CN109972326B - Yarn dyeing device - Google Patents

Abstract

The invention discloses a yarn dyeing device which has small bath ratio and short dyeing time and can avoid yarn disorder, yarn breakage, bar printing and uneven stripe feeling, comprising: frame and circulating pump are equipped with heat exchanger, dyeing jar and buffer tank in the frame, and the entry of circulating pump links to each other with heat exchanger's delivery outlet, and the export of circulating pump links to each other with dyeing jar, buffer tank through the output pipeline, and the output pipeline includes: the dyeing device comprises an output main pipe and an output shunt pipe which connects a dyeing cylinder and a buffer tank with the output main pipe, wherein a liquid inlet pipe is arranged on the output main pipe, and the top of the output main pipe is higher than the buffer tank and is provided with an overflow pipe; the dyeing jar includes: the dyeing device comprises a dyeing cylinder body and a flip cover, wherein a yarn hanging pipe is arranged in the dyeing cylinder body, an injection port is arranged on the yarn hanging pipe, and a plugging sealing mechanism matched with the yarn hanging pipe is arranged on the flip cover; a reflux passage is arranged among the buffer tank, the dyeing cylinder and the heat exchanger; the heat exchanger is provided with a heating device. The yarn dyeing device described above can be applied to various yarns.

Description

Yarn dyeing device

Technical Field

The invention relates to a dyeing device used in dyeing and finishing industry, in particular to a yarn dyeing device.

Background

At present, when yarn is dyed, the three modes are cabinet cylinder dyeing, cone yarn cylinder dyeing and jet cylinder dyeing respectively. All three of these approaches have drawbacks: the dyeing bath for cabinet vat dyeing is relatively large, usually about 1:20, and usually only yarns with poor elasticity such as bulks and the like can be dyed, and the dyed yarns are easy to disorder, break and fuzz; because the cone yarn is required to be converted into hank yarn for dyeing, the hank yarn is required to be converted into cone yarn after dyeing, the middle link is increased, so that the production cost is increased, the production efficiency is reduced, in addition, the dyed yarn has a bar print, the phenomenon of messy yarn and broken yarn is inevitably generated in the process of converting the cone yarn into hank yarn and then converting the hank yarn into cone yarn, the joint of the yarn is greatly increased, and the broken hole is easily formed in the subsequent weaving process. The yarn dyeing of the bobbin yarn cylinder has great limitation, and only cotton yarn and solid acrylic yarn can be dyed; moreover, the yarn dyed by the cylinder is poor in bulkiness and softness, and color difference between the inner layer and the outer layer can exist for sensitive colors such as army green, coffee and the like. The disadvantage of yarn dyeing by the jet cylinder is between the cabinet cylinder and the yarn cylinder, and the dyed yarn has the disadvantages of poor hand feeling, insufficient stripe feeling, easy disorder and easy breakage of the yarn and the like.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: to provide a yarn dyeing apparatus which is small in bath ratio, short in dyeing time, and capable of avoiding yarn disorder, yarn breakage, rod printing and uneven stripe feeling.

In order to solve the technical problems, the invention adopts the following technical scheme: a yarn dyeing device, comprising: the dyeing device comprises a frame and a circulating pump, wherein a heat exchanger, at least one dyeing cylinder and a buffer tank which are arranged along the horizontal direction are sequentially arranged on the frame from bottom to top, an inlet of the circulating pump is connected with an output port of the heat exchanger through an input connecting pipe, an outlet of the circulating pump is connected with the dyeing cylinder and the buffer tank through an output pipeline, and the output pipeline comprises: the dyeing device comprises an output main pipe and an output shunt pipe which connects a dyeing cylinder and a buffer tank with the output main pipe, wherein a liquid inlet pipe is arranged on the output main pipe, and the top of the output main pipe is higher than the buffer tank and is provided with an overflow pipe in a penetrating way; the specific structure of the dyeing cylinder comprises: the dyeing device comprises a dyeing cylinder body with one open end and a flip cover arranged on the opening of the dyeing cylinder body, wherein a flip cover locking device is arranged between the flip cover and the dyeing cylinder body, a yarn hanging pipe arranged along the horizontal direction is arranged in the dyeing cylinder body, one end of the yarn hanging pipe is arranged at the corresponding end of the dyeing cylinder body and is communicated with a corresponding output shunt pipe, an injection section corresponding to the yarn hanging position one by one is arranged on the yarn hanging pipe, a plurality of injection holes are longitudinally arranged on the injection section of the yarn hanging pipe, each injection hole comprises at least two injection holes arranged along the circumferential direction, a plugging sealing mechanism matched with the yarn hanging pipe is arranged on the flip cover, a backflow inlet and a backflow outlet are respectively arranged at the top and the bottom of one side of the dyeing cylinder body, which is close to the flip cover, the buffer tank on set up with the backward flow leading-in mouth that is located the backward flow leading-in mouth on the dyeing jar of its below one-to-one, heat exchanger on set up with the backward flow leading-in mouth that is located the backward flow leading-in mouth on the dyeing jar of its top one-to-one, at least one pressure release mouth has still been seted up at the top of buffer tank, is provided with the relief valve on the pressure release mouth, the backward flow leading-in mouth of buffer tank is linked together with the backward flow leading-in mouth that is located the dyeing jar of its below, between the adjacent dyeing jar, the backward flow leading-in mouth that is located the dyeing jar of top is linked together with the backward flow leading-in mouth that is located the dyeing jar of below, the backward flow leading-in mouth that is located the dyeing jar of below is linked together with the backward flow leading-in mouth that is located on the heat exchanger.

As a preferable mode, in the yarn dyeing device, the specific structure of the plugging sealing mechanism comprises: the plugging installation seat is arranged on the inner wall of the flip cover, and plugging pads corresponding to the corresponding ends of the yarn hanging tubes are arranged in the plugging installation seat.

In one preferred embodiment, in the yarn dyeing device, the plugging pad is made of a polymer material.

In one preferred embodiment, in the yarn dyeing device, the plugging pad is made of nylon or rubber.

As a preferable mode, in the yarn dyeing device, the output shunt tube on the dyeing cylinder is mounted in the following manner: the yarn hanging tube is arranged on the dyeing cylinder body through the access arrangement tube, the outer diameter of the access arrangement tube is larger than that of the yarn hanging tube, a yarn hanging limit step is formed between the yarn hanging tube and the access arrangement tube, the output shunt tube is arranged in the access arrangement tube in a penetrating mode, and at least one sealing ring and an opening elastic ring for positioning are arranged between the output shunt tube and the access arrangement tube.

As a preferred aspect, in the yarn dyeing apparatus, the specific structure of the heat exchanger includes: the heat exchange device comprises a heat exchange shell, a spiral coil arranged in the heat exchange shell and a pair of steam pipes penetrating through the heat exchange shell, wherein two ports of the spiral coil are respectively connected with the corresponding steam pipes.

In one preferable mode, in the yarn dyeing device, a steam inlet control valve is connected in series to a pipeline serving as a steam inlet pipe, and a drain valve is connected in series to a pipeline serving as a steam return pipe.

In one preferable scheme, in the yarn dyeing device, the liquid inlet pipe penetrates through the top of the output main pipe, and the liquid inlet pipe and the overflow pipe are respectively connected with a liquid inlet control valve and an overflow control valve in series.

As a preferred embodiment, in the yarn dyeing device, a specific structure of the flip locking device includes: the dyeing cylinder body is provided with a locking screw hole matched with the locking screw hole.

In one preferable mode, in the yarn dyeing device, a handle which opens towards two wings is arranged at the tail of the locking bolt.

The beneficial effects of the invention are as follows: the dyeing bath ratio of the novel yarn dyeing device of the utility model can be controlled between 1:8-11, and compared with the traditional cabinet cylinder dyeing, the dyeing bath ratio can save water by about 50%; the dyed yarn has good bulkiness and hand feeling and is not easy to be stained; in addition, because the cone yarn is directly hung on the yarn hanging tube during dyeing, and is not required to be converted into hank yarn, the intermediate link is omitted, the production efficiency is improved, unnecessary yarn loss caused by the intermediate link is avoided, the defects of more broken ends and more joints of hank yarn dyed yarn are overcome, and messy yarn, broken yarn and bar printing are avoided; in addition, the yarn hanging mode ensures that the cone yarn is in a natural winding hanging state (similar to the yarn hanging state of hank dyeing), the color pattern phenomenon is not easy to cause during dyeing, the stripe of the yarn is uniform, and the dyeing quality is greatly improved, so that the weaving speed can be improved during the subsequent weaving, the broken holes caused by joints are overcome, and the quality of the fabric is improved.

In summary, the yarn dyeing device disclosed by the invention combines all the advantages of bulk of cabinet-cylinder dyed yarns, small bath ratio of cylinder-cylinder dyed yarns and difficulty in dyeing by a jet cylinder, and a novel yarn dyeing mode is initiated.

Drawings

Fig. 1 is a schematic structural view of a yarn dyeing apparatus according to the present invention.

Fig. 2 is an enlarged schematic view of the portion a in fig. 1.

Fig. 3 is an enlarged schematic view of the portion B in fig. 1.

Fig. 4 is a schematic structural view of the split elastic ring according to the present invention.

The reference numerals in fig. 1 to 4 are: 1. the heat exchanger, 10, the heat exchange shell, 11, the backflow inlet, 13, the steam inlet pipe, 131, the steam inlet control valve, 14, the backflow pipe, 141, the drain valve, 2, the circulating pump, 21, the input connecting pipe, 3, the output main pipe, 31, the output shunt pipe for the dyeing tank, 311, the annular setting groove, 32, the output shunt pipe for the buffer tank, 33, the liquid inlet pipe, 331, the liquid inlet control valve, 34, the overflow pipe, 341, the overflow control valve, 4, the dyeing tank, 40, the dyeing cylinder, 401, the backflow inlet, 402, the backflow outlet, 403, the rear cover, 41, the flip cover, 411, the plugging mounting seat, 412, the nylon plugging pad, 413, the locking bolt, 414, the handle, 43, the hanging pipe, 431, the conical part, 432, the injection hole, 433, the hanging yarn limit step, 44, the access setting pipe, 441, the annular positioning groove, 45, the sealing ring, 46, the opening elastic ring, 6, the buffer tank, 61, the backflow outlet, 62, the pressure relief valve, 71, the first backflow pipe, 72, the second backflow connecting pipe, 73, the third backflow connecting pipe, 8 and the yarn drum.

Detailed Description

Specific embodiments of a yarn dyeing apparatus according to the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, a yarn dyeing apparatus according to the present invention includes: frame (belongs to the usual technique in the art, not shown in the figure) and circulating pump 2, set gradually heat exchanger 1, two dyeing jar 4 and buffer tank 6 (the quantity of dyeing jar 4 can be according to actual conditions) that arrange along the horizontal direction from bottom to top in the frame, the concrete structure of heat exchanger 1 includes: a heat exchange shell 10, a spiral coil (which belongs to the conventional technology in the field and is not shown in the figure) arranged in the heat exchange shell 10, and a pair of steam pipes penetrating through the heat exchange shell 10, wherein a steam inlet control valve 131 is arranged on a pipeline serving as a steam inlet pipe 13 in series, a drain valve 141 is arranged on a pipeline serving as a steam return pipe 14 in series, and two ports of the spiral coil are respectively connected with the steam inlet pipe 13 and the steam return pipe 15; the inlet of the circulating pump 2 is connected with the output port of the heat exchanger 1 through an input connecting pipe 21, the outlet of the circulating pump 2 is connected with the dyeing cylinder 4 and the buffer tank 6 through an output pipeline, and the output pipeline comprises: an output manifold 3, two output shunt tubes 31 for dyeing cylinders respectively connecting two dyeing cylinders 4 with the output manifold 3, and an output shunt tube 32 for buffer tanks respectively connecting the buffer tank 6 with the output manifold 3, wherein the specific structure of the dyeing cylinder 4 comprises: the dyeing device comprises a dyeing cylinder body 40 with one open end and a flip cover 41 arranged on the opening of the dyeing cylinder body 40, wherein a flip cover locking device is arranged between the flip cover 41 and the dyeing cylinder body 40, a yarn hanging pipe 43 which is arranged along the horizontal direction is arranged in the dyeing cylinder body 40, the head of the yarn hanging pipe 43 is arranged at the corresponding end of the dyeing cylinder body 40 and is communicated with the output shunt pipe 31 for the corresponding dyeing cylinder, the yarn hanging pipe 43 is provided with injection sections which are in one-to-one correspondence with yarn hanging positions (positions of five cone yarns 8), the yarn hanging pipe 43 is longitudinally provided with a plurality of injection holes, each injection hole comprises a plurality of injection holes 432 which are uniformly arranged on the yarn hanging pipe 43 along the circumferential direction, and the tail of the yarn hanging pipe 43 is provided with a conical part 431; the output shunt tube 31 for the dyeing vat is installed in the following manner: the head of the yarn hanging tube 43 is arranged on the rear cover 403 of the dyeing cylinder 40 through an access positioning tube 44, the outer diameter of the access positioning tube 44 is larger than that of the yarn hanging tube 43, so that a yarn hanging limit step 433 is formed between the yarn hanging tube 43 and the access positioning tube 44, the output shunt tube 31 for the dyeing cylinder is arranged in the access positioning tube 44 in a penetrating way, and two sealing rings 45 and an opening elastic ring 46-for positioning are arranged between the output shunt tube 31 for the dyeing cylinder and the access positioning tube 44, as shown in fig. 4, the specific arrangement mode is that: the outer wall of the output shunt tube 31 for the dyeing cylinder is provided with two annular sealing grooves and an annular positioning groove 311-see fig. 3 between the two annular sealing grooves, a sealing ring 45-see fig. 2 is arranged in the annular sealing grooves, the inner wall of the access mounting tube 44 is provided with an annular positioning groove 441-see fig. 3 matched with the annular positioning groove 311, wherein the circumferential angle of the annular positioning groove 311 is more than or equal to 270 degrees, and the circumferential angle of the annular positioning groove 411 is less than or equal to 90 degrees; the top of the output main pipe 3 is higher than the buffer tank 6, a liquid inlet pipe 33 and an overflow pipe 34 are arranged in a penetrating manner, a liquid inlet control valve 331 is arranged on the liquid inlet pipe 33 in a series manner, and an overflow control valve 341 is arranged on the overflow pipe 34 in a series manner; the flip cover 41 is provided with a sealing mechanism matched with the conical part 431 of the yarn hanging tube 43, and the sealing mechanism comprises: the plugging installation seat 411 is arranged on the inner wall of the flip cover 41, and a nylon plugging pad 412 corresponding to the conical part 431 of the yarn hanging tube 43 is arranged in the plugging installation seat 411; the top and the bottom of the dyeing cylinder body 40 near one side of the flip cover 41 are respectively provided with a backflow inlet 401 and a backflow outlet 402, the buffer tank 6 is provided with backflow outlets 61 corresponding to the backflow inlets 401 on the dyeing cylinder 4 positioned below the buffer tank 6 one by one, the heat exchange shell 10 is provided with backflow inlets 11 corresponding to the backflow outlets 402 on the dyeing cylinder 4 positioned above the buffer tank 10 one by one, the top of the buffer tank 1 is also provided with two pressure relief ports (the number of the pressure relief ports is determined according to the actual situation), the pressure relief ports are provided with pressure relief valves 62, the backflow outlets 61 of the buffer tank 6 are communicated with the backflow inlets 401 on the dyeing cylinder body 40 positioned below the buffer tank through a first backflow connecting pipe 71, the backflow outlets 402 on the dyeing cylinder body 40 positioned above the buffer tank 6 are communicated with the backflow inlets 401 on the dyeing cylinder body 40 positioned below the buffer tank through a second backflow connecting pipe 72, and the backflow outlets 402 on the dyeing cylinder body 40 positioned below the buffer tank are communicated with the backflow inlets 11 on the heat exchange shell 10 through a third backflow connecting pipe 73.

In practical application, the nylon plugging pad 112 can be replaced by a plugging pad made of other polymer materials such as rubber; one specific structure of the flip locking device comprises: the dyeing cylinder body 40 is provided with a locking threaded hole matched with the locking bolt 413, and the tail part of the locking bolt 413 is provided with a handle 414 which opens towards two wings; of course, the flip locking device can also be driven and locked by an air cylinder, an oil cylinder or a direct current motor.

The foregoing description is only illustrative of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, but rather the equivalent variations and modifications in shape, construction, characteristics and spirit according to the scope of the claims should be construed to be included in the scope of the claims.

Claims (10)

1. A yarn dyeing apparatus comprising: frame and circulating pump, its characterized in that, the frame on from bottom to top set gradually heat exchanger, at least one dyeing jar and the buffer tank of arranging along the horizontal direction, the entry of circulating pump links to each other with heat exchanger's delivery outlet through the input connecting pipe, the export of circulating pump pass through the output pipeline with dyeing jar, buffer tank link to each other, the output pipeline include: the dyeing device comprises an output main pipe and an output shunt pipe which connects a dyeing cylinder and a buffer tank with the output main pipe, wherein a liquid inlet pipe is arranged on the output main pipe, and the top of the output main pipe is higher than the buffer tank and is provided with an overflow pipe in a penetrating way; the specific structure of the dyeing cylinder comprises: the dyeing cylinder body with one open end and the flip on the opening of dyeing cylinder body are provided with flip locking device between flip and the dyeing cylinder body, be provided with the string spool that arranges along the horizontal direction in the dyeing cylinder body, the one end setting of string spool is linked together at the corresponding end of dyeing cylinder body, with corresponding output shunt tubes, be provided with the injection section with string yarn position one-to-one on the string spool, the string spool is provided with the multicycle jet orifice along vertically on the injection section, every circle jet orifice is including two at least jet orifices of seting up along circumference, flip on be provided with string spool matched with shutoff sealing mechanism, the dyeing cylinder body be close to its flip one side the top and bottom and seted up backward flow leading-in mouth and backward flow leading-in mouth respectively, the buffer tank on set up with the backward flow leading-in mouth that is located its below on the dyeing cylinder body on the backward flow leading-in mouth one-to-one, the heat exchanger on set up with the top of being located the dyeing cylinder body on the backward flow leading-in mouth of its top one-to-one, the top of buffer tank still sets up at least one on the top, is provided with the pressure release valve on the top of the buffer tank, the pressure release mouth is located between the leading-in mouth that is located the top of the back flow leading-in mouth that is located on the top of the dyeing cylinder body that is located below the top of the back flow leading-up mouth that is located on the side of the back flow of the dyeing cylinder.

2. Yarn dyeing apparatus according to claim 1, characterized in that: the specific structure of the plugging sealing mechanism comprises: the plugging installation seat is arranged on the inner wall of the flip cover, and plugging pads corresponding to the corresponding ends of the yarn hanging tubes are arranged in the plugging installation seat.

3. Yarn dyeing apparatus according to claim 2, characterized in that: the plugging pad is made of a high polymer material.

4. A yarn dyeing apparatus according to claim 3, characterized in that: the plugging pad is made of nylon or rubber.

5. Yarn dyeing apparatus according to claim 1, characterized in that: the installation mode of the output shunt tube on the dyeing cylinder is as follows: the yarn hanging tube is arranged on the dyeing cylinder body through the access arrangement tube, the outer diameter of the access arrangement tube is larger than that of the yarn hanging tube, a yarn hanging limit step is formed between the yarn hanging tube and the access arrangement tube, the output shunt tube is arranged in the access arrangement tube in a penetrating mode, and at least one sealing ring and an opening elastic ring for positioning are arranged between the output shunt tube and the access arrangement tube.

6. Yarn dyeing apparatus according to claim 1, characterized in that: the specific structure of the heat exchanger comprises: the heat exchange device comprises a heat exchange shell, a spiral coil arranged in the heat exchange shell and a pair of steam pipes penetrating through the heat exchange shell, wherein two ports of the spiral coil are respectively connected with the corresponding steam pipes.

7. Yarn dyeing apparatus according to claim 6, characterized in that: in the pair of steam pipes, a steam inlet control valve is connected in series on a pipeline serving as a steam inlet pipe, and a drain valve is connected in series on a pipeline serving as a steam return pipe.

8. Yarn dyeing apparatus according to claim 1, characterized in that: the liquid inlet pipe penetrates through the top of the output main pipe, and the liquid inlet pipe and the overflow pipe are respectively provided with a liquid inlet control valve and an overflow control valve in series.

9. Yarn dyeing apparatus according to one of claims 1 to 8, characterized in that: one specific structure of the flip locking device comprises: the dyeing cylinder body is provided with a locking screw hole matched with the locking screw hole.

10. Yarn dyeing apparatus according to claim 9, characterized in that: the tail part of the locking bolt is provided with a handle which opens towards the two wings.