CN220619429U - Efficient energy-saving cold dyeing machine for dyeing - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving dyeing cold dyeing machine, which belongs to the technical field of cloth dyeing equipment, and comprises a cold dyeing machine body, wherein one side of the cold dyeing machine body is provided with a bracket assembly, the bracket assembly is provided with a disassembly assembly, when a cloth rolling barrel needs to be disassembled, first telescopic rods at two sides are started to extend so that a supporting plate, a cambered surface tray and rotating shafts at two sides move upwards in the first sliding groove, in the moving process, through rotating shafts at two ends of a connecting plate, second U-shaped steel at two sides can move outwards in the second sliding groove at two sides and compress springs at two sides, so that inflatable shafts at two sides fall off from the inside of the cloth rolling barrel and fall to the upper end of the cambered surface tray.

Description

Efficient energy-saving cold dyeing machine for dyeing

Technical Field

The utility model belongs to the technical field of cloth printing and dyeing equipment, and particularly relates to a high-efficiency energy-saving cold dyeing machine for dyeing.

Background

In recent years, there has been an increasing demand for color and comfort of clothing wear. The sales of the knitted fabric increases greatly. So that the reactive dye with the advantages of bright color, complete color spectrum, low price, simple and convenient process, good leveling property, better washing fastness and the like is also the dye variety with the largest using amount in the printing and dyeing industry.

Prior art, patent application number: 202123000662.3 discloses a high-efficiency energy-saving dyeing machine, a cloth rolling drum is simply inserted between two air expansion shafts, an adjusting component drives two adjusting blocks to do relative motion, the two air expansion shafts fix a cloth rolling drum on the circumferential side wall of the cloth rolling drum, when the cloth rolling drum is rolled, the end part of cloth is fixed on the circumferential outer wall of the cloth rolling drum, a driving motor drives the cloth rolling drum to rotate through the air expansion shafts, when the cloth rolling shaft is disassembled, a supporting rod is driven by a lifting component to support the cloth, the two adjusting blocks are driven by the two adjusting components to do back-to-back motion, manual disassembly by people is not needed, the disassembly efficiency of the cloth rolling drum is improved, and further the manpower waste is reduced; the adjusting component realizes the position adjustment of the adjusting block, and improves the convenience of distance square adjustment between the two inflatable shafts; the lifting component enables the supporting rod to support cloth with different winding thicknesses, and the use convenience of the supporting rod is improved.

However, the existing mechanism for taking down the cloth roller is complex, and the new cloth roller still needs to be installed by an operator in cooperation with a machine after taking down, which is very inconvenient.

Disclosure of Invention

Aiming at the problems that the existing mechanism for taking down the cloth rolling drum is complex, and the installation of a new cloth rolling drum after taking down still needs an operator to be matched with a machine for installation, the utility model provides a high-efficiency energy-saving dyeing cold dyeing machine, which comprises a cold dyeing machine body, wherein one side of the cold dyeing machine body is provided with a bracket assembly, and a disassembly assembly is installed on the bracket assembly, so that the problems can be effectively solved by matching the components.

In order to solve the problems, the utility model adopts the following technical scheme.

The utility model provides a high-efficient energy-conserving dyeing is with cold dyeing machine, includes the cold dyeing machine body, cold dyeing machine body one side be provided with the support assembly, install on the support assembly and dismantle the assembly.

Specifically, dye the cloth through the cold dyeing machine body, be used for installing through the support assembly and dismantle the assembly, dismantlement and the installation batching section of thick bamboo that can be more convenient through dismantling the assembly.

Further, the support assembly include first U type frame, the both sides wall of first U type frame on be provided with symmetrical first spout, the upper end fixedly connected with symmetrical second U type frame of first U type frame both sides, the inboard bottom of both sides second U type frame is provided with symmetrical second spout.

Specifically, the first chute, the first U-shaped frame, the second U-shaped frame and the second chute are used for installing and detaching the assembly.

Further, dismantle the assembly include the layer board, the flexible end of the first telescopic link of bottom movable mounting bilateral symmetry of layer board, the first U shaped steel of both ends fixedly connected with symmetry of layer board, the inside rotation of the first U shaped steel of both sides is connected with the connecting plate, the terminal rotation of both sides connecting plate is connected with the second U shaped steel, the both ends fixedly connected with symmetry's of connecting plate pivot, both sides pivot respectively with the inside rotation connection of first U shaped steel and second U shaped steel, the upper end fixedly connected with symmetry's of both sides second U shaped steel mounting panel, the opposite face fixedly connected with symmetry's of both sides second U shaped steel spring, the opposite face movable mounting of both sides mounting panel has the motor of symmetry, the end swing joint that rotates of both sides motor has the gas expansion axle of symmetry.

Specifically, the supporting plate is driven to rise through the extension of the first telescopic rods at the two sides, and the second U-shaped steel at the two sides can be outwards moved through the rotation of the connecting plate, the first U-shaped steel and the second U-shaped steel when the supporting plate rises, so that the cloth rolling barrel can be detached.

Further, the center department of layer board be provided with the jack, the inside of jack passes there is the flexible end of second telescopic link, the flexible end contact of second telescopic link has the cambered surface tray, the up end of cambered surface tray is provided with the sponge layer.

Specifically, can drive the cambered surface tray alone through the extension of second telescopic link and rise, can be more convenient when installing the batching section of thick bamboo.

Further, the first U-shaped steel on both sides is in sliding connection with the first sliding grooves on both sides, the first telescopic rods on both sides are in movable connection with the upper end face inside the first U-shaped frame, the second U-shaped steel on both sides is in sliding connection with the second sliding grooves on both sides, and the opposite ends of the springs on both sides are fixedly connected with the opposite ends inside the second sliding grooves on both sides.

Further, the second telescopic rod is movably connected with the upper end face inside the first U-shaped frame, and the cambered surface tray is slidably connected inside the first U-shaped frame.

Advantageous effects

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

(1) According to the utility model, when the cloth winding drum needs to be disassembled, the first telescopic rods at the two sides are started to extend so that the supporting plate, the cambered surface tray and the rotating shafts at the two sides move upwards in the first sliding groove, in the moving process, the second U-shaped steel at the two sides can move outwards in the second sliding groove at the two sides and compress the springs at the two sides through the rotation of the rotating shafts at the two ends of the connecting plate, so that the inflatable shafts at the two sides fall off from the inside of the cloth winding drum and fall to the upper end of the cambered surface tray, the disassembly is convenient, the structure is simple, and the production and use cost is reduced.

(2) According to the utility model, after the cloth rolling drum is disassembled, a new cloth rolling drum is placed at the upper end of the cambered surface tray, at the moment, the second telescopic rod is started until the bottom of the cambered surface tray is relieved, and even the inner part of the new cloth rolling drum on the cambered surface tray is parallel to the inflatable shafts at two sides, at the moment, the first telescopic rods at two sides are contracted to enable the supporting plate to descend, and the second U-shaped steel at two sides is enabled to move inwards through the rotation of the connecting plate until the inflatable shafts at two sides are inserted into the inner part of the new cloth rolling drum and inflated and fixed, so that the cloth rolling drum is more convenient to install.

Drawings

FIG. 1 is a schematic diagram of a high-efficiency energy-saving dyeing machine for dyeing;

FIG. 2 is a schematic view of a disassembly assembly according to the present utility model.

The correspondence between the reference numerals and the component names in the drawings is as follows:

1. a body of the cold dyeing machine;

2. a bracket assembly; 201. a first U-shaped frame; 202. a first chute; 203. a second U-shaped frame; 204. a second chute;

3. disassembling the assembly; 301. a first telescopic rod; 302. a supporting plate; 303. a first U-shaped steel; 304. a rotating shaft;

305. a connecting plate; 306. a second U-shaped steel; 307. a mounting plate; 308. a spring; 309. a motor; 310. an air expansion shaft; 311. a jack; 312. a cambered surface tray; 313. and a second telescopic rod.

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.

Examples

As shown in fig. 1-2, which are schematic structural diagrams of a high-efficiency energy-saving dyeing machine according to a preferred embodiment of the present utility model, the high-efficiency energy-saving dyeing machine according to the present embodiment includes a machine body 1, a bracket assembly 2 is disposed on one side of the machine body 1, and a disassembly assembly 3 is mounted on the bracket assembly 2.

Specifically, dye the cloth through cold dyeing machine body 1, be used for installing through support assembly 2 and dismantle assembly 3, dismantlement and the installation batching section of thick bamboo that can be more convenient through dismantling assembly 3.

Further, the bracket assembly 2 includes a first U-shaped frame 201, symmetrical first sliding grooves 202 are provided on two side walls of the first U-shaped frame 201, symmetrical second U-shaped frames 203 are fixedly connected to upper ends of two sides of the first U-shaped frame 201, and symmetrical second sliding grooves 204 are provided at bottoms of inner sides of the two sides of the second U-shaped frames 203.

Specifically, the first chute 202, the first U-shaped frame 201, the second U-shaped frame 203, and the second chute 204 are used to mount and dismount the assembly 3.

Further, the disassembly assembly 3 includes a supporting plate 302, the bottom of the supporting plate 302 is movably provided with the telescopic ends of the first telescopic rods 301 which are bilaterally symmetrical, two ends of the supporting plate 302 are fixedly connected with the first U-shaped steel 303 which is symmetrical, the inner parts of the first U-shaped steel 303 on two sides are rotatably connected with a connecting plate 305, the tail ends of the connecting plate 305 on two sides are rotatably connected with the second U-shaped steel 306, two ends of the connecting plate 305 are fixedly connected with symmetrical rotating shafts 304, the two side rotating shafts 304 are respectively rotatably connected with the inner parts of the first U-shaped steel 303 and the second U-shaped steel 306, the upper ends of the second U-shaped steel 306 on two sides are fixedly connected with symmetrical mounting plates 307, the opposite surfaces of the second U-shaped steel 306 on two sides are fixedly connected with symmetrical springs 308, the opposite surfaces of the mounting plates 307 on two sides are movably provided with symmetrical motors 309, and the rotating ends of the motors 309 on two sides are movably connected with symmetrical inflatable shafts 310.

Specifically, the first telescopic rods 301 at two sides stretch to drive the supporting plate 302 to ascend, and when the supporting plate 302 ascends, the second U-shaped steel 306 at two sides can be outwards moved through rotation of the connecting plate 305 and the first U-shaped steel 303 and the second U-shaped steel 306, so that the cloth rolling drum can be detached.

Further, a jack 311 is disposed at the center of the supporting plate 302, a telescopic end of a second telescopic rod 313 passes through the jack 311, the telescopic end of the second telescopic rod 313 contacts with a cambered surface tray 312, and a sponge layer is disposed on the upper end surface of the cambered surface tray 312.

Specifically, the cambered surface tray 312 can be independently driven to rise by the extension of the second telescopic rod 313, which can be more convenient when the cloth roller is mounted.

Further, the first U-shaped steel 303 on both sides is slidably connected with the first sliding grooves 202 on both sides, the first telescopic rods 301 on both sides are movably connected with the upper end surface inside the first U-shaped frame 201, the second U-shaped steel 306 on both sides is slidably connected with the second sliding grooves 204 on both sides, and opposite ends of the springs 308 on both sides are fixedly connected with opposite ends inside the second sliding grooves 204 on both sides.

Further, the second telescopic rod 313 is movably connected with the upper end surface of the inner portion of the first U-shaped frame 201, and the cambered surface tray 312 is slidably connected with the inner portion of the first U-shaped frame 201.

Working principle: when the cloth roller needs to be disassembled, the first telescopic rods 301 at the two sides are started to extend so that the supporting plate 302, the cambered surface tray 312 and the rotating shafts 304 at the two sides move upwards in the first sliding groove 202, the rotating shafts 304 at the two ends of the connecting plate 305 rotate in the moving process so that the second U-shaped steel 306 at the two sides move outwards in the second sliding groove 204 at the two sides and compress the springs 308 at the two sides, the inflatable shafts 310 at the two sides fall off from the inside of the cloth roller and fall to the upper end of the cambered surface tray 312, and the cloth roller can be conveniently disassembled, so that the cloth roller is simple in structure and low in production and use cost; after the cloth roll is detached, a new cloth roll is placed at the upper end of the cambered surface tray 312, at this time, the second telescopic rods 313 are started until the bottom of the cambered surface tray 312 is released and the new cloth roll on the cambered surface tray 312 is even positioned at the position parallel to the two sides of the inflatable shafts 310, at this time, the first telescopic rods 301 on the two sides are contracted to enable the supporting plates 302 to descend through the rotation of the connecting plates 305, so that the second U-shaped steel 306 on the two sides moves inwards through the springs 308 on the two sides until the two sides of the inflatable shafts 310 are inserted into the new cloth roll and are inflated and fixed, and therefore the cloth roll is more convenient to install.

The foregoing is a further elaboration of the present utility model in connection with the detailed description, and it is not intended that the utility model be limited to the specific embodiments shown, but rather that a number of simple deductions or substitutions be made by one of ordinary skill in the art without departing from the spirit of the utility model, should be considered as falling within the scope of the utility model as defined in the appended claims.

Claims (4)

1. A high-efficient energy-conserving dyeing machine that uses, its characterized in that: including cold dyeing machine body (1), cold dyeing machine body (1) one side be provided with support assembly (2), install on support assembly (2) and dismantle assembly (3), support assembly (2) include first U type frame (201), the both sides wall of first U type frame (201) on be provided with symmetrical first spout (202), the upper end fixedly connected with symmetrical second U type frame (203) of first U type frame (201) both sides, the inboard bottom of both sides second U type frame (203) is provided with symmetrical second spout (204), dismantle assembly (3) including layer board (302), the flexible end of the first telescopic link (301) of bottom movable mounting bilateral symmetry of layer board (302), the both ends fixedly connected with symmetrical first U shaped steel (303) of layer board (302), the inside rotation of both sides first U shaped steel (303) is connected with second U shaped steel (306), the both ends fixedly connected with pivot (307) of both sides second U shaped steel (306) and pivot (307) of both sides rotation of second U shaped steel (306) are connected with the pivot (307) respectively, the opposite surfaces of the second U-shaped steel (306) on the two sides are fixedly connected with symmetrical springs (308), symmetrical motors (309) are movably arranged on the opposite surfaces of the mounting plates (307) on the two sides, and the rotating ends of the motors (309) on the two sides are movably connected with symmetrical inflatable shafts (310).

2. The energy efficient dye chill machine according to claim 1, wherein: the center department of layer board (302) be provided with jack (311), the inside of jack (311) is passed there is the flexible end of second telescopic link (313), the flexible end contact of second telescopic link (313) has cambered surface tray (312), the up end of cambered surface tray (312) is provided with the sponge layer.

3. The energy efficient dye chill machine according to claim 1, wherein: the first U-shaped steel (303) on two sides is in sliding connection with the first sliding grooves (202) on two sides, the first telescopic rods (301) on two sides are movably connected with the upper end face inside the first U-shaped frame (201), the second U-shaped steel (306) on two sides is in sliding connection with the second sliding grooves (204) on two sides, and the opposite ends of the springs (308) on two sides are fixedly connected with the opposite ends inside the second sliding grooves (204) on two sides.

4. The energy efficient dyeing machine according to claim 2, wherein: the second telescopic rod (313) is movably connected with the upper end face inside the first U-shaped frame (201), and the cambered surface tray (312) is slidably connected inside the first U-shaped frame (201).