CN214359346U

CN214359346U - Imitative wax seal cotton cloth baking house guider

Info

Publication number: CN214359346U
Application number: CN202120278045.0U
Authority: CN
Inventors: 陈凡; 陈路军; 林佳阳
Original assignee: Fujian Jilong Machine Technologies Co Ltd
Current assignee: Fujian Jilong Machine Technologies Co Ltd
Priority date: 2021-02-01
Filing date: 2021-02-01
Publication date: 2021-10-08
Anticipated expiration: 2031-02-01

Abstract

The utility model provides a guide device of a wax-print imitating drying room, which comprises a transmission system and an auxiliary transmission case which are respectively and correspondingly arranged at the discharge end and the feed end of the drying room; an upper layer fabric channel, a middle layer fabric channel and a lower layer fabric channel are sequentially arranged in the drying room from top to bottom; the transmission system comprises a main transmission box, and a fabric transmission roller, a first mesh belt main transmission roller and a second mesh belt main transmission roller are arranged in the main transmission box; a first mesh belt driven roller and a second mesh belt driven roller are arranged in the auxiliary transmission case, the first mesh belt horizontally penetrates through the middle-layer fabric channel, and the second mesh belt horizontally penetrates through the lower-layer fabric channel; the upper layer fabric is suspended without support, is driven downwards by a fabric driving roller, is pressed down by a first cloth guide roller to be tightly attached to a first net belt to be conveyed forwards, passes through the middle layer fabric channel, is pressed down by a second cloth guide roller to be tightly attached to a second net belt to be conveyed forwards, and passes through the lower layer fabric channel to be discharged. The utility model discloses can improve the printing and dyeing effect, simultaneously, improve drying efficiency.

Description

Imitative wax seal cotton cloth baking house guider

Technical Field

The utility model belongs to the technical field of dyeing and finishing technique and specifically relates to an imitative wax printing cloth baking house guider.

Background

The real wax printed figured cloth is deeply loved by the people in Africa for a long time due to the unique indigo ground color, natural and active wax veins and the completely consistent printing effect of the front and the back. The real wax printing is to print on fabric with wax liquid (natural rosin) and this is completed with wax printing machine. At present, manufacturers for producing real wax printed cloth in China adopt a vertical rotary screen double-sided wax printing technology, and the process flow is as follows: pure cotton mercerized semi-finished product → weft straightening tentering → double-sided wax printing → indigo dyeing → wax pattern throwing → wax pattern dyeing → wax removing → secondary weft straightening tentering → secondary overprinting → post-printing treatment → true wax printed cloth. Actually, the real wax printed figured cloth is overprinted figured cloth with two sides of the fabric respectively subjected to wax printing and dye proofing, so that the indigo main hues of the front and back sides of the fabric are completely consistent, and the problem of color paste permeation does not exist. However, the wax printed cloth has the disadvantages of multiple production processes, long process flow, complex technology and high production cost.

The wax-imitating printing system adopts a direct printing mode to obtain the wax printing style on the fabric, and the processing process does not comprise complex procedures of wax printing, indigo dyeing, wax removing, tracking overprinting and the like. The specific process flow is as follows: pure cotton mercerized semi-finished product → weft straightening tentering → single-sided direct printing → post-treatment of printing (including the working procedures of printing drying, cooling, shaping and the like) → wax-like printed cloth. Therefore, compared with real wax printing, the wax printing imitation has the advantages of less working procedures, short flow, simple technology and lower production cost.

The common wax-like printing adopts single-sided direct printing, namely printing paste is dyed on one side of cloth, and printing paste is printed and cured from one side of the cloth to the other side of the cloth through a printing drying room, so that printing is realized on both the front side and the back side of the cloth. Because the conveying mesh belt which is distributed in a snake shape from top to bottom is arranged in the existing multilayer drying room (for example, the patent with the publication number of CN 206475580U), the fabric is supported on the mesh belt and is conveyed forwards through the mesh belt, friction can occur between the mesh belt and the reverse side of the fabric, the problem that the reverse side of the fabric is often stained by color paste dragging is caused, and the printing and dyeing effect is influenced.

Disclosure of Invention

An object of the utility model is to provide an imitative wax seal cotton print baking house guider, the device can realize imitative wax seal cotton print and carry and change between suspension is carried and the guipure bearing is carried, avoids the strike-through initial stage to appear dragging the look and staiing the problem, improves the printing and dyeing effect, simultaneously, improves drying efficiency.

A wax-print imitating cloth drying room guiding device comprises a transmission system arranged outside the discharge end of a drying room and an auxiliary transmission box arranged outside the feed end of the drying room;

the drying room is formed by connecting a plurality of drying room units in series and in a through mode along the production line direction, and an upper layer fabric channel, a middle layer fabric channel and a lower layer fabric channel are sequentially arranged on the inner side of each drying room unit from top to bottom;

a cloth inlet is formed in the feeding end of the drying room and is aligned with the upper fabric channel in the vertical height;

the transmission system comprises a power device and a main transmission box, fabric transmission rollers, a first mesh belt main transmission roller and a second mesh belt main transmission roller which can correspondingly transmit fabrics in upper, middle and lower fabric channels one by one are transversely erected in the main transmission box respectively, and the fabric transmission rollers, the first mesh belt main transmission roller and the second mesh belt main transmission roller are driven by the power device to rotate;

the fabric only dyed with the wax-like printing paste on the front surface enters the drying room from the fabric inlet, horizontally passes through the upper fabric channel, is wound on the fabric transmission roller and is driven by the fabric transmission roller to move forwards;

the fabric is horizontally suspended in an upper-layer fabric channel in the drying room in a non-contact manner from top to bottom;

a first mesh belt driven roller symmetrical to the first mesh belt main transmission roller and a second mesh belt driven roller symmetrical to the second mesh belt main transmission roller are arranged in the auxiliary transmission box, a first mesh belt capable of circularly rotating is tensioned between the first mesh belt main transmission roller and the first mesh belt driven roller, a second mesh belt capable of circularly rotating is tensioned between the second mesh belt main transmission roller and the second mesh belt driven roller, and the first mesh belt and the second mesh belt horizontally penetrate through the middle layer fabric channel and the lower layer fabric channel respectively;

a first cloth guide roller for pressing the fabric which bypasses the fabric driving roller down to the middle-layer fabric channel is fixedly arranged on the side wall of the main transmission box, which faces one side of the drying room, and the first cloth guide roller is positioned above the first mesh belt, and the roller surface of the first cloth guide roller is nearly tangent to the upper surface of the upper mesh belt of the first mesh belt;

a second cloth guide roller for pressing the fabric wound around the first mesh belt driven roller to a lower fabric channel is fixedly arranged on the side wall of the auxiliary transmission case facing the drying room, the second cloth guide roller is positioned below the first mesh belt and above the second mesh belt, and the roller surface of the second cloth guide roller is nearly tangent to the upper surface of the upper mesh belt of the second mesh belt;

the discharge end of the main transmission box is provided with a cloth outlet which is aligned with the lower fabric channel at a vertical height.

The utility model discloses an imitative wax seal cloth baking house guider can realize imitative wax seal cloth and carry out the conversion between the suspension of upper fabric passageway of baking house and the guipure bearing of well, lower floor's fabric passageway and carry out just, two-sided drying simultaneously of anti-reverse in upper conveying passageway, the fabric upper and lower contactless suspension setting this moment, and move forward through fabric driving roller direct drive fabric, can effectively avoid taking place to drag the look stain phenomenon in the initial stage of stoving process, can guarantee the good reprint of fabric again simultaneously, and because the fabric is its positive mill base solidification effect after upper fabric passageway is best, the fabric is difficult for taking place to drag the look phenomenon with first guipure contact in middle floor's fabric passageway in its front; the fabric is subjected to complementary drying on the front and the back in the middle and lower fabric channels respectively, so that the colors of the front and the back of the fabric are brighter and saturated, meanwhile, the complete consistency of the colors of the front and the back can be realized, and the printing effect is comparable to that of real wax printed cloth; additionally, the utility model discloses only upper fabric suspension is carried, and middle level and lower floor's fabric are supported by the guipure and are carried, and the fabric is carried steadily, guarantees that the fabric has good planarization, and it is also more even to dry.

Preferably, the fabric driving roller is a drying cylinder, the high temperature accelerates the permeation of color paste, the process time is greatly reduced, and the diffusion process is quickly transited to the permeation process, so that the process is completed at one step. In the specific implementation process, steam is introduced into the drying cylinder for heat preservation, energy is saved, the environment is protected, and the temperature inside the drying cylinder is usually 100-120 ℃.

Preferably, still transversely erect a bending roll between baking house and the final drive case, the roll surface of bending roll is tangent with the reverse side that is located the fabric of upper fabric passageway, the bending roll can be smoothed out with fingers the flat to the fabric.

Preferably, at least one kind guipure in first guipure and the second guipure is preferred to adopt big mesh conveyer belt of high temperature resistant teflon, compares with the nylon conveyer belt, and ventilative effect is better, does benefit to hot-blast convection current, improves drying efficiency, and simultaneously, the price is also lower.

Preferably, still transversely erect a pair of rollers of rectifying in the final drive case, the lower guipure of first guipure passes through between these two rollers of rectifying and all tangents with these two rollers of rectifying, can rectify through these two rollers of rectifying and rectify first guipure.

Preferably, another pair of deviation rectification rollers is transversely erected in the auxiliary transmission box, the lower mesh belt of the second mesh belt passes through between the two deviation rectification rollers and is tangent to the two deviation rectification rollers, and the deviation rectification of the second mesh belt can be realized through the two deviation rectification rollers.

Preferably, transmission system 'S power device installs at the top of main drive case, and the cover is equipped with first driving belt on power device' S the output shaft, and first driving belt is the S-shaped around establishing between first guipure main drive roller and second guipure main drive roller, only needs a drive belt can realize the synchronous drive of first guipure main drive roller and second guipure main drive roller, practices thrift the space, and the design is more reasonable.

Drawings

Fig. 1 is the structure diagram of the guiding device of the wax-print imitating cloth drying room of the present invention, and the direction indicated by the arrow is the hot air flowing direction.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings:

as shown in fig. 1, a guide device for a drying room of wax-like printed cloth comprises a transmission system 5 arranged outside the discharging end of the drying room 1 and an auxiliary transmission box 6 arranged outside the feeding end of the drying room 1;

the drying room 1 is formed by connecting and penetrating a plurality of drying room units 11 in series along the production line direction, the drying room is formed by connecting and penetrating a plurality of drying room units in series along the production line direction, and an upper layer fabric channel, a middle layer fabric channel and a lower layer fabric channel are sequentially arranged on the inner side of each drying room unit from top to bottom;

a cloth inlet 101 is formed in the feeding end of the drying room 1, and the cloth inlet 101 is aligned with the upper fabric channel 2 in the vertical height;

the transmission system 5 comprises a power device 51 and a main transmission case 52, a fabric transmission roller 53, a first mesh belt main transmission roller 54 and a second mesh belt main transmission roller 55 which can correspondingly transmit the fabrics 100 in the upper, middle and lower fabric channels (2, 3 and 4) one by one are transversely erected in the main transmission case 52, and the fabric transmission roller 53, the first mesh belt main transmission roller 54 and the second mesh belt main transmission roller 55 are driven by the power device 51 to rotate;

the fabric 100 only dyed with the wax-like printing paste on the front surface enters the drying room 1 from the fabric inlet, horizontally passes through the upper fabric channel 2, is wound on the fabric driving roller 53 and is driven by the fabric driving roller 53 to move forwards;

the fabric 100 is horizontally suspended in the upper layer fabric channel 2 in the drying room 1 without upper and lower contact;

a first mesh belt driven roller 61 symmetrical to the first mesh belt main transmission roller 54 and a second mesh belt driven roller 62 symmetrical to the second mesh belt main transmission roller 55 are arranged in the auxiliary transmission box 6, a first mesh belt 7 capable of circularly rotating is tensioned between the first mesh belt main transmission roller 54 and the first mesh belt driven roller 61, a second mesh belt 8 capable of circularly rotating is tensioned between the second mesh belt main transmission roller 55 and the second mesh belt driven roller 62, and the first mesh belt 7 and the second mesh belt 8 horizontally penetrate through the middle layer fabric channel 3 and the lower layer fabric channel 4 respectively;

a first cloth guide roller 9 for pressing the fabric 100 which bypasses the fabric driving roller 53 down to the middle fabric channel 3 is fixedly arranged on the side wall of the main driving box 52 facing one side of the drying room 1, the first cloth guide roller 9 is positioned above the first mesh belt 7, and the roller surface of the first cloth guide roller is nearly tangent to the upper surface of the upper mesh belt of the first mesh belt 7;

a second cloth guide roller 10 for pressing the fabric 100 bypassing the first mesh belt driven roller 61 down to the lower fabric channel 4 is fixedly arranged on the side wall of the auxiliary transmission case 6 facing one side of the drying room 1, the second cloth guide roller 10 is positioned below the first mesh belt 7 and above the second mesh belt 8, and the roller surface of the second cloth guide roller 10 is nearly tangent to the upper surface of the upper mesh belt of the second mesh belt 8;

the discharge end of the main transmission box 52 is provided with a cloth outlet 521, and the cloth outlet 521 is aligned with the lower fabric passage 4 in vertical height.

When in use, the fabric 100 only dyed with the wax printing imitating color paste on the front surface horizontally floats through the upper fabric channel 2 without contact, is wound on the fabric driving roller 53 and is driven by the fabric driving roller 53 to move forwards, because the fabric 100 is arranged in a non-contact horizontal suspension way, the back surface divergence of the fabric can not be influenced, the color can not be dragged, meanwhile, compared with the color paste positioned in the fabric, the color paste positioned on the front and back surfaces of the fabric 100, the curing effect is better, and the color paste on the front surface of the fabric 100 has the best curing effect, in addition, the fabric 100 is directly conveyed by the fabric driving roller 53, the tension force between the fabric 100 and the fabric driving roller 53 is larger, the fiber grain of the fabric 100 becomes thicker under the tension force given by the fabric driving roller 53, the wax-like printing color paste which is not dried completely in the fabric 100 is further dispersed and permeated to the reverse side of the fabric 100, and a good penetrating printing effect is ensured; then, the fabric 100 is pressed and tightly attached to the upper surface of an upper mesh belt of the first mesh belt 7 through a first cloth guide roller 9, the mesh belt on the first mesh belt drives the fabric to horizontally pass through the middle-layer fabric channel 3, the reverse side of the fabric 100 faces upwards when the fabric passes through the middle-layer fabric channel 3, and only the reverse side of the fabric is dried and fixed; then, the fabric 100 is pressed and attached to the upper surface of the upper mesh belt of the second mesh belt 8 through a second cloth guide roller 10, the fabric is driven by the mesh belt on the second mesh belt to horizontally pass through the lower fabric channel 4, the front side of the fabric 100 faces upwards when passing through the lower fabric channel 4, the front side of the fabric 100 is only complemented and dried, and then the cloth can be discharged, so that the wax-like printed cloth is obtained.

The utility model discloses an imitative wax seal cloth baking house guider can realize imitative wax seal cloth and carry and change between the guipure bearing of the suspension of upper fabric passageway 2 of baking house 1 and well, lower floor's fabric passageway (3, 4) and carry out just, two-sided simultaneous drying is carried out to the messenger's fabric 100 in upper conveying passageway 2, the fabric upper and lower contactless suspension setting this moment, and direct drive fabric 100 through fabric driving roller 53 moves forward, can effectively avoid taking place to drag the look and stain the phenomenon at the initial stage of stoving process, can guarantee the good strike-through of fabric 100 simultaneously again, and because fabric 100 is its positive mill base solidification effect after upper fabric passageway 2 is the best, its front and the difficult emergence of guipure phenomenon of 7 contact of first guipure of fabric in middle level fabric passageway 3; the fabric is subjected to complement drying on the front side and the back side in the middle and lower fabric channels (3 and 4) respectively, so that the colors of the front side and the back side of the fabric 100 are brighter and saturated, meanwhile, the complete consistency of the colors of the front side and the back side can be realized, and the printing effect is comparable to that of real wax printed cloth; additionally, the utility model discloses only upper fabric suspension is carried, and middle level and lower floor's fabric are supported by the guipure and are carried, and fabric 100 carries steadily, guarantees that fabric 100 has good planarization, and it is also more even to dry.

Preferably, the fabric driving roller 53 is a drying cylinder, and the high temperature accelerates the permeation of color paste, thereby greatly reducing the process time, and enabling the diffusion process to be quickly transited to the permeation process in one go. In the specific implementation process, steam is introduced into the drying cylinder for heat preservation, energy is saved, the environment is protected, and the temperature inside the drying cylinder is usually 100-120 ℃. Of course, the fabric driving roller 53 of the present invention can also be a common driving roller (normal temperature).

Preferably, as shown in fig. 1, a bending roller 200 is transversely erected between the drying room 1 and the main transmission case 52, the roller surface of the bending roller 200 is tangent to the reverse side of the fabric 100 in the upper fabric passage, and the bending roller 200 can smooth the fabric 100.

Preferably, at least one kind of guipure in first guipure 7 and the second guipure 8 is preferred to adopt big mesh conveyer belt of high temperature resistant teflon, compares with the nylon conveyer belt, and ventilative effect is better, does benefit to hot-blast convection current, improves drying efficiency, and simultaneously, the price is also lower. Certainly, the utility model discloses a first guipure 7 and second guipure 8 also can choose for use common fabrics such as nylon conveyer belt dry for the transport guipure all can.

Preferably, as shown in fig. 1, a pair of deviation rectification rollers 300 is further transversely erected in the main transmission case 52, the lower mesh belt of the first mesh belt 7 passes between the two deviation rectification rollers 300 and is tangent to both the two deviation rectification rollers 300, and the deviation rectification of the first mesh belt 7 can be performed by the two deviation rectification rollers 300.

Preferably, as shown in fig. 1, another pair of deviation rectification rollers 400 is transversely erected in the auxiliary transmission case 6, the lower belt of the second mesh belt 8 passes between the two deviation rectification rollers 400 and is tangent to both the two deviation rectification rollers 400, and the deviation rectification of the second mesh belt 8 can be performed by the two deviation rectification rollers 400.

Preferably, as shown in fig. 1, the power device 51 of the transmission system 5 is installed at the top of the main transmission box 52, the output shaft of the power device 51 is sleeved with the first transmission belt 56, the first transmission belt 56 is wound around the first mesh belt main transmission roller 54 and the second mesh belt main transmission roller 55 in an S-shape, synchronous transmission between the first mesh belt main transmission roller 54 and the second mesh belt main transmission roller 55 can be realized only by one transmission belt 56, the space is saved, and the design is more reasonable. Of course, the power unit 51 of the present invention can also drive the first belt main driving roller 54 and the second belt main driving roller 55 respectively through two driving belts.

It should be noted that, the drying room unit structure of the present invention can adopt the specific structure in the attached drawings: a first upper air pipe 111 and a first lower air pipe 112 are horizontally arranged at the upper part of the inner side of each drying room unit at the same time, a second upper air pipe 113 is horizontally arranged at the middle part of each drying room unit 11, a third upper air pipe 114 is horizontally arranged at the lower part of each drying room unit 11, air blowing ports (1110, 1130 and 1140) are arranged at the bottoms of all the upper air pipes (111, 113 and 114), an air blowing port 1120 is arranged at the top of all the lower air pipes 112, the air blowing port 1110 of the first upper air pipe 111 is opposite to the air blowing port 1120 of the first lower air pipe 112, an upper fabric channel 2 is formed between the first upper air pipe 111 and the first lower air pipe 112, a middle fabric channel 3 is formed between the second upper air pipe 113 and the third upper air pipe 114, and a lower fabric channel 4 is formed between the third upper air pipe 114 and the inner bottom wall 110 of each drying room unit; the top of the drying room 1 is also provided with a drying room discharge system 500, and the tops of all the drying room units 11 are communicated with the drying room discharge system 500 through pipelines, so that the moist and hot air in the drying room 1 can be discharged in time. However, the structure of the drying room unit 11 of the present invention is not limited to the above-mentioned specific structure, and other existing drying room structures may be adopted, for example, only a heating device is provided on the inner bottom wall or the inner side wall of the drying room, so as to heat the air in the drying room 1, thereby achieving the purpose of drying the fabric.

Claims

1. The utility model provides an imitative wax seal cotton cloth baking house guider which characterized in that: comprises a transmission system arranged outside the discharge end of the drying room and an auxiliary transmission box arranged outside the feed end of the drying room;

2. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: the fabric driving roller is a drying cylinder.

3. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: and a bending roll is transversely erected between the drying room and the main transmission case, and the roll surface of the bending roll is tangent to the reverse surface of the fabric positioned in the upper fabric channel.

4. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: at least one of the first mesh belt and the second mesh belt is a high-temperature-resistant Teflon large-mesh conveying belt.

5. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: still transversely erect a pair of roller of rectifying in the final drive case, the lower guipure of first guipure passes through and all tangent with these two rollers of rectifying by between these two rollers of rectifying.

6. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: another pair of deviation rectifying rollers is transversely erected in the auxiliary transmission box, and a lower mesh belt of the second mesh belt passes between the two deviation rectifying rollers and is tangent to the two deviation rectifying rollers.

7. The simulated wax printed cloth drying room guide device as claimed in claim 1, wherein: the power device of the transmission system is installed at the top of the main transmission box, a first transmission belt is sleeved on an output shaft of the power device, and the first transmission belt is S-shaped and wound between the first mesh belt main transmission roller and the second mesh belt main transmission roller.