CN220952485U - Dyeing structure of high-elasticity warm-keeping strong-woven trousers fabric - Google Patents

Abstract

The utility model relates to the technical field of fabric dyeing, and discloses a high-elasticity warm-keeping woven trousers fabric dyeing structure, which solves the problem that wool fabrics are easy to deform due to frequent stirring during dyeing of the existing fabric. According to the utility model, the double-headed motor, the linkage assembly, the intermittent rotation assembly and the rotation assembly are used for starting the double-headed motor, the double-headed motor drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate by using the belt, the driven wheel drives the connecting block to rotate, a group of cylindrical rods connected with the outer side of the connecting block move along the arc-shaped groove formed in the rotary drum, so that the sliding rods drive the chuck to rotate, the chuck and the soaking cylinder are mutually clamped, the soaking cylinder is enabled to rotate for 90 degrees, the wool fabric in the soaking cylinder can be driven to rotate, then the operation is repeated, 90-degree gap rotation can be realized under the cooperation of the pushing piece and the rotary drum, the wool fiber is more gently stirred, and the damage is avoided.

Description

Dyeing structure of high-elasticity warm-keeping strong-woven trousers fabric

Technical Field

The utility model relates to the technical field of fabric dyeing, in particular to a high-elasticity warm-keeping and strong-woven trousers fabric dyeing structure.

Background

The woven fabric is formed by interlacing warp and weft in a picking mode, is more breathable, stronger and more wear-resistant than other fabrics, wherein the woven fabric can be divided into various types according to different yarns, such as cotton cloth, linen, wool and the like, and the wool fabric is woven by utilizing wool fibers through weaving, has the characteristics of good warmth retention property and good elasticity, is generally used for manufacturing trousers and coats in winter, and needs different colors of woven fabrics in the trousers manufacturing process, so that dyeing treatment is needed for the woven fabric.

Through searching, the prior Chinese patent publication number is: CN218711467U, provide a dyeing apparatus for cashmere wool fabric, through setting up the rabbling mechanism, can be under the effect of rabbling mechanism, the user of facilitating the use will put into wool fabric in the dyeing jar and carry out abundant stirring for dyeing pigment and wool fabric intensive mixing, thereby increase dyeing effect and efficiency, reached the purpose that the user of facilitating the use dyes wool fabric, increase dyeing effect and efficiency;

although the above-mentioned patents can improve dyeing effect, the above-mentioned fabric dyeing structure has the following problems: the above-mentioned surface fabric dyeing structure is when stirring the wool surface fabric of tatting, and stirring too frequently, and the stirring range is great, because wool is a kind of fiber of yielding, consequently need milder stirring when wool surface fabric dyes, utilizes the stirring mode of foretell patent, leads to the unable normal use of surface fabric after dyeing easily, appears the defective product easily, is inconvenient for protecting wool fiber's integrality.

Aiming at the problems, innovative design is carried out on the basis of the original dyeing structure of the wool fabric.

Disclosure of utility model

The utility model aims to provide a dyeing structure of a high-elasticity warm-keeping woven trousers fabric, which is used for solving the problem that the wool fabric is easy to deform due to too frequent stirring during dyeing of the existing fabric.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the dyeing structure of the high-elasticity warm-keeping strong-woven trousers fabric comprises an outer cylinder, a metering cylinder, a soaking cylinder and a water outlet pipe, wherein the bottom of the outer cylinder is connected with a driving box for placing parts, and an auxiliary assembly for rotating the soaking cylinder is arranged in the driving box;

The auxiliary assembly comprises a double-headed motor arranged in the driving box, one end of the double-headed motor is connected with a linkage assembly, an intermittent rotating assembly is arranged on the outer side of the linkage assembly, an installation assembly is connected in the intermittent rotating assembly in a sliding manner, and the installation assembly and the soaking cylinder are in a clamping structure;

The linkage assembly comprises a driving wheel connected to one end of the double-headed motor, a belt is arranged on the outer side of the driving wheel, and a driven wheel is arranged on the other side of the belt;

The intermittent rotating assembly comprises a pushing piece connected to the outer side of the driven wheel, and one side of the pushing piece is connected with the rotating assembly in a sliding manner;

The pushing piece comprises a connecting block connected to the outer side of the driven wheel, a cylindrical rod is connected to the outer side of the connecting block, and an arc-shaped strip is connected to the outer side of the connecting block;

The rotating assembly comprises a rotating drum which is in sliding connection with the outer side of the mounting assembly, an arc-shaped groove is formed in the outer side of the rotating drum, fixing plates are fixed at two ends of the rotating drum, gaps are formed in the outer side of the fixing plates, and the arc-shaped groove is in sliding connection with the cylindrical rod.

Further, the urceolus upper end is provided with the apron, and the apron upper end is provided with the block assembly, soaking section of thick bamboo height is less than the urceolus height, and soaking section of thick bamboo upper end is provided with the piston board to the piston board upper end is fixed with the butt joint piece, the hole has been seted up to the inside butt joint piece.

Further, the clamping assembly comprises a chute arranged in the cover plate, an operating rod is slidably connected in the chute, a clamping block is connected to the outer side of the bottom of the operating rod, and the clamping block is mutually clamped with the hole in the butt joint block.

Further, the cylindrical rods and the arc-shaped strips are symmetrically distributed with the circle center of the connecting block as a symmetrical axis.

Further, two groups of arc grooves are formed in one side of the rotary drum, the two groups of arc grooves are distributed in a crossed mode, and the width of the notch is consistent with the width of the arc strip.

Further, the driving wheel and the driven wheel are movably connected with the inner wall of the driving box.

Further, the installation component includes sliding connection at the inside slide bar of rotary drum, and slide bar one side is fixed with square piece, the slide bar upper end is connected with the chuck, and chuck and soak a section of thick bamboo mutual block.

Further, sliding rod bottom swing joint has lifting unit, and lifting unit includes the lantern ring of swing joint in the sliding rod bottom to the lantern ring outside is fixed with the longer, longer one side is fixed with the cavity board, and the shape of cavity board comprises a set of arc and two sets of horizon, the inside sliding connection of cavity board has the lug, and the lug outside is connected with the curved bar, curved bar end and double-end motor other end interconnect.

Compared with the prior art, the utility model has the following beneficial effects:

The dyeing structure of the woven trousers fabric with high elasticity and heat retention has the advantages that the wool fabric is easy to deform due to frequent stirring during dyeing of the existing fabric; according to the utility model, the double-headed motor, the linkage assembly, the intermittent rotating assembly and the rotating assembly are used for starting the double-headed motor, one end of the double-headed motor drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate by using the belt, the driven wheel drives the connecting block to rotate, a group of cylindrical rods connected with the outer side of the connecting block move along the arc grooves formed in the rotary drum, when the arc strips are aligned with the notches formed in the fixing plates fixed up and down of the rotary drum, the rotary drum is stopped in a rotating mode, the sliding rods drive the chuck to rotate, the chuck and the soaking drum are clamped with each other, the soaking drum is enabled to rotate by 90 degrees, the wool fabric inside the soaking drum can be driven to rotate, then the operation is repeated, the 90-degree gap rotation can be realized under the cooperation of the pushing piece and the rotary drum, the wool fiber can be stirred more mildly, and the wool fiber is prevented from being damaged.

Drawings

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

FIG. 2 is a schematic diagram of the whole structure of the present utility model;

FIG. 3 is a schematic view of a soaking cylinder according to the present utility model;

FIG. 4 is a schematic view of a soaking cylinder according to the present utility model;

FIG. 5 is a schematic view of a locking assembly according to the present utility model;

FIG. 6 is a schematic view of a linkage assembly according to the present utility model;

fig. 7 is a schematic structural view of a rotating assembly according to the present utility model.

In the figure: 1. an outer cylinder; 2. a cover plate; 3. a clamping assembly; 31. an operation lever; 32. a clamping block; 33. a chute; 4. a metering barrel; 5. a water outlet pipe; 6. a drive box; 7. a soaking cylinder; 71. a piston plate; 72. a butt joint block; 8. an auxiliary component; 81. a double-ended motor; 82. a linkage assembly; 821. a driving wheel; 822. a belt; 823. driven wheel; 83. an intermittent rotating assembly; 831. a pushing member; 8311. a connecting block; 8312. a cylindrical rod; 8313. an arc-shaped strip; 832. a rotating assembly; 8321. a rotating drum; 8322. an arc-shaped groove; 8323. a fixing plate; 8324. a notch; 84. a mounting assembly; 841. a slide bar; 842. a chuck; 85. a lifting assembly; 851. a curved bar; 852. a hollow plate; 853. a long plate; 854. a collar.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

With reference to fig. 1 and 2, the dyeing structure of the high-elasticity warm-keeping strong-woven trousers fabric comprises an outer cylinder 1, a metering barrel 4, a soaking cylinder 7 and a water outlet pipe 5, wherein the bottom of the outer cylinder 1 is connected with a driving box 6 for placing parts, and an auxiliary component 8 for rotating the soaking cylinder 7 is arranged in the driving box 6;

The utility model is further described below with reference to examples.

Example 1:

referring to fig. 3-5, a cover plate 2 is disposed at an upper end of the outer cylinder 1, a clamping assembly 3 is disposed at an upper end of the cover plate 2, a soaking cylinder 7 is smaller than the outer cylinder 1, a piston plate 71 is disposed at an upper end of the soaking cylinder 7, a butt joint block 72 is fixed at an upper end of the piston plate 71, and a hole is formed in the butt joint block 72, so that the soaking cylinder 7 has enough moving space in the outer cylinder 1.

The clamping assembly 3 comprises a sliding groove 33 formed in the cover plate 2, an operating rod 31 is slidably connected in the sliding groove 33, a clamping block 32 is connected to the outer side of the bottom of the operating rod 31, and the clamping block 32 is mutually clamped with a hole in the butt joint block 72, so that the piston plate 71 is conveniently driven to synchronously move while the cover plate 2 is moved.

Specifically, the fabric to be dyed needs to be placed inside the soaking cylinder 7 before dyeing, the soaking cylinder 7 is located at the highest point in the initial state, in order to save operation steps, the cover plate 2 and the piston plate 71 can be simultaneously opened, the operation rod 31 is firstly moved inwards, the operation rod 31 slides inwards along the sliding groove 33, the clamping block 32 fixed at the bottom of the operation rod 31 is clamped with the butt joint block 72, at the moment, the cover plate 2 and the piston plate 71 are linked into a whole, then the cover plate 2 is moved upwards by using the handle, the outer cylinder 1 and the soaking cylinder 7 are simultaneously opened, at the moment, the fabric to be dyed is placed inside the soaking cylinder 7, and then the dyeing agent and the water are put into the outer cylinder 1 through the metering cylinder 4, so that the preparation work before dyeing is finished, the outer cylinder 1 and the soaking cylinder 7 can be conveniently opened simultaneously, the operation steps are simplified, and convenience and rapidness are improved.

Example 2:

Referring to fig. 6 and 7, the auxiliary assembly 8 includes a double-headed motor 81 mounted inside the driving case 6, and a linkage assembly 82 is connected to one end of the double-headed motor 81, an intermittent rotation assembly 83 is disposed outside the linkage assembly 82, and an installation assembly 84 is slidably connected inside the intermittent rotation assembly 83, and the installation assembly 84 is in a clamping structure with the soaking cylinder 7, so that the linkage assembly 82 is rotatable.

The linkage assembly 82 includes a driving wheel 821 connected to one end of the double-headed motor 81, a belt 822 is provided on the outer side of the driving wheel 821, and a driven wheel 823 is provided on the other side of the belt 822, and the driven wheel 823 can be driven to rotate.

The intermittent rotating assembly 83 includes a pushing member 831 connected to the outer side of the driven wheel 823, and a rotating assembly 832 is slidably connected to one side of the pushing member 831, and the rotating pushing member 831 can push the rotating assembly 832 to rotate.

The pushing member 831 includes a connection block 8311 connected to the outside of the driven wheel 823, and a cylindrical rod 8312 is connected to the outside of the connection block 8311, and an arc bar 8313 is further connected to the outside of the connection block 8311, so that the cylindrical rod 8312 intermittently pushes the rotating assembly 832 to rotate when the connection block 8311 rotates.

The rotating assembly 832 includes a rotary drum 8321 slidably connected to the outside of the mounting assembly 84, and an arc slot 8322 is formed in the outside of the rotary drum 8321, and fixing plates 8323 are fixed to both ends of the rotary drum 8321, and a notch 8324 is formed in the outside of the fixing plates 8323, and the arc slot 8322 is slidably connected to the cylindrical rod 8312, so that when the arc strip 8313 is aligned with the notch 8324, the rotation stop can be realized.

The cylindrical rod 8312 and the arc-shaped strip 8313 are symmetrically distributed with two groups by taking the center of the connecting block 8311 as a symmetrical axis, and can rotate again after stopping for a period of time after rotating for 90 degrees.

The arc grooves 8322 are formed in two groups on one side of the rotary drum 8321, the arc grooves 8322 in two groups are distributed in a crossing mode, the width of the notch 8324 is consistent with that of the arc strip 8313, and the arc grooves 8322 in two groups which are crossed are convenient to rotate back and forth.

The driving wheel 821 and the driven wheel 823 are movably connected with the inner wall of the driving box 6, so that the driving wheel 821 and the driven wheel 823 rotate at the temperature.

The installation component 84 includes sliding connection at the inside slide bar 841 of rotary drum 8321, and slide bar 841 one side is fixed with square piece, and slide bar 841 upper end is connected with chuck 842, and chuck 842 and soaking section of thick bamboo 7 block each other, conveniently drive soaking section of thick bamboo 7 rotation.

The sliding rod 841 bottom swing joint has lifting unit 85, and lifting unit 85 includes the lantern ring 854 of swing joint in sliding rod 841 bottom, and the lantern ring 854 outside is fixed with long board 853, long board 853 one side is fixed with hollow board 852, and the shape of hollow board 852 comprises a set of arc and two sets of horizon, the inside sliding connection of hollow board 852 has the lug, and the lug outside is connected with curved bar 851, curved bar 851 end and the other end interconnect of stud 81, thereby can utilize the hollow board 852 shape to drive long board 853 and reciprocate.

Specifically, in order to stir wool more gently, at this time, the double-headed motor 81 is started, one end of the double-headed motor 81 drives the driving wheel 821 to rotate, the driving wheel 821 drives the driven wheel 823 to rotate by using the belt 822, the driven wheel 823 drives the connecting block 8311 to rotate, a group of cylindrical rods 8312 connected to the outer side of the connecting block 8311 move along an arc groove 8322 formed in the rotary drum 8321, so that the rotary drum 8321 is driven to rotate 90 degrees by using the arc groove 8322, then the arc strips 8313 are aligned with notches 8324 formed in a fixed plate 8323 fixed up and down the rotary drum 8321, the rotary drum 8321 is stopped in a rotating manner, the sliding rod 841 in sliding connection is driven to rotate when the rotary drum 8321 rotates, the sliding rod 841 is cylindrical in the inner area of the outer cylinder 1, therefore, normal rotation of the sliding rod 841 is not influenced, the sliding rod 842 drives the chuck 842 to rotate, the chuck 842 and the soaking drum 7 is clamped with each other, so that the soaking drum 7 rotates 90 degrees, the wool fabric inside the soaking cylinder 7 can be driven to rotate, then the operation is repeated, 90-degree gap rotation can be realized under the cooperation of the pushing piece 831 and the rotary drum 8321, the wool fiber can be more gently stirred, damage to the wool fiber can be avoided, meanwhile, the protruding block on the curved rod 851 connected with the other end of the double-headed motor 81 just moves to the horizontal area of the hollow plate 852 when the rotary drum 8321 stops rotating, at the moment, the curved rod 851 continues to rotate to drive the hollow plate 852 to move downwards, so that the hollow plate 852 drives the long plate 853 to move downwards, the long plate 853 is movably connected with the bottom of the sliding rod 841 by utilizing the collar 854 fixed at the outer side, so that the long plate 853 drives the sliding rod 841 to move downwards, the sliding rod 841 drives the soaking cylinder 7 to move downwards by utilizing the chuck 842, the wool fabric inside the soaking cylinder 7 moves up and down, the dye can better permeate into the wool fiber through longitudinal movement, the dyeing quality is improved, the fusion of the dye and the fabric can be promoted in multiple directions by utilizing the intermittent staggered motion in the longitudinal direction and the transverse direction.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a high elasticity warmth retention strong shuttle knits trousers surface fabric dyeing structure, includes urceolus (1), measurement bucket (4), soaks section of thick bamboo (7) and outlet pipe (5), its characterized in that: the bottom of the outer cylinder (1) is connected with a driving box (6) for placing parts, and an auxiliary assembly (8) for rotating the soaking cylinder (7) is arranged in the driving box (6);

The auxiliary assembly (8) comprises a double-headed motor (81) arranged in the driving box (6), one end of the double-headed motor (81) is connected with a linkage assembly (82), an intermittent rotating assembly (83) is arranged outside the linkage assembly (82), an installation assembly (84) is connected inside the intermittent rotating assembly (83) in a sliding manner, and the installation assembly (84) and the soaking cylinder (7) are in a clamping structure;

The linkage assembly (82) comprises a driving wheel (821) connected to one end of the double-headed motor (81), a belt (822) is arranged on the outer side of the driving wheel (821), and a driven wheel (823) is arranged on the other side of the belt (822);

The intermittent rotating assembly (83) comprises a pushing piece (831) connected to the outer side of the driven wheel (823), and one side of the pushing piece (831) is connected with the rotating assembly (832) in a sliding manner;

the pushing piece (831) comprises a connecting block (8311) connected to the outer side of the driven wheel (823), a cylindrical rod (8312) is connected to the outer side of the connecting block (8311), and an arc-shaped strip (8313) is also connected to the outer side of the connecting block (8311);

The rotating assembly (832) comprises a rotating drum (8321) which is slidably connected to the outer side of the mounting assembly (84), an arc-shaped groove (8322) is formed in the outer side of the rotating drum (8321), fixing plates (8323) are fixed to two ends of the rotating drum (8321), gaps (8324) are formed in the outer side of the fixing plates (8323), and the arc-shaped groove (8322) is slidably connected with the cylindrical rod (8312).

2. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 1, wherein the dyeing structure comprises the following components: the novel soaking device is characterized in that a cover plate (2) is arranged at the upper end of the outer barrel (1), a clamping assembly (3) is arranged at the upper end of the cover plate (2), the height of the soaking barrel (7) is smaller than that of the outer barrel (1), a piston plate (71) is arranged at the upper end of the soaking barrel (7), a butt joint block (72) is fixed at the upper end of the piston plate (71), and holes are formed in the butt joint block (72).

3. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 2, wherein: the clamping assembly (3) comprises a sliding groove (33) formed in the cover plate (2), an operating rod (31) is connected in the sliding groove (33) in a sliding mode, a clamping block (32) is connected to the outer side of the bottom of the operating rod (31), and the clamping block (32) is clamped with a hole in the butt joint block (72).

4. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 1, wherein the dyeing structure comprises the following components: the cylindrical rods (8312) and the arc-shaped strips (8313) are symmetrically distributed in two groups by taking the circle center of the connecting block (8311) as a symmetrical axis.

5. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 1, wherein the dyeing structure comprises the following components: two groups of arc-shaped grooves (8322) are formed in one side of the rotary drum (8321), the two groups of arc-shaped grooves (8322) are distributed in a crossing mode, and the width of the notch (8324) is consistent with that of the arc-shaped strip (8313).

6. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 5, wherein the dyeing structure comprises the following components: the driving wheel (821) and the driven wheel (823) are movably connected with the inner wall of the driving box (6).

7. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 6, wherein the dyeing structure comprises the following components: the installation component (84) is including sliding connection at the inside slide bar (841) of rotary drum (8321), and slide bar (841) one side is fixed with square piece, slide bar (841) upper end is connected with chuck (842), and chuck (842) and soaking section of thick bamboo (7) block each other.

8. The high-elasticity warm-keeping strong-woven trousers fabric dyeing structure according to claim 7, wherein: the utility model discloses a lifting device for a double-end motor, including sliding rod (841), sliding rod (841) bottom swing joint has lifting unit (85), and lifting unit (85) including swing joint lantern ring (854) in sliding rod (841) bottom to lantern ring (854) outside is fixed with longboard (853), longboard (853) one side is fixed with cavity board (852), and the shape of cavity board (852) comprises a set of arc and two sets of horizontal lines, cavity board (852) inside sliding connection has the lug, and the lug outside is connected with curved bar (851), curved bar (851) end and double-end motor (81) other end interconnect.