CN112411060A - Dyeing machine - Google Patents

Abstract

The invention relates to a dying machine, comprising: the dyeing machine comprises a machine body, a dyeing device, a cloth guide device, a cloth discharge device and a driving device; the machine body comprises a left side frame, a right side frame, an upper cross beam and a lower cross beam; the dyeing device is positioned in the machine body, and the dyeing unit comprises a main driving roller, a dyeing roller, an inking roller and a cartridge scraper; the cloth guide device is arranged below the dyeing device; the cloth discharging device is arranged above the dyeing device, and the driving devices are respectively arranged on the left side rack and the right side rack. The dyeing machine has the advantages that heat energy and sewage can be reduced, liquid quantity of cloth is reduced or eliminated before cloth enters the drying box body, and accordingly heat energy consumption during drying is reduced.

Description

Dyeing machine

Technical Field

The invention relates to the technical field of textile machinery, in particular to a dyeing machine.

Background

The traditional textile is mostly in pad dyeing form, and the defect of the traditional textile is that the liquid carrying amount is too high. In order to solve the problem of too high liquid carrying capacity of the cloth, cloth rolling modes such as an even padder and a heavy-load padder are developed, but the problem of too high liquid carrying capacity cannot be solved, and the problem that the higher liquid carrying capacity of the cloth can cause more heat energy to dry the water carried by the cloth in the subsequent drying process, so that the equipment investment is large, the equipment floor area is large, the energy consumption is high, the operation cost is high and the like is caused. Too large liquid carrying amount also easily causes the migration problem of the dye in the drying process, and influences the quality of finished products.

Chinese patent publication No. CN110219116A discloses a padder capable of effectively reducing liquid carrying amount, comprising a frame, a guide wheel device, a rolling device, a trough, a pressure device and a power device; the rolling device at least comprises a first roller, a second roller, a third roller and a fourth roller; the first roller is rotationally arranged on the rack, and the second roller, the third roller and the fourth roller are arranged around the first roller and are pressed or separated from the first roller through the pressure provided by the pressure device; the outer wall of the first roller is sleeved with a water permeable coating layer which is an annular cylinder, and the inner side wall of the annular cylinder is matched with the outer wall of the first roller and sleeved on the outer wall of the first roller. The invention solves the technical problem of higher liquid content of the cloth before and after the dyeing and finishing processing of the existing cloth, but has the following defects: the internal structure of the machine is complex, the volume is too large, the dyeing auxiliary agents and a plurality of groups of dyeing slurry cannot be loaded simultaneously, the processing technology is complex and tedious, and the maintenance cost is high.

Disclosure of Invention

The invention provides the dyeing machine which has the advantages of simple structure, simple processing technology, obvious reduction of liquid quantity of a cloth belt and low dye waste rate.

The dyeing machine includes: the dyeing machine comprises a machine body, a dyeing device, a cloth guide device, a cloth discharge device and a driving device;

the machine body comprises a left side frame, a right side frame, an upper cross beam and a lower cross beam; the left side frame and the right side frame are respectively connected and fixed through the upper cross beam and the lower cross beam;

the dyeing device is positioned in the machine body and arranged along the directions of the upper cross beam and the lower cross beam, two ends of the dyeing device are respectively fixed on the left side rack and the right side rack, the dyeing device consists of four groups of dyeing units, and each dyeing unit comprises a main driving roller, a dyeing roller, an ink applying roller and an ink box scraper;

two ends of the main driving roller are respectively arranged on the left side frame and the right side frame, the dyeing roller and the main driving roller are arranged side by side, the inking roller is arranged on two sides of the main driving roller and the dyeing roller, and the ink box scraper is arranged on the inking roller;

the cloth guide device is arranged below the dyeing device and comprises a cloth guide wheel and a cloth guide shaft, two ends of the cloth guide shaft are respectively fixed in the left side frame and the right side frame, and the cloth guide wheel is sleeved on the cloth guide shaft;

the cloth discharging device is arranged above the dyeing device and comprises a cloth discharging wheel and a cloth discharging shaft, two ends of the cloth discharging shaft are respectively fixed in the left side frame and the right side frame, and the cloth discharging wheel is sleeved on the cloth discharging shaft;

the driving device is respectively arranged on the left side rack and the right side rack, outputs driving force to the dyeing device and drives the cloth to move in the dyeing device, and comprises a first cylinder and a motor; the first air cylinder is respectively positioned on the outer side of the left side rack and the outer side of the right side rack, and the motor is positioned on the outer side of the right side rack and is opposite to the first air cylinder.

Further, the four groups of dyeing units specifically comprise: a first dyeing unit, a second dyeing unit, a third dyeing unit and a fourth dyeing unit; the first dyeing unit, the second dyeing unit, the third dyeing unit and the fourth dyeing unit are sequentially arranged from the lower cross beam to the upper cross beam in a superposed mode.

Further, the dyeing unit further includes: connect the dressing trough, connect the dressing trough to be located the below of ink horn scraper is used for accomodating waste slurry liquid and sewage.

Furthermore, four dyeing units are arranged in a stacked mode in the vertical direction, and the installation positions of a main driving roller, a dyeing roller, an ink applying roller and a cartridge scraper of each adjacent dyeing unit are vertically symmetrical.

Furthermore, in the dyeing device, the cloth winding and moving path is along the vertical direction.

Further, the first air cylinder is used for pushing the dyeing roller to be close to the main driving roller so as to clamp the cloth between the dyeing roller and the main driving roller.

Further, cylinder pressure value can be adjusted to first cylinder to make cloth dyeing more even and take the liquid measure to reduce step by step, the maximum pressure value of first cylinder is 20 kilo newtons.

Further, drive arrangement still includes the second cylinder, and the second cylinder is located the outside of left side frame and the outside of right side frame to set up relatively with first cylinder, the second cylinder is used for promoting the inking roller and supports near final drive roller and dyeing roller respectively, and when inking roller and final drive roller support, the inking roller is driven and rotates by final drive roller, and when inking roller and final drive roller and dyeing roller separation, the motor is used for driving the inking roller and rotates, thereby prevents that the dyestuff on inking roller surface from solidifying.

Further, the inking roller includes: the left ink roller and the right ink roller are symmetrically arranged on two sides of the main driving roller and the dyeing roller.

Further, the ink cartridge scraper specifically includes: the left ink box scraper and the right ink box scraper are respectively arranged on two sides of the left ink roller and the right ink roller to automatically ink the surface of the ink roller.

Compared with the prior art, the dyeing machine has the following beneficial effects:

1. the dyeing machine is simple in structure, compared with a complex rolling device in the prior art, the dyeing device is sequentially arranged in a superposed mode from top to bottom, is vertically symmetrical and is arranged in the vertical direction, and compared with a traditional penetration winding mode, the phenomenon that condensed water drips is reduced or eliminated.

2. The dyeing machine can reduce heat energy and sewage, the dyeing units are designed in a superposition mode along the vertical direction, each dyeing unit is provided with a slurry receiving groove for collecting sewage and waste slurry, and the liquid quantity of the cloth belt is reduced or eliminated before cloth enters a drying box body, so that the heat energy consumption during drying is reduced.

3. The dyeing machine has good dyeing quality and low cost, can reduce or eliminate dripping condensed water compared with the pressing and rolling device in the prior art, does not form a flow phenomenon on the surface of the cloth, and avoids the phenomenon of uneven dyeing of the cloth.

Drawings

Fig. 1 is a schematic perspective view of a dying machine according to the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 along the direction A;

FIG. 3 is a schematic view of the structure of a dyeing unit in the direction B in FIG. 1;

fig. 4 is an enlarged view of a portion labeled C in fig. 2.

The labels in the figure are: 1-machine body, 11-left side machine frame, 12-right side machine frame, 13-upper cross beam and 14-lower cross beam; 2-dyeing apparatus, 21-dyeing unit, 21A-first dyeing unit, 21B-second dyeing unit, 21C-third dyeing unit, 21D-fourth dyeing unit, 211-main driving roller, 212-dyeing roller, 213-inking roller, 214-cartridge scraper, 215-slurry receiving tank; 3-cloth guide device, 31-cloth guide wheel, 32-cloth guide shaft; 4-drive means, 41-first cylinder; 42-motor, 43-main driving motor.

Detailed Description

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the drawings and the detailed description.

The embodiment of the invention provides a dyeing machine. As shown in fig. 1 to 4, the dyeing machine includes: a machine body 1, a dyeing device 2, a cloth guide device 3, a cloth outlet device (not shown in the figure) and a driving device 4;

as shown in fig. 1, the machine body 1 includes a left side frame 11, a right side frame 12, an upper cross beam 13 and a lower cross beam 14, wherein the left side frame 11 and the right side frame 12 are connected and fixed to form the machine body 1 through the upper cross beam 13 and the lower cross beam 14, respectively.

As shown in fig. 2 and 4, the dyeing apparatus 2 is located inside the machine body 1 and is arranged along the direction of the upper cross beam 13 and the lower cross beam 14, two ends of the dyeing apparatus 2 are respectively fixed on the left side frame 11 and the right side frame 12, the inner sides of the left side frame 11 and the right side frame 12 are respectively provided with a support plate (not shown in the figure), and two ends of the dyeing apparatus 2 are placed on the support plates arranged at two sides and fixed by bolts.

As shown in fig. 2 and 3, the dyeing apparatus 2 is composed of four sets of dyeing units 21, the dyeing units 21 including a main driving roller 211, a dyeing roller 212, an inking roller 213, and a cartridge blade 214; the both ends of final drive roller 211 set up respectively in left side frame 11 and right side frame 12, wherein, the inboard different height position of left side frame 11 and right side frame 12 is provided with the mounting hole (not shown in the figure) in a plurality of different apertures, the both ends of final drive roller 211 insert respectively in the mounting hole, dyeing roller 212 sets up side by side with final drive roller 211, the both ends of dyeing roller 212 insert respectively in the mounting hole, inking roller 213 sets up in the both sides of final drive roller 211 and dyeing roller 212, the both ends of inking roller 213 insert respectively in the mounting hole, ink horn scraper 214 sets up on inking roller 213.

As shown in fig. 2 and 4, the cloth guide device 3 is disposed below the dyeing device 2, the cloth guide device 3 includes a cloth guide wheel 31 and a cloth guide shaft 32, the cloth guide shaft 32 is located at the bottom end of the machine body 1 and is located between the dyeing device 2 and the lower cross beam 14, two ends of the cloth guide shaft 32 are respectively fixed in the mounting holes of the left frame 11 and the right frame 12, and the cloth guide wheel 31 is sleeved on the cloth guide shaft 32.

As shown in fig. 2, the cloth discharging device is disposed above the dyeing device 2, the cloth discharging device includes a cloth discharging wheel (not shown) and a cloth discharging shaft (not shown), two ends of the cloth discharging shaft are respectively fixed in the mounting holes of the left frame 11 and the right frame 12, and the cloth discharging wheel is sleeved on the cloth discharging shaft.

As shown in fig. 2 and 3, the driving device 4 is respectively disposed on the left side frame 11 and the right side frame 12, the driving device 4 outputs a driving force to the dyeing device 2 and drives the cloth to move in the dyeing device 2, and the driving device 4 includes a first cylinder 41 and a motor 42; the first air cylinders 41 are respectively positioned on the outer side of the left side frame 11 and the outer side of the right side frame 12, specifically, the first air cylinders 41 are positioned on the side close to the dyeing roller 212 and are symmetrically arranged, and the motor 42 is positioned on the outer side of the right side frame 12 and is arranged opposite to the first air cylinders 41. In addition, in the present embodiment, the cloth guiding device and the cloth discharging device are driven by servo motors (not shown) separately installed at the bottom and the top of the machine body 1, respectively.

Further, the four dyeing units 21 include a first dyeing unit 21A, a second dyeing unit 21B, a third dyeing unit 21C and a fourth dyeing unit 21D, the first dyeing unit 21A, the second dyeing unit 21B, the third dyeing unit 21C and the fourth dyeing unit 21D are sequentially stacked from the lower cross beam 14 to the upper cross beam 13, the cloth is passed through and moved into the dyeing apparatus 2 by the cloth guide apparatus 3 located at the bottom of the machine body 1, and then passed through and moved into the drying cabinet (not shown) from the top by the cloth discharge apparatus, wherein the fourth dyeing unit 21D, the third dyeing unit 21C and the second dyeing unit 21B are used for loading printing or dyeing slurry, the first dyeing unit 21A is used for loading of a dyeing assistant.

Further, the dyeing unit 21 further includes a slurry receiving tank 215, and the slurry receiving tank 215 is located below the cartridge scraper 214 and is used for receiving waste slurry and sewage. The four dyeing units 21 in this embodiment are all provided with the slurry receiving grooves 215, and the liquid amount of the cloth can be reduced as the cloth sequentially passes through each dyeing unit 21, so that the liquid amount of the cloth can be reduced or eliminated before the cloth enters the drying box.

Further, the four dyeing units 21 are arranged in a stacked manner in the vertical direction, and the installation positions of the main driving roller 211, the dyeing roller 212, the inking roller 213 and the cartridge scraper 214 of each adjacent dyeing unit 21 are vertically symmetrical.

Further, as shown in fig. 2, the cloth winding and moving path in the dyeing apparatus 2 is along the vertical direction, and in the four dyeing units 21, the main driving roller 211, the dyeing roller 212 and the inking roller 213 of the adjacent dyeing unit 21 are disposed in one-to-one correspondence with the cartridge scraper 214.

Further, the first cylinder 41 is used for pushing the dyeing roller 212 to approach the main driving roller 211 so as to clamp the cloth between the dyeing roller 212 and the main driving roller 211.

Further, the pressure value of the first cylinder 41 can be adjusted, so that the cloth is dyed more uniformly and the liquid carrying amount is gradually reduced, and the maximum pressure value of the first cylinder 41 is limited to 20 kilonewtons.

Further, the driving device 4 further includes a second cylinder (not shown in the figure), which is located outside the left frame 11 and the right frame 12 and is opposite to the first cylinder 41, and is used for pushing the inking roller 213 to approach the main driving roller 211 and the dyeing roller 212 respectively, when the inking roller 213 abuts against the main driving roller 211, the inking roller 213 is driven and rotated by the main driving roller 211, and the rotation of the main driving roller 211 in this embodiment is realized by the driving of the main driving motor 43 arranged outside the left frame 11. The motor 42 is used to drive the rotation of the inking roller 213 when the inking roller 213 is separated from the final drive roller 211 and the dyeing roller 212, thereby preventing the dye on the surface of the inking roller 213 from solidifying.

Further, the inking rollers 213 include a left inking roller 2131 and a right inking roller 2132, and the left inking roller 2131 and the right inking roller 2132 are symmetrically disposed on both sides of the main driving roller 211 and the dyeing roller 212 and rotate together with the main driving roller 211, thereby achieving uniform application of the dyeing auxiliary or the dyeing slurry to the surfaces of the dyeing roller 212 and the main driving roller 211.

Further, as shown in fig. 2 and 3, the cartridge scraper 214 includes a left cartridge scraper and a right cartridge scraper (not shown in the figure), which are respectively disposed on two sides of the left inking roller 2131 and the right inking roller 2132, and automatically scrapes off ink on the surface of the inking roller 213, so that a slurry layer on the surface of the inking roller 213 becomes uniform, thereby avoiding uneven dyeing of cloth due to ink supply and improving ink supply efficiency of the inking roller 213.

The operation of the dying machine according to the present invention is now described with reference to figures 2 and 3.

As shown in fig. 2, the arrows indicate the passage and travel path of the cloth inside the machine. First, the cloth enters the interior of the dyeing machine through the threading operation of the cloth guide 3, and then enters the first dyeing unit 21A, the dyeing roller 212 moves to the side of the main driving roller 211 by the thrust generated by the first cylinder 41, thereby, the cloth is squeezed between the dyeing roller 212 and the main driving roller 211, the main driving roller 211 drives the dyeing roller 212 to move together in opposite directions when rotating, so as to realize the forward or backward movement of the cloth, as shown in fig. 3, the cloth enters the first dyeing unit 21A, and is pressed between the dyeing roller 212 and the main driving roller 211, the inking roller 213 approaches to the dyeing roller 212 and the main driving roller 211, respectively, by the thrust generated by the second cylinder, and is rotated together with the main driving roller 211, thus, the dyeing assistant or the dyeing slurry is uniformly applied to the surfaces of the dyeing roller 212 and the main driving roller 211 by the application roller 213, and the front surface of the cloth held between the dyeing roller 212 and the main driving roller 211 is uniformly dyed.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only illustrative of the present invention and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A dying machine, characterized in that it comprises: the dyeing machine comprises a machine body, a dyeing device, a cloth guide device, a cloth discharge device and a driving device;

the machine body comprises a left side frame, a right side frame, an upper cross beam and a lower cross beam; the left side frame and the right side frame are respectively connected and fixed through the upper cross beam and the lower cross beam;

the dyeing device is positioned in the machine body and arranged along the directions of the upper cross beam and the lower cross beam, two ends of the dyeing device are respectively fixed on the left side rack and the right side rack, the dyeing device consists of four groups of dyeing units, and each dyeing unit comprises a main driving roller, a dyeing roller, an ink applying roller and an ink box scraper;

the two ends of the main driving roller are respectively arranged on the left side frame and the right side frame, the dyeing roller and the main driving roller are arranged side by side, the inking roller is arranged on the two sides of the main driving roller and the dyeing roller, and the ink box scraper is arranged on the inking roller;

the cloth guide device is arranged below the dyeing device and comprises a cloth guide wheel and a cloth guide shaft, two ends of the cloth guide shaft are respectively fixed in the left side frame and the right side frame, and the cloth guide wheel is sleeved on the cloth guide shaft;

the cloth discharging device is arranged above the dyeing device and comprises a cloth discharging wheel and a cloth discharging shaft, two ends of the cloth discharging shaft are respectively fixed in the left side frame and the right side frame, and the cloth discharging wheel is sleeved on the cloth discharging shaft;

the driving device is respectively arranged on the left side rack and the right side rack, outputs driving force to the dyeing device and drives the cloth to move in the dyeing device, and comprises a first cylinder and a motor;

the first air cylinder is respectively positioned on the outer sides of the left side rack and the right side rack, and the motor is positioned on the outer side of the right side rack and is opposite to the first air cylinder.

2. A dying machine as claimed in claim 1, characterised in that four sets of said dying units comprise: a first dyeing unit, a second dyeing unit, a third dyeing unit and a fourth dyeing unit; the first dyeing unit, the second dyeing unit, the third dyeing unit and the fourth dyeing unit are sequentially arranged from the lower cross beam to the upper cross beam in a stacked mode.

3. A dying machine as claimed in claim 1, characterized in that said dying unit further comprises: connect the dressing trough, connect the dressing trough to be located the below of ink horn scraper for accomodate waste slurry liquid and sewage.

4. A dyeing machine according to claim 1, characterized in that four groups of said dyeing units are arranged one above the other in a vertical direction, and the mounting positions of said main driving roller, dyeing roller, inking roller and cartridge scraper of each adjacent group of said dyeing units are symmetrical up and down.

5. A dying machine as claimed in claim 1, characterised in that the cloth passage and movement path inside the dying device is in a vertical direction.

6. A dying machine as claimed in claim 1, characterised in that said first cylinder is adapted to push said dying roller close to said main driving roller to clamp the piece of cloth between said dying roller and main driving roller.

7. A dying machine as claimed in claim 1, characterised in that said first cylinder pressure value is adjustable, said first cylinder having a maximum pressure value of 20 kn.

8. A dying machine as claimed in claim 1, characterised in that said drive means also comprise a second cylinder:

the second cylinder is located the outside of left side frame and right side frame, and with first cylinder sets up relatively, the second cylinder is used for promoting the inking roller supports closely respectively final drive roller and dyeing roller, works as the inking roller with during final drive roller supports, the inking roller quilt the final drive roller drives and rotates, works as the inking roller with during final drive roller and dyeing roller separation, the motor is used for the drive the inking roller rotates.

9. Dyeing machine according to claim 1, characterized in that said inking rollers comprise in particular: a left inking roller and a right inking roller; the left side inking roller with right side inking roller symmetry set up in the both sides of final drive roller and dyeing roller.

10. A dying machine as claimed in claim 1, characterised in that said cartridge scraper comprises in particular: a left cartridge scraper and a right cartridge scraper; the left side ink box scraper with the right side ink box scraper set up respectively in the both sides of left side ink roller and right side ink roller, it is automatic right ink roller surface inking.

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