CN215713941U

CN215713941U - Dyeing device for chemical fiber yarn production

Info

Publication number: CN215713941U
Application number: CN202121771643.8U
Authority: CN
Inventors: 吴伟南; 吴凯; 陈霞; 沈洁
Original assignee: Nantong Tongzhou Kaiyue Textile Co ltd
Current assignee: Nantong Tongzhou Kaiyue Textile Co ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2022-02-01
Anticipated expiration: 2031-07-30

Abstract

The utility model discloses a dyeing device for producing chemical fiber yarns, which comprises a dyeing box and a dyeing box arranged in the dyeing box, wherein the upper surface of the dyeing box is provided with two hole grooves for yarns to pass through; this dyeing apparatus of chemical fiber yarn production usefulness, after the yarn got into to be soaked the dyeing in the dye box, the yarn reentrant to the treatment box in, the removal subassembly at this moment is in the operation, and then drives two carding assemblies that are located the upper and lower both sides of yarn, carries out reciprocating motion about, thereby can smooth the coloring agent on yarn surface, and smear down unnecessary coloring agent from the yarn, avoid the condition that the coloring agent is too much to appear in the individual position of yarn.

Description

Dyeing device for chemical fiber yarn production

Technical Field

The utility model belongs to the technical field of chemical fiber yarns, and particularly relates to a dyeing device for producing chemical fiber yarns.

Background

The chemical fiber is a chemical fiber, which is made of natural or synthetic polymer. According to the difference of raw materials source, can be divided into the synthetic fiber who uses natural macromolecular substance as the raw materials and the synthetic fiber who uses synthetic macromolecular substance as the raw materials, chemical fiber yarn then is made through chemical fiber's processing, also in order to improve pleasing to the eye degree in order to satisfy different demands, dyeing apparatus's use is comparatively common in the chemical fiber yarn processing, dyeing apparatus who is used for chemical fiber yarn among the prior art all soaks the yarn in the dyeing agent and air-dries it again, however, when the yarn is pulled out from the dye box after being dyed, the dyeing agent on its surface adheres to comparatively inhomogeneous, thereby lead to dyeing not high quality, general dyeing apparatus does not all set up the mechanism that can carry out even processing to the dyeing agent on yarn surface.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the dyeing device for producing the chemical fiber yarn is provided to solve the problems in the prior art.

The technical scheme is as follows:

a dyeing device for producing chemical fiber yarns comprises a dyeing box and a dyeing box arranged in the dyeing box, wherein a feeding pipe arranged on the dyeing box vertically penetrates through the dyeing box and extends to the outside, two hole grooves for yarns to pass through are formed in the upper surface of the dyeing box, the hole groove in the right side of the dyeing box is a yarn inlet, the hole groove in the left side of the dyeing box is a yarn outlet, a guide roller is further arranged below the two hole grooves and inside the dyeing box, a processing mechanism additionally arranged in the dyeing box is further included, the processing mechanism comprises an inverted trapezoidal processing box with an opening at the bottom end, the side wall of the processing box is provided with a threading groove, the processing box is arranged on the left side of the dyeing box and is communicated with the dyeing box, and yarns can pass through the processing box from right to left;

the treatment box is internally provided with a carding component for carding the surface dye of the yarn and a moving component for driving the carding component to move in the treatment box, the moving component is powered by a driving component, and the driving component is arranged in the dyeing box; handle case and dye case intercommunication each other to can clear up the surface of the yarn that is dyed in dye case, make the yarn can not appear dyeing inhomogeneous condition.

In a further embodiment, the driving assembly comprises a motor and two first transmission belts arranged on the output end of the motor, wherein one first transmission belt is connected with the moving assembly, and the other first transmission belt is connected with the stirring assembly; can provide power for the moving assembly and the stirring assembly.

In a further embodiment, the stirring assembly is arranged in the dyeing agent box and comprises two stirring shafts, the two stirring shafts are arranged in the dyeing agent box in a vertically staggered manner, stirring rods are fixed on the shaft walls of the two stirring shafts, and the stirring rods on the two stirring shafts are arranged in a front-back staggered manner;

the two stirring shafts are connected through a second transmission belt, wherein the stirring shaft positioned at the upper position is connected with the first transmission belt; the setting of (mixing) shaft can play the effect of stirring the coloring agent, avoids solidifying the sediment.

In a further embodiment, the moving assembly comprises a gear and two racks which are meshed with the upper end and the lower end of the gear in a staggered mode, the gear is fixed on a rotating shaft, one end, which is not connected with the gear, of the rotating shaft penetrates through the processing box and is connected with the first transmission belt, and a sliding assembly is arranged between the racks and the processing box;

the sliding assembly comprises a first sliding block arranged on the side wall of the rack and a first sliding groove for the first sliding block to slide, and the first sliding groove is preset on the inner wall of the treatment box; the stability of the movable assembly in sliding in the treatment box can be ensured.

In a further embodiment, the carding assembly comprises a vertical rod and a cleaning piece fixed at one end of the vertical rod facing the threading groove, wherein the vertical rod vertically penetrates through a vertical groove formed in the rack and is connected with the vertical groove in a sliding manner through a connecting mechanism;

the connecting mechanism comprises a second sliding block and a second sliding groove for the second sliding block to slide, the second sliding groove is pre-arranged in the groove wall of the vertical groove, the second sliding block is arranged on the rod body of the vertical rod, and a spring is connected between the second sliding block and the second sliding groove;

the cleaning piece is in a frame shape, the inner wall of the frame is provided with a rubber sheet with soft bristles, and yarns penetrate through the cleaning piece; the cleaning member can be used for uniformly coating the surface of the yarn passing through the cleaning member.

In a further embodiment, a recycling assembly is further arranged in the dyeing box, the recycling assembly comprises an inclined plate and a conveying pump, the inclined plate is fixed in the dyeing box and is positioned below the dyeing box, and a cavity is reserved at the bottoms of the inclined plate and the dyeing box and used for placing the conveying pump;

one end of the delivery pump is communicated with and provided with a collecting pipe, the other end of the delivery pump is communicated with and provided with a delivery pipe, one end of the collecting pipe, which is far away from the delivery pump, penetrates through the inclined plate and collects the dye falling on the inclined plate, and one end of the delivery pipe, which is far away from the delivery pump, penetrates through the inclined plate and is communicated and fixed with the dye box; the dropping coloring agent can be recycled, and the environment-friendly and energy-saving effects are achieved.

The utility model has the beneficial effects that: through set up processing mechanism in dyeing incasement, processing mechanism is including handling the case, handle case and dyeing case intercommunication each other, after the yarn enters into to dyeing case and is soaked the dyeing, the yarn reenters to handling the case, the removal subassembly at this moment is in the operation, and then drive two carding assemblies that are located the upper and lower both sides of yarn, reciprocating motion about carrying out, thereby can smooth the coloring agent on yarn surface, and smear down unnecessary coloring agent from the yarn, avoid the too much condition of coloring agent to appear in the individual position of yarn, the effectual dyeing quality that improves the yarn, make the dyeing of yarn even.

Drawings

Fig. 1 is a schematic sectional front view of the present invention.

Fig. 2 is an enlarged schematic view of the structure at a in fig. 1 according to the present invention.

Fig. 3 is an enlarged schematic view of the utility model at B in fig. 2.

FIG. 4 is a side sectional structural schematic view of the dye box of the present invention.

The reference signs are: dyeing box 1, hole groove 11, guide roller 12, dyeing box 2, feed tube 21, stirring assembly 22, stirring shaft 221, second drive belt 223, processing mechanism 3, drive assembly 4, first drive belt 41, processing box 5, threading groove 51, first chute 52, moving assembly 6, rack 61, first slider 611, gear 62, vertical groove 63, second chute 631, spring 632, carding assembly 7, vertical rod 71, second slider 711, cleaning piece 72, recovery assembly 8, inclined plate 81, delivery pump 82, collecting tube 821 and delivery pipe 822.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the utility model.

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-4, the dyeing apparatus for producing chemical fiber yarns disclosed by the utility model comprises a dyeing box 1 and a dyeing box 2 arranged in the dyeing box 1, wherein a feeding pipe 21 arranged on the dyeing box 2 vertically penetrates through the upper part of the dyeing box 1 and extends to the outside, two hole grooves 11 for yarns to pass through are arranged on the upper surface of the dyeing box 1, the hole groove 11 positioned on the right side of the dyeing box 2 is a yarn inlet, the hole groove 11 positioned on the left side of the dyeing box 2 is a yarn outlet, a guide roller 12 is further arranged below the two hole grooves 11 and inside the dyeing box 1, the treatment mechanism 3 is additionally arranged in the dyeing box 1, the treatment mechanism 3 comprises an inverted trapezoidal treatment box 5 with an opening at the bottom end, a threading groove 51 is formed in the side wall of the treatment box 5, the treatment box 5 is arranged on the left side of the dyeing box 2 and is mutually communicated with the dyeing box 2, and yarns can pass through the treatment box from right to left; a carding component 7 for carding the surface dye of the yarn and a moving component 6 for driving the carding component 7 to move in the treatment box 5 are arranged in the treatment box 5, the moving component 6 is powered by a driving component 4, and the driving component 4 is arranged in the dyeing box 1; when the device is used, the yarn firstly enters the dye box 2 from the entering hole groove 11, after being dyed by the dye in the dye box 2, the yarn then enters the treatment box 5 and is connected with the carding component 7, and the moving component 6 in operation enables the carding component 7 to uniformly wipe the surface of the yarn in moving;

in order to enable the moving assembly 6 to drive the carding assembly 7 to move, the driving assembly 4 comprises a motor and two first transmission belts 41 arranged on the output end of the motor, wherein one first transmission belt 41 is connected with the moving assembly 6, and the other first transmission belt 41 is connected with the stirring assembly 22; when the motor runs, the moving component 6 can be driven to run in the processing box 5 through the first transmission belt 41;

in order to avoid precipitation and solidification of the dyeing agent, the stirring assembly 22 is arranged in the dyeing agent box 2, the stirring assembly 22 comprises two stirring shafts 221, the two stirring shafts 221 are arranged in the dyeing agent box 2 in a vertically staggered manner, stirring rods are fixed on the shaft walls of the two stirring shafts 221, and the stirring rods on the two stirring shafts 221 are arranged in a front-back staggered manner; the two stirring shafts 221 are connected through a second transmission belt 222, wherein the stirring shaft 221 positioned at the upper position is connected with the first transmission belt 41; the stirring shaft 221 connected with the other first transmission belt 41 can rotate when the motor runs, so that the dye in the dye box 2 is stirred, and solidification and precipitation are avoided;

the moving assembly 6 comprises a gear 62 and two racks 61 meshed with the upper end and the lower end of the gear 62 in a staggered manner, the gear 62 is fixed on a rotating shaft, one end, which is not connected with the gear, of the rotating shaft penetrates through the treatment box 5 to be connected with the first transmission belt 41, and a sliding assembly is arranged between the racks 61 and the treatment box 5; the sliding assembly comprises a first sliding block 611 mounted on the side wall of the rack 61 and a first sliding groove 52 for the sliding of the first sliding block 611, the first sliding groove 52 is preset on the inner wall of the treatment box 5; when the gear 62 rotates forwards and backwards under the driving of the motor, the two staggered racks 61 are driven to be close to or far away from each other, so that the carding assembly 7 can move left and right outside the yarn, and the surface of the yarn is treated more comprehensively;

the carding assembly 7 comprises a vertical rod 71 and a cleaning piece 72 fixed at one end of the vertical rod 71 facing the threading groove 51, wherein the vertical rod 71 vertically penetrates through the vertical groove 63 formed in the rack 61 and is connected with the vertical groove 63 in a sliding manner through a connecting mechanism; the connecting mechanism comprises a second sliding block 711 and a second sliding groove 631 for the second sliding block 711 to slide, the second sliding groove 631 is preset in a groove wall of the vertical groove 63, the second sliding block 711 is installed on a rod body of the vertical rod 71, and a spring 632 is connected between the second sliding block 711 and the second sliding groove 631; when the yarn is pulled through by an external winding device or other device, the carding assembly 7 is affected by the movement of the yarn, so that the vertical bar 71 slides up and down in the vertical groove 63 to adjust; the cleaning piece 72 is a frame-shaped rubber sheet with soft bristles on the inner wall of the frame, and yarns penetrate through the cleaning piece 72; the frame-shaped structure enables both the upper and lower surfaces of the yarn to contact the cleaning member 72, and the mutual combination of the rubber and the soft bristles does not cause excessive damage to the surface of the yarn;

in order to collect the dyeing agent falling from the surface of the yarn, the dyeing box 1 is also provided with a recovery assembly 8, the recovery assembly 8 comprises an inclined plate 81 and a delivery pump 82, the inclined plate 81 is fixed in the dyeing box 1 and is positioned below the dyeing box 2, and a cavity is reserved at the bottoms of the inclined plate 81 and the dyeing box 1 and used for placing the delivery pump 82; one end of the delivery pump 82 is provided with a collecting pipe 821 in a communicating way, the other end of the delivery pump 82 is provided with a delivery pipe 822 in a communicating way, one end of the collecting pipe 821, which is far away from the delivery pump 82, penetrates through the inclined plate 81 to collect the dye falling on the inclined plate 81, and one end of the delivery pipe 822, which is far away from the delivery pump 82, penetrates through the inclined plate 81 to be fixedly communicated with the dye box 2; when the excessive dyeing agent on the surface of the yarn is smeared by the cleaning piece 72, the dyeing agent drops onto the inclined plate 81 from the treatment tank 5, the delivery pump 82 is opened, and the collecting pipe 821 can suck the dyeing agent on the inclined plate 81 and deliver the dyeing agent into the dyeing agent tank 2.

The implementation principle of the utility model is as follows: connect the yarn into dyeing case 1 through the subassembly that draws, open the motor, the yarn enters into earlier and penetrates again in treating case 5 to dyeing case 1, and when the yarn was pulled the conveying, the yarn was dyed earlier, is treated case 5 by dyeing section reentrant again, passes carding assembly 7, and carding assembly 7 at this moment moves about under the effect of removal subassembly 6 to the surface of yarn is wiped evenly and is handled, improves the dyeing quality of yarn.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the embodiments, and various equivalent changes can be made to the technical solution of the present invention within the technical idea of the present invention, and these equivalent changes are within the protection scope of the present invention.

Claims

1. The utility model provides a dyeing apparatus of chemical fiber yarn production usefulness, includes the dyeing case and locates the dyeing case of dyeing incasement, the vertical top that runs through the dyeing case of the filling tube of installation on the dyeing case extends to the outside, the upper surface of dyeing case is seted up two hole grooves that supply the yarn to pass, is located the hole groove on dyeing case right side is the yarn import, is located the left hole groove of dyeing case and is the yarn export two the below of hole groove, the inside that is located the dyeing case still are equipped with wire roller, its characterized in that: the dyeing machine is characterized by also comprising a treatment mechanism additionally arranged in the dyeing box, wherein the treatment mechanism comprises an inverted trapezoidal treatment box with an opening at the bottom end, the side wall of the treatment box is provided with a threading groove, and the treatment box is arranged on the left side of the dyeing box, is mutually communicated with the dyeing box and can be used for yarns to pass through from right to left;

the processing box is internally provided with a carding component for carding the surface dye of the yarn and a moving component for driving the carding component to move in the processing box, the moving component is powered by a driving component, and the driving component is arranged in the dyeing box.

2. A dyeing apparatus for the production of chemical fiber yarn according to claim 1, characterized in that: the drive assembly comprises a motor and a first transmission belt arranged on the output end of the motor, wherein the output end of the motor is provided with two first transmission belts, one first transmission belt is connected with the moving assembly, and the other first transmission belt is connected with the stirring assembly.

3. A dyeing apparatus for the production of chemical fiber yarn according to claim 2, characterized in that: the stirring assembly is arranged in the dyeing agent box and comprises two stirring shafts, the two stirring shafts are arranged in the dyeing agent box in a vertically staggered manner, stirring rods are fixed on the shaft walls of the two stirring shafts, and the stirring rods on the two stirring shafts are arranged in a front-back staggered manner;

the two stirring shafts are connected through a second transmission belt, wherein the stirring shaft positioned above is connected with the first transmission belt.

4. A dyeing apparatus for the production of chemical fiber yarn according to claim 1, characterized in that: the moving assembly comprises a gear and two racks which are meshed with the upper end and the lower end of the gear in a staggered mode, the gear is fixed on a rotating shaft, one end, which is not connected with the gear, of the rotating shaft penetrates through the processing box and is connected with the first transmission belt, and a sliding assembly is arranged between the racks and the processing box;

the sliding assembly comprises a first sliding block arranged on the side wall of the rack and a first sliding groove for the first sliding block to slide, and the first sliding groove is arranged on the inner wall of the treatment box in advance.

5. A dyeing apparatus for the production of chemical fiber yarn according to claim 1, characterized in that: the carding assembly comprises a vertical rod and a cleaning piece fixed at one end of the vertical rod, which faces the threading groove, the vertical rod vertically penetrates through a vertical groove formed in the rack and is connected with the vertical groove in a sliding manner through a connecting mechanism;

the cleaning piece is a frame-shaped rubber sheet with soft bristles on the inner wall of the frame, and yarns penetrate through the cleaning piece.

6. A dyeing apparatus for the production of chemical fiber yarn according to claim 1, characterized in that: the dyeing box is characterized in that the dyeing box is also provided with a recovery assembly, the recovery assembly comprises an inclined plate and a delivery pump, the inclined plate is fixed in the dyeing box and is positioned below the dyeing box, and a cavity is reserved at the bottoms of the inclined plate and the dyeing box and used for placing the delivery pump;

the one end intercommunication of transfer pump is installed and is collected the pipe, and the conveyer pipe is installed to the other end intercommunication, collect the pipe and keep away from the one end of transfer pump and run through the swash plate, collect the dyestuff that falls into on the swash plate, the one end that the transfer pump was kept away from to the conveyer pipe runs through the swash plate and is fixed with dyestuff case intercommunication.