CN117026552B - Lifting type hanging dyeing equipment for fabric processing - Google Patents

Abstract

The application relates to the technical field of hanging dyeing, and discloses lifting hanging dyeing equipment for fabric processing, which comprises a dyeing tank. According to the application, the touch limiting tool is firstly abutted against the secondary hanging tool, so that the touch limiting tool is used for limiting the secondary hanging tool to continuously move upwards, the lifting plate is used for driving the primary hanging plate to continuously move upwards, so that relative sliding is generated between the secondary hanging tool and the primary hanging plate, kinetic energy is generated between the secondary hanging tool and the primary hanging plate, the kinetic energy is further generated, the kinetic energy is accumulated, the fabric hung on the secondary hanging tool is slightly accelerated upwards, the moisture in the fabric is rapidly discharged by utilizing the inertia force, the fabric is initially drained, the phenomenon that the moisture flows downwards under the action of gravity and is deposited at the tail end of the fabric is avoided, the time required for drying and fixing the color of the tail end of the fabric is longer than that of the area with less moisture, and the color is changed (such as color change) due to long-time drying and fixing the color of the area with less moisture is caused.

Description

Lifting type hanging dyeing equipment for fabric processing

Technical Field

The application relates to the technical field of hanging dyeing, in particular to lifting hanging dyeing equipment for fabric processing.

Background

The hanging dyeing process is mainly used for dyeing high-grade fabrics and ready-made clothes of pure cotton, real silk and the like, and is finished in special hanging dyeing equipment by selecting environment-friendly reactive dye and acid dye. When dyeing, only one end of the dyed fabric or garment is contacted with the dye liquor according to the design requirement of the fabric or garment, the dye liquor rising along with the capillary effect is absorbed on the fiber mainly by the capillary effect, and the dye liquor is preferentially absorbed, so that the dye liquor is less in residual dye, and the dyeing effect of gradual transition from deep to shallow is generated. In the hanging dyeing, it is important that the suspended dye must swing up and down during the dyeing process to make the coloring amount of the dye as much as possible, and the coloring principle is the same as that of the general dyeing, but the processing means are greatly different.

After dyeing is finished, the dyed cloth is the same as most of the cloth, more water is drawn in the dyed cloth, particularly, when the dyed cloth is lifted in the hanging dyeing process, the water flows downwards under the action of gravity to be deposited at the tail end of the cloth, so that the time required for drying and fixing the color of the tail end of the cloth is longer, and the area with less water is less in water, so that the color is changed (such as color change) due to long-time drying and fixing.

For the problems in the related art, no effective solution has been proposed at present.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the lifting type hanging dyeing equipment for fabric processing has the advantages of accelerating rising after micro energy storage and the like, and solves the problems that moisture flows downwards under the action of gravity and is deposited at the tail end of a fabric, the time required for drying and fixing the color of the tail end of the fabric is long, and the color of a region with less moisture is changed (such as color change) due to long-time drying and fixing of the color of the region with less moisture due to less moisture.

(II) technical scheme

In order to solve the technical problems that the water flows downwards under the action of gravity and is deposited at the tail end of the cloth, the time required for drying and fixing the color of the tail end of the cloth is longer, and the water is less in the area with less water, so that the color is changed (such as color change) due to long-time drying and fixing of the color in the area with less water, the application provides the following technical scheme: the lifting type hanging dyeing equipment for fabric processing comprises a dyeing pond, wherein a steel structure system is fixedly arranged on the dyeing pond, a lifting plate is arranged on the steel structure system in a sliding mode along the direction perpendicular to the dyeing pond, a primary hanging plate is arranged on the lifting plate in a sliding mode along the direction perpendicular to the lifting plate, a secondary hanging tool is arranged on the primary hanging plate in a sliding mode along the lifting plate, a plurality of groups of touch limiting tools are arranged on two sides of the secondary hanging tool, the touch limiting tools are fixedly arranged on the steel structure system, a potential releasing tool is arranged on the lifting plate, when the lifting plate descends, the potential releasing tool is staggered with the touch limiting tool, and when the lifting plate ascends, the potential releasing tool corresponds to the touch limiting tool; after dyeing is completed, the lifting plate drives the secondary suspension tool to move upwards to be in contact with the limit contact tool through the primary suspension plate, the lifting plate and the primary suspension plate continuously ascend to enable potential energy to be generated between the secondary suspension tool and the primary suspension plate, and when the potential energy releasing tool extrudes the limit contact tool to be in dislocation with the secondary suspension tool, the secondary suspension tool is driven by the potential energy to upwards form instantaneous acceleration.

Preferably, a lifting block is arranged on one side of the lifting plate, a lifting screw is connected with the lifting block in a threaded manner, the lifting screw is rotatably installed on the base, a lifting motor is fixedly installed at one end of the lifting screw, and the lifting motor is fixedly installed on the base.

Preferably, the lifting plate is provided with a motion guide rod, the motion guide rod is slidably provided with a motion guide block, the motion guide block is fixedly arranged on the primary suspension plate, the middle part of the lifting plate is provided with a reciprocating motor, an output shaft of the reciprocating motor is fixedly provided with an eccentric wheel, the eccentric wheel is eccentrically hinged with a rocker arm, and one end of the rocker arm is hinged on the primary suspension plate.

Preferably, the second-level suspension fixture comprises a mounting plate, a plurality of keels are arranged on the lower surface of the mounting plate, suspension strips are arranged on the keels, guide posts are fixedly arranged at two ends of the upper surface of the mounting plate, a collision plate is fixedly arranged at the top end of each guide post, the collision plate is used for being in collision with the touch limiting fixture, an energy storage spring is coaxially arranged on each guide post, and two ends of the energy storage spring are fixedly arranged on the first-level suspension plate and the mounting plate respectively.

Preferably, the touch limiting tool comprises a touch limiting box, wherein a touch limiting plate is arranged on the inner wall of the touch limiting box in a sliding manner, a reset spring is arranged between one side of the touch limiting plate and the inner wall of the touch limiting box, two ends of the reset spring are respectively and fixedly arranged on the touch limiting plate and the inner wall of the touch limiting box, a touch limiting wedge block is arranged on one side of the touch limiting plate, and the touch limiting wedge block is used for limiting the moving direction of the touch resisting plate; and both sides of the limit contact piece are provided with contact driving wedge bars, and the contact driving wedge bars are used for bearing the pressure of the potential relieving tool.

Preferably, the potential removing tool comprises a cylinder, the cylinder is fixedly installed on the lifting plate, a double-head hinge seat is fixedly installed at the output end of the cylinder, crank rods are hinged to two ends of the double-head hinge seat, one ends of the crank rods are hinged to sliding blocks, the sliding blocks are arranged on sliding rails in a sliding mode, the sliding rails are fixedly installed on the lifting plate, potential removing wedges are fixedly installed on the sliding blocks, and the potential removing wedges are used for being extruded by the contact driving wedge bars.

Preferably, the hanging strips are symmetrically arranged, and a plurality of hanging grooves are formed in the hanging strips and are used for hanging the fabric.

Preferably, a hanging dyeing process for fabric processing:

s1, hanging the fabric on a hanging strip;

s2, adding water into the dyeing pool, heating to 90 ℃, and then dissolving the dye;

s3, hanging and immersing the fabric on a dyeing pool through downward movement of hanging strips, checking whether clothes are immersed in the liquid, and starting to dye for 30-40 minutes;

s4, lifting the hanging strip, and standing the fabric to enable most of the dye liquor on the fabric to drop;

s5, adjusting the concentration of the dye liquor and the liquid level height in the dyeing pond;

s6, returning the hanging strip after finishing the adjustment of the dye liquor in the dyeing pool, so that the fabric is immersed into the dyeing pool again for secondary dyeing, and the process is repeated;

s7, putting the dyed fabric in a dye solution with the lightest color, rubbing to make the color uniform, washing off a part of floating color on darker color, soaking in a working solution of a color fixing agent for more than half an hour, and then treating with a softener in clear water;

s8, dehydrating and drying the fabric.

(III) beneficial effects

Compared with the prior art, the application provides lifting type hanging dyeing equipment for fabric processing, which has the following beneficial effects:

1. according to the application, the touch limiting tool is firstly abutted against the secondary hanging tool, the touch limiting tool is used for limiting the secondary hanging tool to continuously move upwards, the lifting plate is used for driving the primary hanging plate to continuously move upwards, so that the secondary hanging tool and the primary hanging plate are enabled to relatively slide, kinetic energy is generated between the two (namely, the accumulated potential energy is larger as the distance between the two relatively slides is larger), the kinetic energy is larger, after the lifting plate is used for driving the primary hanging plate to continuously move upwards for a set distance, the potential releasing tool arranged on the lifting plate starts to squeeze the touch limiting tool, so that the touch limiting tool is separated from the secondary hanging tool until the two are mutually misplaced, at the moment, the secondary hanging tool is not limited by displacement, and therefore, the fabric hung on the secondary hanging tool is enabled to slightly accelerate upwards under the action of the accumulated kinetic energy, and moisture in the fabric is enabled to be discharged rapidly by utilizing the inertia fixing force, the fabric is enabled to be primarily discharged, the phenomenon that the moisture flows downwards under the action of gravity and is deposited at the tail end of the fabric is enabled to be separated, the time required by the fabric is enabled to be larger than the area with less drying time, and color is enabled to be changed due to the fact that the color is changed for a long time;

2. according to the application, in the process of downward movement of the fabric, the gesture-releasing tool and the gesture-limiting tool are staggered, so that the gesture-limiting tool is prevented from limiting the movement path of the gesture-releasing tool until the lifting plate, the primary suspension plate and the secondary suspension tool are positioned below the gesture-limiting tool, the primary suspension plate drives the secondary suspension tool to reciprocate along the direction perpendicular to the movement direction of the lifting plate, and simultaneously the lifting plate reciprocates along the movement direction, so that the movement track of the fabric in the dyeing tank is elliptical, and further the fabric swings left and right and up and down in the dyeing tank, so that the fabric is sufficiently and uniformly colored.

Drawings

FIG. 1 is one of the assembly structure diagrams of the secondary suspension tooling and the touch limiting tooling of the present application;

FIG. 2 is a second view of an assembly structure of the secondary suspension tooling and the touch limiting tooling of the present application;

FIG. 3 is a block diagram of the assembly of the lift plate, primary suspension plate and secondary suspension tooling of the present application;

FIG. 4 is one of the partial illustrations of the assembled structure of the lift plate, primary suspension plate and secondary suspension tooling of the present application;

FIG. 5 is a second partially shown view of the assembled structure of the lift plate, primary suspension plate and secondary suspension tooling of the present application;

FIG. 6 is a partial exploded view of the assembled structure of the lift plate, primary suspension plate and secondary suspension tooling of the present application;

FIG. 7 is a bottom structural view of the assembled structure of the lift plate, primary suspension plate and secondary suspension tooling of the present application.

In the figure: 1. a dyeing pool; 2. a steel structure system; 3. a lifting plate; 4. a primary suspension plate; 5. a secondary suspension tool; 501. a mounting plate; 502. a keel; 503. a hanging strip; 504. a guide post; 505. a contact plate; 506. an energy storage spring; 6. a touch limiting tool; 601. a touch limiting box; 602. a limit contact; 603. a return spring; 604. a limit contact wedge block; 605. contacting the driving wedge strip; 7. a potential releasing tool; 701. a cylinder; 702. a hinge base; 703. a crank lever; 704. a slide block; 705. a slide rail; 706. a wedge block is released; 8. a lifting block; 9. lifting the screw; 10. a base; 11. lifting the motor; 12. a motion guide bar; 13. a motion guide block; 14. a reciprocating motor; 15. an eccentric wheel; 16. and (3) a rocker arm.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As described in the background art, the application provides lifting type hanging dyeing equipment for fabric processing in order to solve the technical problems.

Example 1

Referring to fig. 1-7, a lifting type hanging dyeing device for fabric processing comprises a dyeing tank 1, wherein a steel structure system 2 is fixedly installed on the dyeing tank 1, a lifting plate 3 is slidably arranged on the steel structure system 2 along the direction perpendicular to the dyeing tank 1, a primary hanging plate 4 is slidably arranged on the lifting plate 3 along the sliding direction perpendicular to the lifting plate 3, a secondary hanging tool 5 is slidably arranged on the primary hanging plate 4 along the sliding direction of the lifting plate 3, a plurality of groups of touch limiting tools 6 are arranged on two sides of the secondary hanging tool 5, the touch limiting tools 6 are fixedly installed on the steel structure system 2, a potential releasing tool 7 is arranged on the lifting plate 3, when the lifting plate 3 descends, the potential releasing tool 7 is staggered with the touch limiting tools 6, and when the lifting plate 3 ascends, the potential releasing tool 7 corresponds to the touch limiting tools 6; after dyeing is completed, the lifting plate 3 drives the secondary suspension tool 5 to move upwards through the primary suspension plate 4 to be in contact with the limit touch tool 6, the lifting plate 3 and the primary suspension plate 4 continue to ascend so that potential energy is generated between the secondary suspension tool 5 and the primary suspension plate 4, and when the potential energy releasing tool 7 extrudes the limit touch tool 6 to be in dislocation between the limit touch tool 6 and the secondary suspension tool 5, the secondary suspension tool 5 is driven by the potential energy to form instantaneous acceleration upwards.

When in suspension dyeing, the fabric is suspended on the secondary suspension tooling 5, and then the lifting plate 3 drives the secondary suspension tooling 5 to move downwards through the primary suspension plate 4, so that the fabric suspended on the secondary suspension tooling 5 moves downwards until suspended in the dyeing tank 1, and dip dyeing is carried out by utilizing the capillary effect of the fabric; in the process of downward movement of the fabric, the gesture-releasing tool 7 is staggered with the gesture-limiting tool 6, so that the gesture-limiting tool 6 is prevented from limiting the movement path of the gesture-releasing tool 7 until the lifting plate 3, the primary suspension plate 4 and the secondary suspension tool 5 are positioned below the gesture-limiting tool 6, the primary suspension plate 4 drives the secondary suspension tool 5 to reciprocate along the direction perpendicular to the movement direction of the lifting plate 3, and meanwhile the lifting plate 3 reciprocates along the movement direction, so that the movement track of the fabric in the dyeing tank 1 is elliptical, and further the fabric swings left and right and up and down in the dyeing tank 1, so that the fabric is sufficiently and uniformly colored; wherein, when the lifting plate 3 reciprocates, the reciprocating movement range of the lifting plate is below the touch limiting tool 6; when the coloring is completed, the primary suspension plate 4 is reset to the initial position, the potential-releasing tool 7 translates, so that the potential-releasing tool 7 corresponds to the touch-limiting tool 6, and accordingly, as the lifting plate 3 ascends, the touch-limiting tool 6 firstly collides with the secondary suspension tool 5, the touch-limiting tool 6 limits the secondary suspension tool 5 to continue to move upwards, the lifting plate 3 drives the primary suspension plate 4 to continue to move upwards, relative sliding is generated between the secondary suspension tool 5 and the primary suspension plate 4, kinetic energy is generated between the two (namely, as the relative sliding distance between the two is larger, the generated kinetic energy is larger), and after the lifting plate 3 drives the primary suspension plate 4 to continue to move upwards for a set distance, the potential-releasing tool 7 installed on the lifting plate 3 starts to extrude the touch-limiting tool 6, so that the touch-limiting tool 6 is separated from the secondary suspension tool 5 until the two are staggered with each other, at the moment, the secondary suspension tool 5 is not limited by displacement, and therefore, the secondary suspension tool 5 is driven to move upwards in a micro-acceleration way under the action of the accumulated kinetic energy, kinetic energy is generated between the secondary suspension tool 5 and the fabric is further accelerated upwards, the kinetic energy is generated, namely, the accumulated kinetic energy is larger than the distance between the two, the accumulated kinetic energy, the fabric is generated, the water is discharged downwards, the water is fast, and the water is discharged in a large-drying area, and the water is required to be polluted, and the water is generated, and the water is in a large-drying area, and the water is generated, and has a long time, and the water is required to be discharged.

Further, for the above-mentioned lift plate 3, a lift block 8 is disposed on one side of the lift plate 3, the lift block 8 is in threaded connection with a lift screw 9, the lift screw 9 is rotatably mounted on a base 10, one end of the lift screw 9 is fixedly mounted with a lift motor 11, and the lift motor 11 is fixedly mounted on the base 10; the four corners of the lifting plate 3 are provided with limiting columns in a sliding manner, and the limiting columns are fixedly arranged on the steel structure system 2 and used for limiting the freedom degree of the lifting plate 3 and guiding the lifting plate 3 to lift so as to improve the lifting stability of the lifting plate; the lifting screw 9 is driven to rotate through the lifting motor 11, and the lifting block 8 is fixedly installed on the lifting plate 3 due to the threaded connection of the lifting screw 9 and the lifting block 8, and the lifting plate 3 is limited in the degree of freedom except lifting by the limiting columns, so that the lifting plate 3 is driven to lift through the lifting block 8 along with the rotation of the lifting motor 11.

Further, for the lifting plate 3, a motion guide rod 12 is arranged on the lifting plate 3, a motion guide block 13 is slidably installed on the motion guide rod 12, the motion guide block 13 is fixedly installed on the primary suspension plate 4, a reciprocating motor 14 is arranged in the middle of the lifting plate 3, an eccentric wheel 15 is fixedly installed on an output shaft of the reciprocating motor 14, a rocker arm 16 is eccentrically hinged to the eccentric wheel 15, and one end of the rocker arm 16 is hinged to the primary suspension plate 4; the eccentric wheel 15 is driven to rotate through the reciprocating motor 14, one end of the rocker arm 16 is eccentrically arranged on the eccentric wheel 15, the other end of the rocker arm 16 is hinged to the primary hanging plate 4, so that the primary hanging plate 4 is driven to move left and right under the action of the moving guide block 13 and the moving guide rod 12 by the rotation of the eccentric wheel 15, and the secondary hanging tool 5 is only in sliding connection with the primary hanging plate 4 in the vertical direction, so that when the primary hanging plate 4 reciprocates under the action of the eccentric wheel 15 and the rocker arm 16, the primary hanging plate 4 drives the secondary hanging tool 5 to synchronously move left and right, so that fabric on the secondary hanging tool 5 moves left and right in the dyeing pond 1.

Further, for the secondary suspension fixture 5, the secondary suspension fixture 5 includes a mounting plate 501, a plurality of keels 502 are provided on a lower surface of the mounting plate 501, suspension bars 503 are provided on the keels 502, guide posts 504 are fixedly mounted at two ends of an upper surface of the mounting plate 501, an abutting plate 505 is fixedly mounted at a top end of the guide post 504, the abutting plate 505 is used for abutting against the touch limiting fixture 6, an energy storage spring 506 is provided on a coaxial center of the guide post 504, and two ends of the energy storage spring 506 are fixedly mounted on the primary suspension plate 4 and the mounting plate 501 respectively; the hanging strips 503 are symmetrically arranged, and a plurality of hanging grooves are formed in the hanging strips 503 and are used for hanging the fabric.

The fabric is clamped on a clothes hanger and then hung in a hanging groove on a hanging strip 503, the hanging strip 503 is hung in dye liquor in a dyeing pool 1 along with the downward movement of the hanging strip 503, the hanging strip 503 is hung on a primary hanging plate 4 through a keel 502, a mounting plate 501, a guide column 504 and an energy storage spring 506, and the guide column 504 penetrates through and is in sliding fit with the primary hanging plate 4; after the abutting plate 505 is attached to the touch limiting tool 6, the touch limiting tool 6 limits the upward movement of the abutting plate 505, and the lifting plate 3 drives the primary suspension plate 4 to move upwards continuously, so that the energy storage spring 506 installed between the primary suspension plate 4 and the mounting plate 501 stretches, and further the energy storage spring 506 generates tension due to deformation, and after the limit of the touch limiting tool 6 to the abutting plate 505 is relieved by the gesture resolving tool 7, the abutting plate 505, the guide post 504, the mounting plate 501 and the suspension bar 503 installed through the keel 502 generate upward acceleration under the action of the tension of the energy storage spring 506, so that the fabric suspended on the suspension bar 503 generates upward impulsive force, water in the fabric drops under the action of inertia, and the drainage of the water is accelerated.

Further, for the touch limiting tool 6, the touch limiting tool 6 includes a touch limiting case 601, a limited touch piece 602 is slidably disposed on an inner wall of the touch limiting case 601, a return spring 603 is disposed between one side of the touch limiting piece 602 and the inner wall of the touch limiting case 601, two ends of the return spring 603 are respectively and fixedly mounted on the touch limiting piece 602 and the inner wall of the touch limiting case 601, a limited touch wedge 604 is disposed on one side of the touch limiting piece 602, and the limited touch wedge 604 is used for limiting a moving direction of the touch plate 505; both sides of the limit contact piece 602 are provided with contact driving wedge strips 605, and the contact driving wedge strips 605 are used for bearing the pressure of the potential relief tool 7; during the downward movement of the lifting plate 3, the lifting plate 3 and the abutting plate 505 press the inclined surfaces of the limit contact wedge blocks 604, so that the limit contact wedge blocks 604 compress the reset springs 603 through the limit contact pieces 602, and the limit contact wedge blocks 604 translate, so that the lifting plate 3 and the abutting plate 505 move normally downwards; in the process that the lifting plate 3 moves upwards, the abutting plate 505 is firstly contacted with the limit contact wedge block 604, and the limit contact wedge block 604 limits the abutting plate 505 to move upwards along with the lifting plate 3 by using the opposite sides of the inclined plane, so that the relative displacement is generated between the lifting plate 3 and the abutting plate 505, the energy storage spring 506 arranged between the primary suspension plate 4 and the mounting plate 501 is stretched, the energy storage spring 506 is further pulled due to deformation, until the gesture resolving tool 7 arranged on the lifting plate 3 presses the inclined plane of the contact driving wedge bar 605 along with the upward movement of the lifting plate 3, the contact driving wedge bar 605 drives the limit contact plate 602 to translate, and the limit contact wedge block 604 is separated from the abutting plate 505.

Further, for the aforementioned solution tool 7, the solution tool 7 includes a cylinder 701, the cylinder 701 is fixedly mounted on the lifting plate 3, a double-end hinge seat 702 is fixedly mounted at an output end of the cylinder 701, two ends of the double-end hinge seat 702 are both hinged with a crank rod 703, one end of the crank rod 703 is hinged with a slide block 704, the slide block 704 is slidably disposed on a slide rail 705, the slide rail 705 is fixedly mounted on the lifting plate 3, a solution wedge 706 is fixedly mounted on the slide block 704, and the solution wedge 706 is used for extruding with the contact driving wedge 605; when the lifting plate 3 descends, in order to prevent movement interference between the unlocking wedge 706 and the contact driving wedge 605, the unlocking wedge 706 moves to two sides under the guiding action of the sliding block 704 and the sliding rail 705, so that the unlocking wedge 706 and the contact driving wedge 605 are dislocated; when the lifting plate 3 ascends, the unlocking wedge block 706 moves towards the middle under the guiding action of the sliding block 704 and the sliding rail 705, so that the inclined surface of the unlocking wedge block 706 corresponds to the inclined surface of the contact driving wedge strip 605, the unlocking wedge block 706 presses the contact driving wedge strip 605 along with the ascending of the lifting plate 3, the contact driving wedge strip 605 drives the limit contact wedge block 604 to translate through the limit contact piece 602, the limit contact wedge block 604 is separated from the abutting plate 505, and the abutting plate 505 generates upward impact force.

Example two

A hanging dyeing process for fabric processing comprises the following steps:

s1, hanging the fabric on a hanging strip 503;

s2, adding water into the dyeing pool 1, heating to 90 ℃, and then dissolving the dye;

s3, hanging and immersing the fabric on the dyeing pool 1 through downward movement of the hanging strip 503, checking whether clothes are immersed in the liquid, and starting to dye for 30-40 minutes;

s4, lifting the hanging strip 503, and standing the fabric to enable most of the dye liquor on the fabric to drop;

s5, adjusting the concentration and the liquid level height of the dye liquor in the dyeing pool 1;

s6, after finishing the adjustment of the dye liquor in the dyeing tank 1, returning the hanging strip 503 to enable the fabric to be immersed into the dyeing tank 1 again for secondary dyeing, so that the dyeing is repeated;

s7, putting the dyed fabric in a dye solution with the lightest color, rubbing to make the color uniform, washing off a part of floating color on darker color, soaking in a working solution of a color fixing agent for more than half an hour, and then treating with a softener in clear water;

s8, dehydrating and drying the fabric.

Although embodiments of the present application 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 hereto without departing from the spirit and principles of the present application.

Claims (4)

1. Lifting type hanging dyeing equipment for fabric processing comprises a dyeing tank (1), wherein a steel structure system (2) is fixedly installed on the dyeing tank (1), and the lifting type hanging dyeing equipment is characterized in that: the dyeing tank comprises a steel structure system (2), wherein a lifting plate (3) is arranged on the steel structure system (2) in a sliding mode along the direction perpendicular to the dyeing tank (1), a primary hanging plate (4) is arranged on the lifting plate (3) in a sliding mode along the sliding direction perpendicular to the lifting plate (3), a secondary hanging tool (5) is arranged on the primary hanging plate (4) in a sliding mode along the sliding direction of the lifting plate (3), a plurality of groups of touch limiting tools (6) are arranged on two sides of the secondary hanging tool (5), the touch limiting tools (6) are fixedly installed on the steel structure system (2), a potential releasing tool (7) is arranged on the lifting plate (3), when the lifting plate (3) descends, the potential releasing tool (7) is staggered with the touch limiting tool (6), and when the lifting plate (3) ascends, the potential releasing tool (7) corresponds to the touch limiting tools (6).

After dyeing is completed, the lifting plate (3) drives the secondary suspension tool (5) to move upwards through the primary suspension plate (4) until the secondary suspension tool (5) is in contact with the limit contact tool (6), the lifting plate (3) and the primary suspension plate (4) continuously ascend so that potential energy is generated between the secondary suspension tool (5) and the primary suspension plate (4), and when the potential energy releasing tool (7) extrudes the limit contact tool (6) until the limit contact tool (6) is staggered with the secondary suspension tool (5), the secondary suspension tool (5) is driven by the potential energy to accelerate instantaneously upwards;

the secondary suspension tool (5) comprises a mounting plate (501), a plurality of keels (502) are arranged on the lower surface of the mounting plate (501), suspension strips (503) are arranged on the keels (502), guide posts (504) are fixedly arranged at two ends of the upper surface of the mounting plate (501), an abutting plate (505) is fixedly arranged at the top end of each guide post (504), the abutting plate (505) is used for abutting against the touch limiting tool (6), an energy storage spring (506) is arranged on the coaxial center of each guide post (504), and two ends of each energy storage spring (506) are fixedly arranged on the primary suspension plate (4) and the mounting plate (501) respectively;

the touch limiting tool (6) comprises a touch limiting box (601), a limited contact piece (602) is slidably arranged on the inner wall of the touch limiting box (601), a reset spring (603) is arranged between one side of the touch limiting piece (602) and the inner wall of the touch limiting box (601), two ends of the reset spring (603) are fixedly arranged on the touch limiting piece (602) and the inner wall of the touch limiting box (601) respectively, a limited contact wedge block (604) is arranged on one side of the touch limiting piece (602), and the limited contact wedge block (604) is used for limiting the moving direction of the touch resisting plate (505);

both sides of the limit contact piece (602) are provided with contact driving wedge strips (605), and the contact driving wedge strips (605) are used for bearing the pressure of the potential releasing tool (7);

the utility model provides a solution frock (7) includes cylinder (701), cylinder (701) fixed mounting is in on lifting plate (3), the output fixed mounting of cylinder (701) has double-end articulated seat (702), both ends of double-end articulated seat (702) all articulate crank arm (703), the one end of crank arm (703) articulates on slider (704), slider (704) slip sets up on slide rail (705), just slide rail (705) fixed mounting is in on lifting plate (3), fixed mounting has solution voussoir (706) on slider (704), solution voussoir (706) be used for with contact drive wedge (605) extrudees mutually.

2. A lifting type hanging dyeing device for fabric processing according to claim 1, characterized in that: one side of lifting plate (3) is provided with hoisting block (8), hoisting block (8) threaded connection has lifting screw (9), lifting screw (9) rotate and install on base (10), just lifting screw (9) one end fixed mounting has lifting motor (11), lifting motor (11) fixed mounting is in on base (10).

3. A lifting type hanging dyeing device for fabric processing according to claim 1, characterized in that: the lifting plate (3) is provided with a motion guide rod (12), the motion guide rod (12) is slidably mounted with a motion guide block (13), the motion guide block (13) is fixedly mounted on the primary suspension plate (4), the middle part of the lifting plate (3) is provided with a reciprocating motor (14), an eccentric wheel (15) is fixedly mounted on an output shaft of the reciprocating motor (14), the eccentric wheel (15) is eccentrically hinged with a rocker arm (16), and one end of the rocker arm (16) is hinged on the primary suspension plate (4).

4. A lifting type hanging dyeing device for fabric processing according to claim 1, characterized in that: the hanging strips (503) are symmetrically arranged, a plurality of hanging grooves are formed in the hanging strips (503), and the hanging grooves are used for hanging the fabric.