CN107630313B - Vertical dipping and beating groove - Google Patents

Vertical dipping and beating groove Download PDF

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Publication number
CN107630313B
CN107630313B CN201710990463.0A CN201710990463A CN107630313B CN 107630313 B CN107630313 B CN 107630313B CN 201710990463 A CN201710990463 A CN 201710990463A CN 107630313 B CN107630313 B CN 107630313B
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cloth
roller
rectangular groove
groove body
conveying
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CN107630313A (en
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高景松
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Shandong Guangtai Environmental Technology Co ltd
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Shandong Guangtai Environmental Technology Co ltd
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Abstract

The invention discloses a vertical dipping and beating groove, and belongs to the technical field of cloth cleaning. The novel cloth feeding device comprises a rectangular groove body with an opening at the upper part, wherein a cloth conveying folding mechanism and a cloth lifting mechanism arranged at one side of the cloth conveying folding mechanism are arranged in the rectangular groove body: the cloth lifting mechanism comprises a guide roller arranged at the lower part of the rectangular groove body and a plurality of spreading rollers arranged upwards along the groove wall of the rectangular groove body, wherein the spreading rollers are sequentially arranged in a zigzag manner to enable cloth to be tensioned and conveyed out of the rectangular groove body. The cloth lifting mechanism further comprises a deviation rectifying roller arranged above the rectangular groove body, and an output roller is further arranged in a groove below the deviation rectifying roller. A brush roller is also arranged between the clapping rollers. The cloth soaking device is simple in structure, small in occupied space, large in cloth storage amount, good in beating cleaning effect and capable of prolonging soaking time of cloth, and the soaked cloth is orderly discharged under the action of the cloth lifting mechanism.

Description

Vertical dipping and beating groove
Technical Field
The invention relates to a vertical dipping and beating groove, and belongs to the technical field of cloth cleaning.
Background
Cloth such as blanket, carpet, curtain cloth etc. need be through processes such as stamp, steaming fixation, and the cloth after stamp steaming fixation has unnecessary thick liquids and surperficial unnecessary pigment owing to the back, and general cloth feel is bad, and the frosting effect is bad, the colour is darkened, can influence the processing of follow-up process when serious, so need wash the product after stamp steaming fixation, wash unnecessary thick liquids and colour, generally according to the fibrous adsorption colour's of different cloth ability difference, can wash the pigment of cloth 5-10% through washing, and the product through washing is not only clean, softer, and the colour is bright more bright. In order to make the water washing effect better, various modes can be adopted: such as dipping, heating, cloth cover rubbing, beating, spreading beating, spraying, brush roller, rotary drum, adding auxiliary agent, dewatering or roller, etc.
At present, the washing line generally comprises a plurality of dipping tanks, a flat washing tank, a beating tank, a rotary drum tank and a clear water tank which are transversely arranged, wherein a corresponding padder is arranged behind each tank and used for extruding sewage, water flows forwards in sequence from the clear water tank at the rear part, cloth is floating in the tank in the water flowing process, the cloth is easy to deviate, the problem that each roller is asynchronous is also solved in each tank, and the cloth storage amount in the tank is limited. In particular, the dipping tank is used for conveying cloth in a horizontal direction, so that the cloth storage amount is small, the water level of the dipping tank only impregnates the conveyed cloth at the lower part, the dipping time of the cloth in the dipping tank is short, the cloth cleaning effect is poor, the problem that the cloth is easy to deviate is also solved, in order to enable the cloth to be immersed for a long time, a plurality of dipping tanks are arranged on a general water washing line to enable the cloth to be repeatedly immersed, the method has a certain cleaning effect, water consumption is high, the energy consumption is high, the equipment of the water washing line is as long as 15 meters, even if the cleaning efficiency and the cloth storage amount of the cleaning line of the long time cannot meet the requirement of the front-stage cloth storage amount, the cloth storage amount is small, the continuous operation cannot be achieved, and the cleaning requirement cannot be met due to the short dipping time.
In order to meet the requirements of continuous washing and cloth storage, some washing lines are improved in washing length, specifically, the two washing lines are combined together, and the two washing lines are connected through a compensator, so that the washing efficiency is high, the relative speed is high, the washed cloth is relatively clean, the problems of cloth storage and continuous washing are solved, but the following defects are caused: because the compensator design water can not flow all the time from back to front, the water flow of the back-stage washing line is interrupted at the compensator position, and the front-stage washing line needs to be additionally supplied with water, so that the front-stage washing line and the back-stage washing line need to be separately supplied with water, the water consumption is large, the water waste condition is serious, the wastewater treatment cost is high, the production cost is increased, and the environmental protection is not facilitated; the energy consumption of the washing line is doubled, but the corresponding cleaning effect is not obtained; the problem of synchronization and cloth deviation of the whole washing line roller is more serious due to the lengthening of the washing line; the transverse length of the washing line is up to 30 meters, and the workshop space is limited and is often limited by the field space; the washing line length at least needs to be provided with 6 persons, so that the number of the persons is increased, and the labor cost is high.
Disclosure of Invention
Aiming at the defects existing in the prior art, the invention provides the vertical dipping tank which fully utilizes the height of a workshop, occupies small space, has large cloth storage quantity, long dipping time and good cleaning effect.
The technical scheme for solving the technical problems is as follows: the vertical dipping and beating groove comprises a rectangular groove body with an opening at the upper part, wherein a cloth conveying and folding mechanism and a cloth lifting mechanism arranged at one side of the cloth conveying and folding mechanism are arranged in the rectangular groove body;
the cloth lifting mechanism comprises a guide roller arranged at the lower part of the rectangular groove body and a plurality of spreading rollers arranged upwards along the groove wall of the rectangular groove body, wherein the spreading rollers are sequentially arranged in a zigzag manner to enable cloth to be tensioned and conveyed out of the rectangular groove body.
The beneficial effects of the invention are as follows: the cloth swings left and right under the action of the existing swing mechanism and enters the rectangular groove body, the cloth entering the rectangular groove body is longitudinally overlapped, the cloth storage amount of the dipping groove is increased, then the cloth at the lower part is dipped in the dipping groove, the dipping time of the cloth is prolonged, the dipped cloth is orderly discharged under the action of the cloth lifting mechanism, firstly, the bottom guide roller is used for assisting in discharging the cloth, and in addition, the cloth can be beaten in the rotation process, so that the cleaning effect of the cloth is improved; and a plurality of clapping and spreading rollers arranged along the groove wall are arranged in a folding line, so that not only can the cloth be tensioned, but also two sides of the cloth can be respectively beaten along with the upward discharging of the cloth, and the cleaning effect of the cloth is improved. In a word, the invention has the advantages of simple structure, small occupied space, large cloth storage amount, long soaking time and good beating cleaning effect.
On the basis of the technical scheme, the invention can be improved as follows.
Further, the cloth lifting mechanism further comprises a deviation rectifying roller arranged above the rectangular groove body, and an output roller is further arranged in a groove below the deviation rectifying roller.
The adoption of the further scheme has the beneficial effects that the deviation correcting roller can timely correct the cloth to be output after dipping; the output roller arranged below the deviation correcting roller reduces the height of cloth output, and can reduce the height of the padder and the height of a subsequent cleaning tank.
Further, a brush roller is arranged between the clapping rollers.
The cloth cleaning device has the beneficial effects that the cloth is discharged after being impregnated in the impregnation tank, and the cloth is just impregnated, such as the front side of a blanket, namely the waste Mao Jiaoduo of the wool surface, and the brush roller is arranged on the cloth lifting mechanism and can comb the waste wool of the wool surface to remove the waste wool of the wool surface of the cloth, so that the cleaning effect of the cloth is further improved.
Further, the cloth lifting mechanism further comprises a plurality of spraying devices.
The spray device has the beneficial effects that the spray device comprises the spray pipe and the spray nozzles uniformly distributed on the spray pipe. Most moisture of the cloth is extruded under the action of a plurality of spreading rollers and brush rollers, and in order to improve the cloth cleaning effect, the wet and immersed state of the cloth can be kept continuously through a spraying device until the cloth enters a padder, and sewage with dirt is extruded.
Further, the cloth conveying folding mechanism comprises a left conveying mechanism and a right conveying mechanism, the left conveying mechanism is arranged on the inner left side of the rectangular groove body, the left conveying mechanism comprises a left driving roller and a left driven roller which are arranged in parallel up and down, and a left conveying belt is arranged between the left driving roller and the left driven roller in a surrounding mode; the right conveying mechanism is arranged on the inner right side of the rectangular groove body and comprises a right driving roller and a right driven roller which are arranged in parallel up and down, and a right conveying belt is arranged between the right driving roller and the right driven roller in a surrounding mode;
the left conveying mechanism and the right conveying mechanism are structurally symmetrically arranged;
a cloth outlet is arranged on the right side wall of the rectangular groove body;
a material folding storage channel is formed between the left conveyor belt and the right conveyor belt.
The beneficial effect of adopting above-mentioned further scheme is, the both sides of the folding storage channel of material have set up left and right conveying mechanism, and left and right conveying mechanism not only assists the cloth feeding, can compress the cloth moreover, compresses the swing width of cloth, increases the cloth storage volume of soaking tank, and the cloth extrudees in vertical range upon range of order entering material storage channel under left and right conveying mechanism effect, and the cloth is extruded into the soaking tank in, extension cloth's impregnation time.
Further, the conveying belt is of a compression bar structure or a conveying net belt structure.
The beneficial effect of adopting above-mentioned further scheme is, the depression bar structure includes a plurality of depression bars that equipartition was arranged. The two ends of the plurality of compression bars are respectively connected with the two annular chains, and the driving roller and the driven roller are provided with chain wheels matched with the annular chains, so that the transmission of the compression bars on the roller is realized. The plurality of press rods are uniformly distributed on the annular chain, two ends of the cloth can penetrate into gaps between the adjacent press rods to drive the cloth to descend in the material storage channel, and meanwhile, the width of the cloth width of the laminated cloth is increased, the cloth storage quantity of the impregnation tank is further increased, and the cloth impregnation time is prolonged; the conveying mechanism of the conveying net belt structure can drive the cloth to descend in the material storage channel, although the cloth cannot enter the conveying net belt, the cloth width of the laminated cloth is smaller than that of the pressing rod structure, and the cloth storage quantity of the dipping tank is obviously greatly increased compared with that of the conventional dipping tank.
Further, the guide rollers are multiple and are arranged at the lower part of the rectangular groove body side by side.
The beneficial effect of adopting above-mentioned further scheme is, a plurality of guide rolls equipartition are arranged, not only can hold in the palm the load cloth, supplementary cloth is ejection of compact in order moreover.
Further, the guide roller is a flapping transmission roller.
The guide roller can adopt to beat the transmission roller, and the cloth is carried to the limit, beats the cloth simultaneously, gets rid of the glue at cloth back, further improves the cleaning performance of cloth.
Further, a baffle is arranged below the right conveying mechanism.
The material distribution device has the beneficial effects that the baffle is arranged at the position of the material outlet of the material storage channel, and the baffle limits the material distribution at the position of the material outlet of the material storage channel, so that the material distribution is sequentially discharged, and the phenomenon that the material distribution at the position of the material outlet floats and does not make a sound to the material distribution is avoided; in addition, the bottom of the baffle contacts the surface of the cloth to be discharged, so that dirt on the surface of the cloth can be scraped off, and the cleaning effect of the cloth is further improved.
Further, the length of the rectangular groove body is larger than the width of the cloth, the height is 1000-3000 mm, and the width is 1000-2000 mm.
The beneficial effect of adopting above-mentioned further scheme is, the length direction of rectangle cell body and the width looks adaptation of waiting to wash cloth width of cloth width or be greater than the width of cloth width, the vertical design of cell body on the direction of height make full use of workshop height not only occupies the space little, solves the limited problem in workshop space, and cloth is arranged in the cell body along the direction of height moreover, holds the cloth volume in the washing tank more, satisfies the big requirement of cloth storage volume, can also prolong the immersion time of cloth in the washing tank simultaneously, improves cloth cleaning effect.
Drawings
FIG. 1 is a schematic structural diagram of embodiment 1 of the present invention;
FIG. 2 is a schematic structural diagram of embodiment 1 of the present invention;
FIG. 3 is a schematic structural diagram of embodiment 1 of the present invention;
FIG. 4 is a schematic structural diagram of embodiment 1 of the present invention;
FIG. 5 is a schematic structural diagram of embodiment 1 of the present invention;
FIG. 6 is a schematic diagram of a left conveyor belt with a compression bar structure according to the present invention;
FIG. 7 is a schematic structural diagram of embodiment 6 of the present invention;
FIG. 8 is a schematic view of the right conveyor belt of the conveyor belt structure of the present invention;
FIG. 9 is a schematic diagram of the structure of embodiment 7 of the present invention;
fig. 10 is a schematic structural diagram of embodiment 8 of the present invention.
In the figure, 1, a rectangular groove body; 2. a guide roller; 3. a shooting and spreading roller; 4. a correction roller; 5. an output roller; 6. a brush roller; 7. a spraying device; 8. a left driving roller; 9. a left driven roller; 10. a left conveyor belt; 11. a right driving roller; 12. a right driven roller; 13. a right conveyer belt; 14. a material folding storage channel; 15. a compression bar; 16. an endless chain; 17. a sprocket; 18. a pressing plate; 19. a mesh belt chain; 20. a mesh belt sprocket; 21. conveying a mesh belt; 22. a baffle; 23. a glue roller; 24. a steel roller; 25. and (5) distributing materials.
Detailed Description
The principles and features of the present invention are described below in connection with examples, which are set forth only to illustrate the present invention and not to limit the scope of the invention.
Embodiment 1, as shown in fig. 1, a vertical dipping and beating tank comprises a rectangular tank body 1 with an opening at the upper part, wherein a cloth conveying and folding mechanism and a cloth lifting mechanism arranged at one side of the cloth conveying and folding mechanism are arranged in the rectangular tank body;
the cloth lifting mechanism comprises a guide roller 2 arranged at the lower part of the rectangular groove body and a plurality of spreading rollers 3 arranged upwards along the groove wall of the rectangular groove body, wherein the spreading rollers are sequentially and zigzag arranged to enable cloth to be tensioned and conveyed out of the rectangular groove body.
The clapping roller comprises a roller body, a roller shaft and roller filaments arranged on the outer surface of the roller body, wherein the roller filaments comprise a plurality of spiral forward roller filaments and bolt reverse roller filaments. Taking the middle of the roller body as a boundary, correspondingly arranging a plurality of spiral forward roller wires and a plurality of spiral reverse roller wires on the outer surfaces of the roller body at the left side and the right side of the boundary, wherein the lead of the spiral forward roller wires is 150-300mm, and the screw pitch is 30-80mm; the screw reverse roller wire lead is 150-300mm, and the screw pitch is 30-80mm. The lead of the roller wire is large, so that the flapping capability of the flapping cloth roller is increased. The height of the roller wire is 6-15mm. The beating effect is better, and the cloth cleaning effect is further improved.
In embodiment 2, as shown in fig. 2, the cloth lifting mechanism further includes a deviation rectifying roller 4 disposed above the rectangular groove body, and an output roller 5 is further disposed in a groove below the deviation rectifying roller. The deviation correcting roller can timely correct the cloth to be output after impregnation; the output roller arranged below the deviation correcting roller reduces the height of cloth output, and can reduce the height of the padder and the height of a subsequent cleaning tank.
In embodiment 3, as shown in fig. 3, a brush roller 6 is further disposed between the clapping rollers. The cloth is discharged after being impregnated in the impregnation tank, and when the cloth is just impregnated, if the front side of the blanket is the waste Mao Jiaoduo of the wool side, the brush roller is arranged on the cloth lifting mechanism to comb the waste wool of the wool side of the cloth, so that the waste wool of the wool side of the cloth is removed, and the cleaning effect of the cloth is further improved.
Embodiment 4 as shown in fig. 4, the cloth lifting mechanism further comprises a plurality of spraying devices 7. The spraying device comprises a spray pipe and spray nozzles uniformly distributed on the spray pipe. Most moisture of the cloth is extruded under the action of a plurality of spreading rollers and brush rollers, and in order to improve the cloth cleaning effect, the wet and immersed state of the cloth can be kept continuously through a spraying device until the cloth enters a padder, and sewage with dirt is extruded.
In embodiment 5, as shown in fig. 5, the cloth conveying and folding mechanism comprises a left conveying mechanism and a right conveying mechanism, the left conveying mechanism is arranged at the inner left side of the rectangular groove body, the left conveying mechanism comprises a left driving roller 8 and a left driven roller 9 which are arranged in parallel up and down, and a left conveying belt 10 is arranged between the left driving roller and the left driven roller in a surrounding manner; the right conveying mechanism is arranged on the inner right side of the rectangular groove body and comprises a right driving roller 11 and a right driven roller 12 which are arranged in parallel up and down, and a right conveying belt 13 is arranged between the right driving roller and the right driven roller in a surrounding manner;
the left conveying mechanism and the right conveying mechanism are structurally symmetrically arranged;
a cloth outlet is arranged on the right side wall of the rectangular groove body;
a material folding storage channel 14 is formed between the left and right conveyor belts. The left conveying mechanism and the right conveying mechanism are arranged on two sides of the material folding storage channel, the left conveying mechanism and the right conveying mechanism not only assist in feeding of the cloth, but also can compress the cloth, compress the swing width of the cloth, increase the cloth storage capacity of the impregnation tank, enable the cloth to be extruded and longitudinally laminated under the action of the left conveying mechanism and the right conveying mechanism to enter the material storage channel in order, enable the cloth to be extruded into the impregnation tank, and prolong the impregnation time of the cloth.
As shown in fig. 6, the conveying belt has a compression bar structure. The compression bar structure comprises a plurality of compression bars 15 which are uniformly distributed. Two ends of the plurality of compression bars are respectively connected with two annular chains 16, and chain wheels 17 matched with the annular chains are arranged on the driving roller and the driven roller, so that the transmission of the compression bars on the roller is realized. The plurality of compression bars are evenly arranged on the annular chain, and the both ends of cloth can go deep into the space between the adjacent compression bars, drive the cloth and descend in material storage channel, have increased range width of cloth of range upon range of cloth simultaneously, have further increased the cloth storage volume of soaking tank, extension cloth soaking time.
In embodiment 6, as shown in fig. 7 and 8, the conveyor belt has a conveyor belt structure. The conveying net belt structure comprises a conveying net belt 21 and pressing plates 18 uniformly distributed on the conveying net belt, wherein the conveying net belt is a stainless steel net belt or a polyurethane net belt. The two sides of the conveying net belt are respectively provided with a net belt chain 19 which is matched with net belt chain wheels 20 arranged on the left driving roller, the right driving roller, the left driven roller and the right driven roller. The conveyer belt cooperates the pressure flitch and can drive the cloth and descends, and the guipure is spacing to the cloth both sides simultaneously, compresses tightly the cloth and avoids the cloth to drift sideslip, extension cloth soaking time, the cloth storage volume of increase cell body, and polyurethane guipure still has corrosion-resistant effect. The conveying mechanism of the conveying net belt structure can drive the cloth to descend in the material storage channel, although the cloth cannot enter the conveying net belt, the cloth width of the laminated cloth is smaller than that of the pressing rod structure, and the cloth storage quantity of the dipping tank is obviously greatly increased compared with that of the conventional dipping tank.
In embodiment 7, as shown in fig. 9, the guide rollers are plural and are arranged side by side in the lower portion of the rectangular groove body. The guide rollers are uniformly distributed, so that the cloth can be supported, and the ordered discharging of the cloth is assisted.
The guide roller is a flapping transmission roller. The guide roller can adopt a flapping transmission roller, and the flapping transmission roller comprises a transmission roller body, a transmission roller shaft and axial convex strips uniformly arranged on the outer surface of the transmission roller body. The cross section of the axial convex strip is in an inverted T-shaped structure. The cloth is conveyed and is beaten, and the glue on the back of the cloth is removed, so that the cleaning effect of the cloth is further improved.
In example 8, as shown in fig. 10, a baffle 22 is provided below the right conveying mechanism. The baffle is arranged at the discharge port of the material storage channel, and limits the distribution at the outlet of the material storage channel, so that the distribution is sequentially discharged, and the phenomenon that the distribution at the outlet floats and is not fixed is avoided; in addition, the bottom of the baffle contacts the surface of the cloth to be discharged, so that dirt on the surface of the cloth can be scraped off, and the cleaning effect of the cloth is further improved.
The length of the rectangular groove body is larger than the width of the cloth, the height is 1000-3000 mm, and the width is 1000-2000 mm. The length direction of rectangular channel body and the width looks adaptation of waiting to wash cloth width of cloth width or be greater than the width of cloth width, the channel body make full use of workshop height in the direction of height, and the vertical design of channel body not only occupies the space little, solves the limited problem in workshop space, and the cloth is arranged in the cell body along the direction of height moreover, holds cloth volume in the washing tank more, satisfies the great requirement of cloth storage volume, can also prolong the immersion time of cloth in the washing tank simultaneously, improves cloth cleaning effect.
The cloth 25 to be washed is swung and laminated by a swing mechanism to enter the material folding storage channel, and left and right conveying mechanisms are arranged on two sides of the material folding storage channel, so that the left and right conveying mechanisms not only assist in feeding of the cloth, but also can compress the cloth and compress the swing width of the cloth, the cloth storage amount of the dipping tank is increased, and the cloth is extruded and longitudinally laminated into the material storage channel under the action of the left and right conveying mechanisms; the width of the tank body, namely the length direction of the tank body along the washing line, can be designed according to the swing width of the folded cloth, and the height of the tank body is fully utilized in the height direction of the tank body, so that the height of the dipping tank body is increased, the cloth storage amount is increased, and the dipping time of the cloth is prolonged; the impregnated cloth is output from a cloth outlet, and because the cloth is longitudinally laminated, in order to avoid floating confusion of the cloth to be discharged in water, the cloth is discharged in an auxiliary mode through guide rollers, a plurality of guide rollers can be provided with supporting plates or a plurality of carrier rollers to support the cloth, so that the impregnated cloth is discharged orderly and then enters a padder, and the cloth is extruded through a rubber roller 23 and a steel roller 24 of the padder to enter the next cleaning process.
The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (9)

1. The vertical dipping and beating groove is characterized by comprising a rectangular groove body with an opening at the upper part, wherein a cloth conveying and folding mechanism and a cloth lifting mechanism arranged at one side of the cloth conveying and folding mechanism are arranged in the rectangular groove body;
the cloth lifting mechanism comprises a guide roller arranged at the lower part of the rectangular groove body and a plurality of spreading rollers arranged upwards along the groove wall of the rectangular groove body, wherein the spreading rollers are sequentially and zigzag arranged to tension cloth and convey the cloth out of the rectangular groove body;
the clapping and expanding roller comprises a roller body, a roller shaft and roller wires arranged on the outer surface of the roller body, wherein the roller wires comprise a plurality of spiral forward roller wires and bolt reverse roller wires;
the cloth conveying folding mechanism comprises a left conveying mechanism and a right conveying mechanism, the left conveying mechanism is arranged on the inner left side of the rectangular groove body, the left conveying mechanism comprises a left driving roller and a left driven roller which are arranged in parallel up and down, and a left conveying belt is arranged between the left driving roller and the left driven roller in a surrounding mode; the right conveying mechanism is arranged on the inner right side of the rectangular groove body and comprises a right driving roller and a right driven roller which are arranged in parallel up and down, and a right conveying belt is arranged between the right driving roller and the right driven roller in a surrounding mode;
the left conveying mechanism and the right conveying mechanism are structurally symmetrically arranged;
a cloth outlet is arranged on the right side wall of the rectangular groove body;
a material folding storage channel is formed between the left conveyor belt and the right conveyor belt.
2. The vertical immersion beating trough of claim 1, wherein the cloth lifting mechanism further comprises a deviation rectifying roller arranged above the rectangular trough body, and an output roller is further arranged in a trough below the deviation rectifying roller.
3. The vertical immersion beating trough of claim 1, wherein a brush roller is further provided between the beating and spreading rollers.
4. A vertical impregnation beater tank according to any of claims 1-3, wherein the cloth lifting mechanism further comprises a plurality of spray devices.
5. The vertical impregnation beater tub of claim 1, wherein the conveyor belt is a compression bar structure or a conveyor mesh belt structure.
6. The vertical type dipping and beating tank as claimed in claim 1, wherein the guide rollers are arranged in a plurality of side-by-side manner at the lower part of the rectangular tank body.
7. The vertical impregnation beater tank of claim 1, wherein the guide rollers are beater transfer rollers.
8. The vertical type dipping and patting tank according to claim 1, wherein a baffle is provided below the right conveying mechanism.
9. The vertical type dipping and beating tank according to claim 1, wherein the length of the rectangular tank body is larger than the width of cloth, the height is 1000-3000 mm, and the width is 1000-2000 mm.
CN201710990463.0A 2017-10-23 2017-10-23 Vertical dipping and beating groove Active CN107630313B (en)

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CN107630313B true CN107630313B (en) 2024-04-09

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CH168104A (en) * 1931-12-08 1934-03-31 Waldemar Dr Zaenker Device for the continuous aggravation of natural and artificial silk.
CH364755A (en) * 1957-01-19 1962-10-15 Richard Dr Ing Holzhaeuer Device for the continuous treatment of textile material in web form, e.g. for steaming fabric webs
GB1016172A (en) * 1961-05-20 1966-01-05 Sandro Iron Works Improvements in or relating to the processing of cloth
CN2182186Y (en) * 1994-01-15 1994-11-09 赵梦天 Cure chamber for dyeing in width
CN1114701A (en) * 1994-07-06 1996-01-10 兴洋染织株式会社 Method for dying fabrics of layered blanket
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CN104862906A (en) * 2015-04-28 2015-08-26 青岛大学 Totally-loose type continuous dip dyeing and whitening production line and a production process of fabric whitening or color fixing treatment
CN204753112U (en) * 2015-04-28 2015-11-11 青岛大学 System integration of one -step method production line host devices is bathed in kiering, bleaching no. 1
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CN105002682A (en) * 2015-09-08 2015-10-28 泰安康平纳机械有限公司 Continuous rolling scouring process scouring and bleaching machine and scouring and bleaching process thereof
CN205000127U (en) * 2015-09-08 2016-01-27 泰安康平纳机械有限公司 Serialization is rolled and is floated technology scouring and bleaching machine
CN205420911U (en) * 2016-03-23 2016-08-03 安德里茨(中国)有限公司 Vertical steeping cell
CN206070153U (en) * 2016-08-31 2017-04-05 绍兴永通印花有限公司 A kind of stacking box
CN207405351U (en) * 2017-10-23 2018-05-25 山东广泰环保科技有限公司 A kind of vertical dipping pats slot

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