of puddler and reduce to mixing inhomogeneous with liquid, dispersion pipe through diffusion mechanism is along with the flow swing of liquid, and through flexible pipe to the coloring agent diffusion, is favorable to liquid even and coloring agent to mix, reduces the different positions of surface fabric and dyes the phenomenon of difference appearance, further improves the quality of coloring of surface fabric.

2. Because the surface fabric directly leans on when scattering the piece top, leads to the direct injection of dyeing agent on the surface fabric, the dyeing agent is directly absorbed by the surface fabric, supports the surface fabric through the push rod at dispersion piece top for there is certain distance between dispersion piece and the surface fabric, reduces the direct injection of dyeing agent on the surface fabric, can keep the surface fabric different positions dyeing even.

Drawings

Fig. 1 is a schematic structural view of a coloring apparatus for textile fabric according to the present invention.

FIG. 2 is a schematic top view of a dyeing vessel according to the present invention.

Fig. 3 is a front sectional structural schematic view of a diffusion mechanism according to the present invention.

FIG. 4 is a front sectional view of a dispersion tube according to the present invention.

FIG. 5 is a schematic front sectional view of a dispersion block according to the present invention.

FIG. 6 is a front cross-sectional structural schematic view of a dispersion block of the present invention.

Fig. 7 is a front view of a barrier according to the present invention.

In the figure: supporting seat-1, dyeing barrel-2, console-3, infusion tube-4, dyeing cavity-21, blocking door-22, stirring rod-23, diffusion mechanism-24, connecting tube-25, drainage groove-a 1, matching groove-a 2, dispersing tube-a 3, matching block-a 4, matching ring-s 1, telescopic tube-s 2, dispersing block-s 3, accumulation cavity-s 4, opening-s 5, blocking ring-s 6, supporting shaft-d 1, ring-d 2, spray hole-d 3, snap-d 4, connecting shaft-d 5, limiting rod-d 6, snap groove-r 1, push rod-r 2, elastic block-r 3, liquid outlet-r 4, blocking block-r 5, telescopic strip-r 6, block-t 1, connecting shaft-t 2 connecting shaft, An expansion link-t 3 and a push piece-t 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a coloring device for textile fabric, which structurally comprises a supporting seat 1, a dyeing barrel 2, a console 3 and a liquid conveying pipe 4, wherein the dyeing barrel 2 is welded inside the supporting seat 1, the console 3 is arranged on the right side surface of the supporting seat 1, and the liquid conveying pipe 4 is arranged on the right side surface of the supporting seat 1 and communicated with the middle-lower position inside the right side of the dyeing barrel 2.

Dyeing bucket 2 is equipped with dyeing chamber 21, blocks door 22, puddler 23, diffusion mechanism 24, connecting pipe 25, dyeing chamber 21 is located dyeing bucket 2 insidely, block door 22 hinged joint at 2 left sides middle parts of dyeing bucket, puddler 23 sets up middle part in dyeing chamber 21, diffusion mechanism 24 installs the bottom in dyeing chamber 21, connecting pipe 25 is connected between transfer line 4 and diffusion mechanism 24.

The diffusion mechanism 24 is provided with a drainage groove a1, a matching groove a2, a dispersing pipe a3 and a matching block a4, the drainage groove a1 penetrates through the middle-lower position of the diffusion mechanism 24 between the two side surfaces and the inside, the matching groove a2 is arranged at the top of the diffusion mechanism 24 and communicated with the drainage groove a1, the dispersing pipe a3 is sleeved inside the matching groove a2, the top end of the dispersing pipe a1 penetrates through the upper surface of the diffusion mechanism 24, the matching block a4 is sleeved between the dispersing pipe a3 and the top of the diffusion mechanism 24, the matching block a4 is made of a spring material and has elasticity, the matching block a4 is favorable for rebounding and resetting after being deformed by the pushing force of the dispersing pipe a3 to push and reset the dispersing pipe a3, the dispersing pipe a3 is provided with three parts, the dispersing area of the disperse dye of the disperse agent pipe a3 can be increased, and the dye can be uniformly.

The dispersing pipe a3 is provided with a matching ring s1, a telescopic pipe s2, a dispersing block s3, an accumulation cavity s4, an opening s5 and a blocking ring s6, the matching ring s1 is located below the dispersing pipe a3, the telescopic pipe s2 is installed at the center of the top of the matching ring s1, the dispersing block s3 is fixed at the top end of the telescopic pipe s2, the accumulation cavity s4 is located inside the matching ring s1, the opening s5 penetrates through the middle lower position surface of the matching ring s1 and is communicated with the accumulation cavity s4, the blocking ring s6 is arranged at the top of the accumulation cavity s4, the telescopic pipe s2 is tubular and made of rubber and has elasticity, the telescopic pipe s2 can swing continuously along with the pushing force of liquid, the diameter of the opening s5 is gradually reduced from outside to inside, the impact force of the coloring agent can be increased, and the coloring agent can be dispersed along the blocking ring s 6.

The blocking ring s6 is provided with a support shaft d1, a ring body d2, a spray hole d3, a clamping plate d4, an engaging shaft d5 and a limiting rod d6, the support shaft d1 is located in the middle of the blocking ring s6, the ring body d2 is sleeved outside the support shaft d1, the spray hole d3 penetrates through the lower surface of the ring body d2, the clamping plate d2 is connected and mounted at the top of the ring body d2 through the engaging shaft d2, the limiting rod d2 is fixed between the bottom surface of the clamping plate d2 and the inner wall of the ring body d2, the center of the top of the ring body d2 is unblocked, the clamping plate d2 is arranged at the center of the top of the clamping plate d2, two clamping plate d2 are arranged to facilitate the blocking of liquid by the clamping plate d2 and reduce the liquid introduced along the telescopic tube s2, the bottom surface of the clamping plate d2 is uneven, the bottom surface of the clamping plate d2 can increase the stress area of the bottom surface of the, the coloring agent can conveniently pass through the gap between the clamping plates d4, the interior of the ring body d2 is of a hollow structure, drainage of the coloring agent is facilitated, and the coloring agent entering from the spraying hole d3 can flow and diffuse along the interior of the ring body d 2.

The specific use mode and function of the embodiment are as follows:

in the invention, a barrier door 22 is opened to place the textile fabric into a dyeing cavity 21 of a dyeing barrel 2, liquid and a coloring agent are introduced into the dyeing cavity 21 through a liquid conveying pipe 4, the coloring agent flows to a drainage groove a1 of a diffusion mechanism 24 along a connecting pipe 25, the coloring agent enters an accumulation cavity s4 through an opening s5 at the bottom of a matching ring s1 at the bottom of a dispersion pipe a3, the coloring agent is introduced into a ring d2 along a spray hole d3 of a barrier ring s6 along with the increase of the coloring agent in the accumulation cavity s4, the card d4 swings upwards by the thrust of the coloring agent by taking a connecting shaft d5 as a fulcrum, so that the connecting position of the card d4 is separated, the coloring agent is sprayed to an s2 along a gap between the card d4, the dispersion block s3 is used for dispersing and mixing the coloring agent with the liquid, the control console 3 is started to operate, a stirring rod 23 rotates, so that the liquid in the dyeing cavity 21 is mixed with the flowing of the coloring, dispersion pipe a3 receives the thrust of liquid to make cooperation ring s1 roll in cooperation groove a2, make dispersion pipe a3 constantly swing, it piles up at dispersion piece s3 top to reduce the surface fabric, and extension pipe s2 constantly deforms shrink and expand, make the coloring agent along with extension pipe s2 swing diffusion, when liquid lets in along extension pipe s2, cardboard d4 receives the thrust of liquid and swings down, and spacing through gag lever post d6, cardboard d4 contacts, block to liquid, it enters into cooperation ring s1 to reduce liquid, dispersion pipe a3 through diffusion mechanism 24 swings along with the flow of liquid, and spread to the coloring agent through extension pipe s2, be favorable to liquid evenly to mix with the coloring agent, reduce the difference phenomenon appears in the different position dyeing of surface fabric, further improve the coloring quality of surface fabric.

Example 2:

as shown in fig. 6 to 7:

the dispersing block s3 is provided with a clamping groove r1, a push rod r2, an elastic block r3, a liquid outlet r4, a blocking block r5 and a telescopic strip r6, the clamping groove r1 is arranged at the inner top of the dispersing block s3, the push rod r2 is sleeved inside the clamping groove r1, the elastic block r3 is fixed at the inner bottom of the clamping groove r1 and movably matched with the bottom end of the push rod r2, the liquid outlet r4 penetrates through the upper surface and the lower surface of the dispersing block s3, the blocking block r3 is positioned inside the liquid outlet r3, the telescopic strip r3 is connected between the bottom surface of the blocking block r3 and the inner wall of the liquid outlet r3, the diameter of the middle of the liquid outlet r3 is small, so that the inner wall of the liquid outlet r3 is movably matched with the bottom surface of the blocking block r3, the blocking block r3 can limit the blocking block r3, and the blocking of.

The stopping block r5 is provided with a block body t1, a connecting shaft t2, an expansion link t3 and a push piece t4, the block body t1 is located on two sides of the stopping block r5, the connecting shaft t2 is connected and installed between connecting positions of the top end of the block body t1, the expansion link t3 is clamped in the middle of the inner side of the block body t1, the push piece t4 is connected with the bottoms of two ends of the block body t1 into a whole, the outer wall of the push piece t4 is a rough surface, friction between the push piece t4 and the inner wall of the liquid outlet r4 can be increased, textile waste on the inner wall of the liquid outlet 4 is uniformly removed, the liquid outlet r4 is kept smooth, and coloring agents are accelerated.

The specific use mode and function of the embodiment are as follows:

in the invention, a bullet block r3 in a dispersion block s3 expands to push a push rod r2 to the outside of a clamping groove r1, so that a push rod r2 pushes the fabric on the top of the dispersion block s3 upwards, a coloring agent is introduced into a liquid outlet r4, a blocking block r5 moves upwards under the thrust of the coloring agent and pulls a telescopic strip r6 to expand, when the blocking block r5 leaves the inside of the liquid outlet r4, the coloring agent is sprayed, when the thrust of the coloring agent is reduced, the telescopic strip r6 pulls the blocking block r5 to reset, a telescopic rod t3 pushes and expands a block t1 by taking a connecting shaft t2 as a fulcrum, so that a push sheet t4 is in contact with the inner wall of the liquid outlet r4, textile fabric waste on the inner wall of the liquid outlet r4 is removed through the push sheet t4, the liquid outlet r4 is kept smooth, the spraying speed of the coloring agent is accelerated, the fabric is supported by the push rod r2 on the top of the dispersion block s3, so that, can keep the dyeing of different parts of the fabric uniform.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.