CN220026780U - Cotton sock dyeing raw material processing device - Google Patents

Abstract

The utility model relates to a cotton sock dyeing raw material processing device. The stirring flexibility of the resin lens raw material stirring equipment in the prior art is poor. It includes the supporting baseplate, the supporting baseplate upper end is equipped with the churn, churn both ends rotate through vertical location branch that sets up on the supporting baseplate and support, churn one end is equipped with can drive churn pivoted rotation actuating mechanism, the churn is interior to be equipped with stirring shearing subassembly in the axle, stirring shearing subassembly one end is through setting up the stirring rotary mechanism drive at the churn other end, churn circumference is provided with temperature regulation subassembly, the churn outer wall is equipped with the guide connection structure that communicates each other with churn circumference inboard, the last detachable feed assembly or the ejection of compact subassembly of being connected with of guide connection structure, churn one end is equipped with high-pressure intake pipe, and the churn other end is equipped with high-pressure blast pipe. The utility model has the advantages that: the operation is convenient, the use flexibility is good, and the processing effect of the dyeing raw material is effectively improved.

Description

Cotton sock dyeing raw material processing device

Technical Field

The utility model relates to the technical field of processing equipment, in particular to a cotton sock dyeing raw material processing device.

Background

In the production process of plain socks, dyeing treatment is required, the traditional sock dyeing is usually carried out by using dyeing equipment loaded with dye, and the dye in the dyeing equipment is mostly stirred by adding water into a stirring device before use, so that uniform liquid dye is obtained. When stirring the liquid dye, the ingredients are placed into a storage barrel filled with the liquid dye, and then stirred by a stirrer. The stirring rod of the existing stirrer is vertically arranged on the barrel body, the barrel body possibly slides during stirring due to the movable placement property of the stirring rod, the stirring efficiency is affected, and then the stirred dye is collected and the barrel is cleaned after each stirring is completed, so that the existing stirring device is very inconvenient for storing and taking the dye; in addition, the cotton sock printing and dyeing has higher stirring and mixing requirements on dyeing raw materials, the color difference and color mixing of the dyeing raw materials are easily caused by the deviation of temperature and pressure in the process of processing the dyeing raw materials, the stirring temperature and pressure of the conventional dyeing raw material stirring equipment are difficult to adjust according to the needs in the stirring process, the stirring flexibility is poor, and the final forming effect of the dye is easily influenced.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example, chinese patent literature discloses a textile dye stirring device [ cn202111653254.X ], which includes a power component, a stirring device, a fixed platform, a support leg fixedly arranged on the lower end surface of the fixed platform, a stopper arranged on the front side of the fixed platform, and a support base arranged on the rear side of the fixed platform; the movable bearing platform is positioned in the center of the fixed platform, the lower end surface of the movable bearing platform is fixedly provided with brake casters, the movable bearing platform is provided with a barrel placing groove, and a stirring barrel is placed on the barrel placing groove; and the protecting part is welded on the support base, the protecting part is arranged on the rigid support, and the rigid support is contacted with the outer wall of the stirring barrel.

The above-mentioned scheme has solved the problem that dye agitated vessel stirring inefficiency and be difficult to take and deposit the dyestuff among the prior art to a certain extent, but this scheme still has a great deal of shortages, for example: in the stirring process, the stirring temperature and the stirring pressure are difficult to adjust according to the needs, the stirring flexibility is poor, and the final forming effect of the dye is easily influenced.

Disclosure of Invention

The utility model aims to solve the problems and provide a cotton sock dyeing raw material processing device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a cotton sock dyeing raw materials processingequipment, including supporting baseplate, the supporting baseplate upper end is equipped with the churn, and churn both ends rotate the support through vertical location branch that sets up on supporting baseplate, churn one end is equipped with can drive churn pivoted rotation actuating mechanism, the churn is interior to be equipped with stirring shearing module in the axle, and stirring shearing module one end is through setting up the stirring rotary mechanism drive at the churn other end, churn circumference is provided with temperature regulation subassembly, and the churn outer wall is equipped with the guide connection structure that communicates each other with churn circumference inboard, detachably connected with feeding subassembly or ejection of compact subassembly on the guide connection structure, churn one end is equipped with high-pressure inlet tube, and the churn other end is equipped with high-pressure blast pipe.

Through setting up rotation driving mechanism in churn one end to set up the stirring rotation mechanism who is connected with stirring shearing subassembly at the other end, can freely adjust stirring shearing rate when stirring, prevent the dyestuff solidification, and setting up of high-pressure air inlet pipe and high-pressure blast pipe can adjust the stirring pressure in the churn moreover, and secondly, temperature regulation can adjust stirring temperature, and the stirring is nimble more convenient.

In the cotton sock dyeing raw material processing device, the two ends of the stirring cylinder are provided with the rotating connecting parts, the rotating connecting parts are sleeved with the rotating bearings, and the outer rings of the rotating bearings are connected with the upper positioning support rods.

In the above-mentioned cotton socks dyeing raw materials processingequipment, rotate actuating mechanism and include rotation driving motor, rotate driving motor and pass through the motor cabinet location, and be equipped with the linkage gear on rotation driving motor's the output shaft, and be equipped with synchronous gear on the rotation connecting portion that the churn is close to linkage gear one end, synchronous gear and linkage gear intermeshing.

In the cotton sock dyeing raw material processing device, the stirring and shearing assembly comprises a rotary connecting mandrel, a plurality of shearing blades which are arranged in a staggered mode are arranged at two ends of the rotary connecting mandrel, a plurality of stirring blades which are arranged vertically to the rotary connecting mandrel are arranged between the shearing blades, and the shearing blades are arranged obliquely towards the stirring blades.

The setting of shearing blade and stirring vane can make the dyeing raw materials keep loose at the in-process of stirring, prevents fixed coagulation, can concentrate the raw materials of stirring towards stirring vane department in the in-process of stirring moreover, is convenient for concentrate the stirring.

In the above-mentioned cotton sock dyeing raw materials processingequipment, stirring rotary mechanism includes stirring driving motor, and stirring driving motor is fixed a position through setting up the stirring motor cabinet on supporting baseplate, and stirring driving motor output links to each other with rotating the connection dabber.

In the cotton sock dyeing raw material processing device, one end of the rotary connecting mandrel is rotationally inserted into the inner wall of the stirring cylinder, the other end of the rotary connecting mandrel penetrates out of the stirring cylinder and is provided with the sealing part on the outer side of the circumference, and one side of the sealing part is provided with the rotary connecting bearing.

The sealing part can prevent raw materials from leaking, and the arrangement of the rotary connecting bearing can prevent the rotation of the rotary connecting mandrel from being limited by the stirring barrel, so that the rotation of different frequencies is realized.

In the cotton sock dyeing raw material processing device, the temperature adjusting component comprises a metal heat conduction shell with a water cavity, a liquid injection hole is formed in the outer wall of the metal heat conduction shell, a strip-shaped metal heat conduction pipe communicated with the water cavity is arranged on the inner side of the circumferential direction of the stirring barrel, and the metal heat conduction shell is connected with electric heating equipment arranged outside through a heat conduction module.

When heating is needed, the metal heat conduction shell and the strip-shaped metal heat conduction pipe are heated by external electric heating equipment, and cooling liquid is input when cooling.

In the above-mentioned cotton socks dyeing raw materials processingequipment, guide connection structure includes the passage that communicates each other with churn circumference inboard, and the passage circumference outer wall is equipped with annular location portion, and is equipped with the grafting spread groove on the annular location portion, and the passage circumference inner wall is equipped with the joint bellying, and the joint bellying circumference inner wall is equipped with the joint groove, is equipped with a plurality of gaps of stepping down on the joint bellying.

In the cotton sock dyeing raw material processing device, the feeding assembly comprises a feeding barrel, a plurality of plug-in connection parts which are arranged corresponding to the abdicating gaps are arranged on the circumference of the feeding barrel, and a plurality of feeding channels which are arranged at intervals are arranged on the circumference inner side of the feeding barrel.

The feeding tube can be connected with the material guiding tube during feeding, and the feeding channels which are arranged at intervals can prevent raw materials from contacting before entering.

In the cotton sock dyeing raw material processing device, the discharging component comprises a discharging barrel, one end of the discharging barrel is provided with an inserting part which is correspondingly arranged with the inserting connection groove, the other end of the discharging barrel is provided with a discharging pipe, the circumferential inner side of the discharging barrel is provided with a filter screen frame, the middle part of the filter screen frame is provided with an inserting connection groove which can be used for inserting a filter screen, one side of the filter screen frame is provided with a material receiving part, the other side of the filter screen frame is provided with a discharging part, the circumferential outer wall of the material receiving part and the discharging part is provided with a temperature adjusting water cavity, and the temperature adjusting water cavity is connected with an external water supply pipe through the water receiving pipe.

The temperature regulation when can realizing the ejection of compact is set up like this, and the filter screen of different specifications can be changed as required in the setting of plug-in connection groove moreover, convenient to use.

Compared with the prior art, the utility model has the advantages that: the simple operation, the flexibility of use is good, can be to realizing temperature regulation and inside atmospheric pressure regulation at dyeing raw materials processing's in-process to can adjust temperature and pressure as required, improve dyestuff machining efficiency, secondly, churn and stirring shearing subassembly can realize the rotation of different rotational speeds, further improves the stirring effect, can carry out secondary temperature regulation when the ejection of compact moreover, excellent in use effect.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the stirring and shearing assembly of the present utility model;

FIG. 3 is a schematic view of a temperature regulating assembly according to the present utility model;

FIG. 4 is a schematic view of a material guiding connection structure in the present utility model;

FIG. 5 is a schematic view of the feed assembly of the present utility model;

FIG. 6 is a cross-sectional view of the outfeed assembly of the present utility model;

in the figure: the support base plate 1, the positioning strut 11, the high-pressure air inlet pipe 12, the high-pressure air outlet pipe 13, the rotary connecting part 14, the rotary bearing 15, the stirring barrel 2, the stirring shearing assembly 3, the rotary connecting mandrel 31, the shearing blade 32, the stirring blade 33, the sealing part 34, the rotary connecting bearing 35, the stirring rotating mechanism 4, the stirring driving motor 41, the stirring motor base 42, the temperature adjusting assembly 5, the metal heat conducting shell 51, the water cavity 52, the liquid filling hole 53, the strip-shaped metal heat conducting pipe 54, the material guiding connecting structure 6, the material guiding pipe 61, the annular positioning part 62, the inserting connecting groove 63, the clamping protruding part 64, the clamping groove 65, the yielding gap 66, the feeding assembly 7, the feeding barrel 71, the inserting connecting part 72, the feeding channel 73, the discharging assembly 8, the discharging barrel 81, the inserting part 82, the discharging pipe 83, the filter screen frame 84, the inserting through groove 85, the material receiving part 86, the discharging part 87, the temperature adjusting water cavity 88, the water receiving pipe 89, the rotary driving mechanism 9, the rotation driving motor 91, the base 92, the gear 93 and the synchronizing gear 94.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description.

As shown in FIG. 1, a cotton sock dyeing raw material processing device, including supporting baseplate 1, supporting baseplate 1 upper end is equipped with churn 2, and churn 2 both ends are through vertical location branch 11 rotation support that sets up on supporting baseplate 1, churn 2 one end is equipped with can drive churn 2 pivoted rotation actuating mechanism 9, the interior axle of churn 2 is equipped with stirring shearing module 3, and stirring shearing module 3 one end is through setting up the stirring rotary mechanism 4 drive at the churn 2 other end, churn 2 circumference is provided with temperature regulation subassembly 5, and churn 2 outer wall is equipped with the guide connection structure 6 that communicates each other with churn 2 circumference inside, detachably connected with feed assembly 7 or ejection of compact subassembly 8 on the guide connection structure 6, churn 2 one end is equipped with high-pressure inlet tube 12, and the churn 2 other end is equipped with high-pressure blast pipe 13.

The stirring cylinder 2 is driven to rotate by the rotation driving mechanism 9, the stirring shearing assembly 3 is driven to stir and rotate by the stirring rotation mechanism 4, and the stirring cylinder 2 and the stirring shearing assembly 3 can rotate at different rotation speeds without mutual influence, so that the stirring efficiency is improved;

during feeding, the stirring cylinder 2 rotates to enable the opening of the guide connecting structure 6 to be upward and the feeding component 7 to be installed, during discharging, the stirring cylinder 2 rotates to enable the opening of the guide connecting structure 6 to be downward, the discharging component 8 is installed, and during stirring, the guide connecting structure 6 is closed.

The temperature regulating assembly 5 is used for electric heating and liquid cooling.

Wherein, the both ends of churn 2 are equipped with rotation connecting portion 14, and the cover is equipped with rotation bearing 15 on the rotation connecting portion 14, and rotation bearing 15 outer lane links to each other with last location branch 11.

Further, the rotation driving mechanism 9 includes a rotation driving motor 91, the rotation driving motor 91 is positioned by a motor base 92, a linkage gear 93 is arranged on an output shaft of the rotation driving motor 91, and a synchronous gear 94 is arranged on a rotation connecting portion 14 of the mixing drum 2, which is close to one end of the linkage gear 93, and the synchronous gear 94 is meshed with the linkage gear 93.

As shown in fig. 2, the stirring and shearing assembly 3 includes a rotating connection mandrel 31, a plurality of shearing blades 32 arranged in a staggered manner are arranged at two ends of the rotating connection mandrel 31, a plurality of stirring blades 33 arranged vertically to the rotating connection mandrel 31 are arranged between the shearing blades 32, and the shearing blades 32 are arranged obliquely towards the stirring blades 33.

The shearing blade 32 is mainly used for preventing the raw materials from being coagulated in the stirring process, and when the shearing blade 32 rotates, the raw materials can be pushed towards the stirring blade 33, and the discharging is convenient after the stirring is finished.

Wherein, stirring rotary mechanism 4 includes stirring driving motor 41, and stirring driving motor 41 is fixed a position through setting up the stirring motor cabinet 42 on supporting baseplate 1, and stirring driving motor 41 output links to each other with rotating connection dabber 31.

Specifically, one end of the rotary connection spindle 31 is rotatably inserted into the inner wall of the stirring cylinder 2, and the other end thereof is provided with a seal portion 34 extending from the stirring cylinder 2 to the outer side in the circumferential direction, and one side of the seal portion 34 is provided with a rotary connection bearing 35.

The sealing portion 34 is used for preventing materials from leaking, and the rotary connecting bearing 35 can prevent the rotary connecting mandrel 31 from being linked with the rotary connecting portion 14.

As shown in fig. 3, the temperature adjusting assembly 5 comprises a metal heat conducting shell 51 with a water cavity 52, a liquid injection hole 53 is arranged on the outer wall of the metal heat conducting shell 51, a strip-shaped metal heat conducting pipe 54 communicated with the water cavity 52 is arranged on the inner side in the circumferential direction of the stirring cylinder 2, and the metal heat conducting shell 51 is connected with an electric heating device arranged outside through a heat conducting module.

When heating is needed, the metal heat conduction shell 51 and the strip-shaped metal heat conduction pipe 54 are heated by external electric heating equipment, and when cooling is performed, cooling liquid is input into the metal heat conduction shell 51 and the strip-shaped metal heat conduction pipe 54.

As shown in fig. 4, the material guiding connection structure 6 includes a material guiding pipe 61 that is mutually communicated with the inner side of the circumference of the mixing drum 2, an annular positioning portion 62 is provided on the outer wall of the circumference of the material guiding pipe 61, an inserting connection groove 63 is provided on the annular positioning portion 62, a clamping protruding portion 64 is provided on the inner wall of the circumference of the material guiding pipe 61, a clamping groove 65 is provided on the inner wall of the circumference of the clamping protruding portion 64, and a plurality of relief gaps 66 are provided on the clamping protruding portion 64.

As shown in fig. 5, the feeding assembly 7 includes a feeding barrel 71, the feeding barrel 71 is circumferentially provided with a plurality of plug-in connection portions 72 corresponding to the yielding gaps 66, and a plurality of feeding channels 73 disposed at intervals are circumferentially provided on the inner side of the feeding barrel 71.

In the feeding, different raw materials are selected and different feeding channels 73 are used.

As shown in fig. 6, the discharging component 8 includes a discharging barrel 81, one end of the discharging barrel 81 is provided with a plugging portion 82 corresponding to the plugging connection groove 63, the other end of the discharging barrel is provided with a discharging pipe 83, a filter screen frame 84 is provided on the circumferential inner side of the discharging barrel 81, a plugging through groove 85 for plugging the filter screen is provided in the middle of the filter screen frame 84, one side of the filter screen frame 84 is provided with a material receiving portion 86, the other side of the filter screen frame 84 is provided with a discharging portion 87, the circumferential outer walls of the material receiving portion 86 and the discharging portion 87 are provided with a temperature adjusting water cavity 88, and the temperature adjusting water cavity 88 is connected with an external water supply pipe through a water receiving pipe 89.

The filter screens with different specifications can be replaced according to the filtering requirement, and in the discharging process, cooling liquid or high-temperature liquid can be injected into the temperature adjusting water cavity 88 to realize temperature adjustment during discharging.

In summary, the principle of this embodiment is as follows: in the process of dye processing, the stirring cylinder 2 and the rotary connecting mandrel 31 are respectively driven by the rotary driving motor 91 and the stirring driving motor 41, so that mixed stirring processing at different rotation speeds can be realized, the high-pressure air inlet pipe 12 and the high-pressure air outlet pipe 13 can realize the adjustment of the high-pressure environment in the stirring cylinder 2, and secondly, the circumferential temperature adjustment of the stirring cylinder 2 is realized by utilizing the metal heat conducting shell 51 and the strip-shaped metal heat conducting pipe 54, so that the pressure and the temperature are controlled, and the processing effect of dyeing raw materials is improved.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although the terms of the support base plate 1, the positioning rod 11, the high-pressure gas inlet pipe 12, the high-pressure gas outlet pipe 13, the rotary connecting portion 14, the rotary bearing 15, the stirring cylinder 2, the stirring and shearing module 3, the rotary connecting mandrel 31, the shearing blade 32, the stirring blade 33, the sealing portion 34, the rotary connecting bearing 35, the stirring and rotating mechanism 4, the stirring driving motor 41, the stirring motor mount 42, the temperature adjusting module 5, the metal heat conducting housing 51, the water chamber 52, the liquid filling hole 53, the strip-shaped metal heat conducting pipe 54, the material guiding connecting structure 6, the material guiding pipe 61, the annular positioning portion 62, the plug-in connection groove 63, the clamping convex portion 64, the clamping groove 65, the relief gap 66, the feeding module 7, the feeding cylinder 71, the plug-in connection portion 72, the feeding channel 73, the discharging module 8, the discharging cylinder 81, the plug-in portion 82, the discharging pipe 83, the filter screen frame 84, the plug-in connection groove 85, the material receiving portion 86, the discharging portion 87, the temperature adjusting water chamber 88, the water receiving pipe 89, the rotation driving mechanism 9, the rotation driving motor mount 92, the gear 93, the synchronizing gear 94, and the like are used more than not excluding the other terms. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a cotton sock dyeing raw materials processingequipment, includes back-up plate (1), back-up plate (1) upper end be equipped with churn (2), and churn (2) both ends rotate through vertical location branch (11) that set up on back-up plate (1) and support, its characterized in that, churn (2) one end be equipped with can drive churn (2) pivoted rotation actuating mechanism (9), churn (2) in axial be equipped with stirring shearing module (3), and stirring shearing module (3) one end is through setting up the stirring rotary mechanism (4) drive at the churn (2) other end, churn (2) circumference be provided with temperature regulation subassembly (5), and churn (2) outer wall be equipped with churn (2) circumference inboard intercommunication guide connection structure (6), guide connection structure (6) on detachably be connected with feed assembly (7) or ejection of compact subassembly (8), churn (2) one end be equipped with high pressure air inlet pipe (12), and churn (2) other end be equipped with high pressure blast pipe (13).

2. The cotton sock dyeing raw material processing device according to claim 1, wherein two ends of the stirring cylinder (2) are provided with rotating connecting parts (14), the rotating connecting parts (14) are sleeved with rotating bearings (15), and outer rings of the rotating bearings (15) are connected with the upper positioning support rods (11).

3. The cotton sock dyeing raw material processing device according to claim 1, wherein the rotation driving mechanism (9) comprises a rotation driving motor (91), the rotation driving motor (91) is positioned through a motor seat (92), a linkage gear (93) is arranged on an output shaft of the rotation driving motor (91), a synchronous gear (94) is arranged on a rotation connecting portion (14) of the stirring cylinder (2) close to one end of the linkage gear (93), and the synchronous gear (94) is meshed with the linkage gear (93).

4. The cotton sock dyeing raw material processing device according to claim 1, wherein the stirring and shearing assembly (3) comprises a rotary connecting mandrel (31), a plurality of shearing blades (32) which are arranged in a staggered mode are arranged at two ends of the rotary connecting mandrel (31), a plurality of stirring blades (33) which are arranged vertically to the rotary connecting mandrel (31) are arranged between the shearing blades (32), and the shearing blades (32) are arranged obliquely towards the stirring blades (33).

5. The cotton sock dyeing raw material processing device according to claim 4, wherein the stirring and rotating mechanism (4) comprises a stirring and driving motor (41), the stirring and driving motor (41) is positioned through a stirring motor seat (42) arranged on the supporting bottom plate (1), and the output end of the stirring and driving motor (41) is connected with the rotating and connecting mandrel (31).

6. The cotton sock dyeing raw material processing device according to claim 5, wherein one end of the rotary connecting mandrel (31) is rotatably inserted into the inner wall of the stirring cylinder (2), the other end of the rotary connecting mandrel penetrates out of the stirring cylinder (2) and is provided with a sealing part (34) on the outer side in the circumferential direction, and a rotary connecting bearing (35) is arranged on one side of the sealing part (34).

7. The cotton sock dyeing raw material processing device according to claim 1, wherein the temperature adjusting component (5) comprises a metal heat conducting shell (51) with a water cavity (52), a liquid injection hole (53) is formed in the outer wall of the metal heat conducting shell (51), a strip-shaped metal heat conducting pipe (54) communicated with the water cavity (52) is arranged on the circumferential inner side of the stirring cylinder (2), and the metal heat conducting shell (51) is connected with an external electric heating device through a heat conducting module.

8. The cotton sock dyeing raw material processing device according to claim 1, wherein the material guiding connection structure (6) comprises a material guiding pipe (61) communicated with the circumferential inner side of the stirring cylinder (2), an annular positioning part (62) is arranged on the circumferential outer wall of the material guiding pipe (61), an inserting connection groove (63) is formed in the annular positioning part (62), a clamping protruding part (64) is arranged on the circumferential inner wall of the material guiding pipe (61), a clamping groove (65) is formed in the circumferential inner wall of the clamping protruding part (64), and a plurality of yielding gaps (66) are formed in the clamping protruding part (64).

9. The cotton sock dyeing raw material processing device according to claim 8, wherein the feeding assembly (7) comprises a feeding barrel (71), a plurality of plug-in connection parts (72) which are arranged corresponding to the yielding gaps (66) are circumferentially arranged on the feeding barrel (71), and a plurality of feeding channels (73) which are arranged at intervals are circumferentially arranged on the inner side of the feeding barrel (71).

10. The cotton sock dyeing raw material processing device according to claim 8, wherein the discharging assembly (8) comprises a discharging barrel (81), a plugging part (82) corresponding to the plugging connecting groove (63) is arranged at one end of the discharging barrel (81), a discharging pipe (83) is arranged at the other end of the discharging barrel, a filter screen frame (84) is arranged on the circumferential inner side of the discharging barrel (81), a plugging through groove (85) for plugging the filter screen is arranged in the middle of the filter screen frame (84), a material receiving part (86) is arranged on one side of the filter screen frame (84), a discharging part (87) is arranged on the other side of the filter screen frame (84), a temperature adjusting water cavity (88) is arranged on the circumferential outer wall of the material receiving part (86) and the discharging part (87), and the temperature adjusting water cavity (88) is connected with an external water supply pipe through the water receiving pipe (89).