CN213538403U - Real silk fabric dyeing device - Google Patents

Abstract

The utility model discloses a real silk fabric dyeing device, which comprises a base, a stirring dyeing unit for stirring dye and dyeing and a blanking unit; the stirring and dyeing unit is arranged on the base; the unloading unit includes the unloading slide rail, be provided with the unloading support on the unloading slide rail, the top of unloading support is provided with the crossbeam, be provided with lift driving source and lift roller on the crossbeam, the lift roller is connected with the free end of lift driving source, around being equipped with the lift chain on the lift roller, it is provided with lifting support to slide on the unloading support, the bottom of lift chain is connected on lifting support, last being provided with of lifting support unreels the driving source and unreels the roller, unreel the roller and connect the free end at unreeling the driving source. It can dye automatically, and dyeing effect is good, and the function is various, simple structure.

Description

Real silk fabric dyeing device

Technical Field

The utility model relates to a dyeing apparatus, concretely relates to dyeing apparatus of pure silk fabric.

Background

Real silk fabrics are expensive and fragile fabrics. The real silk fabric needs to be dyed before being made into a finished product. When placing a real silk fabric into a dye vat, it is usually pulled in. For long-range real silk fabrics, the long-range real silk fabrics are difficult to put in, and folds are easy to appear when the long-range real silk fabrics are put in, so that the dyeing effect is influenced. And when the dye is taken out, the dye is easily taken out, so that waste is caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a dyeing apparatus of pure silk fabric, it can dye automatically, and dyeing effect is good, and the function is various, simple structure.

In order to solve the technical problem, the utility model provides a dyeing device for real silk fabrics, which comprises a base, a stirring dyeing unit for stirring dye and dyeing and a blanking unit; the stirring and dyeing unit is arranged on the base; the unloading unit includes the unloading slide rail, be provided with the unloading support on the unloading slide rail, the top of unloading support is provided with the crossbeam, be provided with lift driving source and lift roller on the crossbeam, the lift roller is connected with the free end of lift driving source, around being equipped with the lift chain on the lift roller, it is provided with lifting support to slide on the unloading support, the bottom of lift chain is connected on lifting support, last being provided with of lifting support unreels the driving source and unreels the roller, unreel the roller and connect the free end at unreeling the driving source.

Preferably, the blanking slide rails are provided with two parts which are respectively positioned at two sides of the stirring and dyeing unit, and the blanking support is provided with at least four parts which are positioned at four sides and arranged on the blanking slide rails.

Preferably, a sliding groove is formed in the blanking support, and two ends of the lifting support are arranged in the sliding groove in a sliding mode.

Preferably, the top of the lifting support is provided with a connecting nose, and the bottom end of the lifting chain is arranged on the connecting nose.

As preferred, the stirring dyeing unit includes dye vat, testing platform and dye vat lid, the dye vat is hemispherical casing, the bottom of dye vat is provided with sensor two, testing platform sets up the one side at the dye vat top, transparent shade has been seted up in the testing platform, transparent shade is the recess form of semiellipsoid form, and its big opening and dye vat intercommunication, be provided with sensor one in the testing platform of transparent shade bottom, dye vat lid establishes the top at the dye vat, dye vat lid's bottom is provided with semicircular stirring leaf, the hole has been seted up to the array on the stirring leaf, the diameter of stirring leaf is unanimous with the internal diameter of dye vat.

Preferably, a boss is arranged at the tail end of the detection platform, an articulated shaft is arranged on the boss, a rotating beam is hinged to the articulated shaft, the dye vat cover is arranged at one end of the rotating beam, a stirring driving source is arranged at the other end of the rotating beam, the free end of the stirring driving source is connected with the stirring blade, a worm is rotatably arranged in the rotating beam in a penetrating mode and connected with the free end of the stirring driving source, a rotating shaft is rotatably arranged on the dye vat cover in a penetrating mode, a worm wheel is arranged on the rotating shaft and connected with the worm wheel, a protective cover is arranged on the dye vat cover, and the protective cover is arranged on the rotating shaft and the worm wheel in a covering mode.

Preferably, the bottom of the rotating beam is provided with a sealing cover, the sealing cover is in a semi-ellipsoidal groove shape, and the sealing cover is covered on the transparent shielding cover.

Preferably, the dye vat cover is provided with a funnel-shaped toning opening.

Preferably, the dye vat is provided with a buckle groove, a fixing pin penetrates through the buckle groove, and the dye vat cover is provided with a buckle which is buckled into the buckle groove.

Preferably, the bottom of the dye vat is provided with a discharge outlet.

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

1. the utility model discloses can be automatic unreel the pure silk fabric and dye, can carry out the rolling automatically after the dyeing is accomplished, and can take the liquid rolling and do not take the liquid rolling, simple structure function is various, convenient to use.

2. The utility model discloses a set up the unloading unit, can be suitable for the even dyeing of long-range pure silk fabric, can not harm the surface fabric, dyeing effect is good.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a stirring and dyeing unit;

FIG. 3 is a schematic cross-sectional view of a stir dyeing unit.

Wherein, 1-base, 2-stirring dyeing unit, 20-dye vat, 21-supporting leg, 22-discharge outlet, 23-detection platform, 24-transparent shade, 25-sensor I, 26-sensor II, 27-boss, 28-articulated shaft, 29-sealing cover, 30-rotating beam, 31-stirring driving source, 32-worm, 33-dye vat cover, 34-rotating shaft, 35-worm wheel, 36-stirring blade, 37-hole, 38-protective cover, 39-toning port, 40-catching groove, 41-fixed pin, 42-catch, 5-blanking unit, 50-blanking slide rail, 51-blanking support, 52-beam, 53-lifting driving source, 54-lifting roller, 55-lifting chain, 60-chute, 61-lifting support, 62-unwinding driving source, 63-unwinding roller, 64-connecting nose and 70-silk fabric.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the utility model discloses a dyeing apparatus for real silk fabrics, which comprises a base 1, a stirring dyeing unit 2 and a blanking unit 5.

Stirring and dyeing unit 2:

the stirring and dyeing unit 2 includes a dye vat 20, a detection platform 23 and a dye vat cover 33.

The dye vat 20 is a hemispherical shell. Dye vat 20 is disposed on base 1. And a second sensor 26 is arranged at the bottom of the dye vat 20. Sensing platform 23 is disposed on one side of the top of dye vat 20. A transparent mask 24 is arranged in the detection platform 23. The transparent shade 24 is in the form of a semi-ellipsoidal groove, and its large opening is in communication with the dye vat 20. A first sensor 25 is arranged in the detection platform 23 at the bottom of the transparent shade 24. The dye vat cover 33 is provided above the dye vat 20. The bottom of the dyeing cylinder cover 33 is provided with a semicircular stirring blade 36. Holes 37 are arranged on the stirring blade 36 in an array. The diameter of the stirring vanes 36 corresponds to the inner diameter of the dye vat 20. With the optimized structure, the stirring blades 36 can stir all parts in the dye vat 20, so that various dye solvents and solutes are fully mixed, and the uniformity of the dye is improved; when the stirring blade 36 is used for stirring, the dye can enter the transparent shade 24, the color is detected by the first sensor 25 and is compared with the color detected by the second sensor 26, if the signals detected by the first sensor 25 and the second sensor 26 are matched, the stirring is completed, the error caused by manual judgment and the hysteresis of sampling detection are avoided, and the uniformity of the whole dye color is judged well.

The end of the detection platform 23 is provided with a boss 27. The boss 27 is provided with a hinge shaft 28. The articulated shaft 28 is articulated with a turning beam 30. The dye cylinder cover 33 is provided at one end of the rotary beam 30. The other end of the turning beam 30 is provided with an agitation drive source 31. The free end of the stirring drive source 31 is connected to the stirring blade 36. The stirring driving source 31 can drive the stirring blades 36 to stir in a rotating manner; the rotating beam 30 can directly lift the dyeing cylinder cover 33, so that the dyeing cylinder 20 has no other parts, the fabric can be conveniently and directly placed into the dyeing cylinder for dyeing, the time consumption for transferring the dye is reduced, and the dye is prevented from settling and changing color; meanwhile, the stirring driving source 31 and the dye vat cover 33 can be well balanced, and lifting and covering are more labor-saving.

As a new and further improvement of the present invention, a worm 32 is rotatably inserted into the rotary beam 30. The worm 32 is connected to the free end of the stirring drive source 31. A rotating shaft 34 is rotatably arranged on the dyeing cylinder cover 33 in a penetrating way. The rotating shaft 34 is provided with a worm wheel 35. The worm 32 is connected to a worm wheel 35. It can carry out long-range good transmission, and can cushion, stirring leaf 36 damages.

As a new further improvement of the present invention, the dye vat cover 33 is provided with a protective cover 38. The protective cover 38 covers the rotary shaft 34 and the worm wheel 35.

As a new and further improvement of the present invention, the bottom of the turning beam 30 is provided with a sealing cover 29. The sealing cover 29 is in the shape of a semi-ellipsoidal groove. The sealing cover 29 is provided over the transparent shade 24. The sealing cover 29 can seal the transparent shade 24 to prevent the dye from overflowing; meanwhile, when the dyeing cylinder cover 33 is lifted, the flow can be guided, so that the taken-out dye flows back into the dyeing cylinder 20.

As a new further improvement of this application, the dyeing cylinder cover 33 is provided with a funnel-shaped toning opening 39. A small amount of dye component can be added to dye vat 20 through tinter port 39 to fine tune the color of the dye.

The dye vat 20 is provided with a catching groove 40. A fixing pin 41 is inserted into the fastening groove 40. The dyeing cylinder cover 33 is provided with a button 42. The button 42 can be buckled in the button groove 40, and the fixing pin 41 can pin the button 42, so that the dyeing cylinder cover 33 can be tightly covered on the dyeing cylinder 20; the dyer head 33 can be lifted by pulling out the fixing pin 41.

The bottom of the dye vat 20 is provided with a discharge port 22. The discharge opening 22 can discharge the dye in the dye vat 20, so that the dye can be conveniently cleaned and dyed next time.

The bottom of the dye vat 20 and the bottom of the detection platform 23 are provided with supporting legs 21. The support legs 21 can maintain the stability of the whole body when the cover is closed, stirred and lifted.

A blanking unit 5:

the blanking unit 5 includes a blanking slide rail 50. The blanking slide rail 50 is provided with a blanking bracket 51. The top end of the blanking bracket 51 is provided with a cross beam 52. The cross member 52 is provided with a lifting drive source 53 and a lifting roller 54. The elevation roller 54 is connected to a free end of the elevation driving source 53. A lifting chain 55 is wound around the lifting roller 54. The blanking bracket 51 is provided with a lifting bracket 61 in a sliding way. The bottom of the lift chain 55 is attached to a lift bracket 61. The elevating bracket 61 is provided with an unwinding drive source 62 and an unwinding roller 63. The unwinding roller 63 is connected to a free end of the unwinding driving source 62. With the optimized structure, the real silk fabrics 70 can be put on the unwinding roller 63 while stirring; after stirring, the rotating beam 30 is lifted to be in a vertical state, the blanking support 51 is pushed, the unwinding roller 63 is positioned above the dye vat 20, and then the lifting drive source 53 drives the lifting support 61 to descend to be close to the dye vat 20; then, the unreeling driving source 62 drives the unreeling roller 63 to rotate, so that the real silk fabrics 70, except the part fixed on the unreeling roller 63, fall into the dye vat 20 for dyeing; after the dyeing is completed, the real silk fabric 70 is recovered in the reverse action, and the unwinding roller 63 is replaced to perform the next dyeing. The dyeing machine is simple in structure and fast in action, and can be used for uniformly and smoothly collecting and releasing the long-range real silk fabric 70 during dyeing, so that the dyeing uniformity is improved.

The two blanking slide rails 50 are respectively located at two sides of the stirring and dyeing unit 2. The blanking support 51 has at least four square parts and is arranged on the blanking slide rail 50. The stability is high when it moves, and is stable when unloading.

The blanking support 51 is provided with a chute 60. The two ends of the lifting bracket 61 are slidably arranged in the sliding grooves 60. The chute 60 can improve the smoothness of lifting and ensure the stability of blanking.

The top of the lifting bracket 61 is provided with a connecting nose 64. The bottom end of the lift chain 55 is disposed on the connecting nose 64.

The working principle is as follows:

adding a dyeing solvent and a solute into the dye vat 20; covering the dyeing cylinder cover 33; the stirring driving source 31 drives the stirring blade 36 to stir; the first sensor 25 is used for detecting the liquid entering the transparent shade 24, and if the signal detected by the second sensor 26 is matched, stirring is completed; after the stirring is completed, the turning beam 30 is lifted up to be in a vertical state.

While stirring, the real silk fabric 70 is rolled up on the unwinding roller 63; after the stirring is completed, the blanking support 51 is pushed to enable the unwinding roller 63 to reach the upper part of the dye vat 20; the elevation driving source 53 drives the unwinding roller 63 to descend to a position adjacent to the dye vat 20; the unwinding driving source 62 drives the unwinding roller 63 to rotate, so that the real silk fabric 70 falls into the dye vat 20 for dyeing; after dyeing is completed, the real silk fabric 70 is recovered in the reverse action, and then the lifting support 61 is pushed away to continue winding.

In addition, for the solution which is difficult to settle, the solution can be firstly unreeled and then descends, so that the buffering length can be increased, the gravity of the real silk fabric 70 is larger, and the smoothness of the solution entering is improved.

When the solution on the real silk fabric 70 needs to be discharged, the solution can be lifted to a certain height to ensure that the real silk fabric 70 is completely separated from the solution, and the solution is rolled after dripping, so that the dye is saved, and the pollution caused by the real silk fabric 70 is avoided.

The embodiment needs to be supplemented with that: the utility model discloses constitute by concrete hardware structures such as sensor, driving source, some hardware has the participation of software program in the operation process, and the software program of supplementary local operation is current software program that can duplicate, does not constitute the innovation point of this application.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A dyeing device for real silk fabrics is characterized by comprising a base, a stirring dyeing unit and a blanking unit, wherein the stirring dyeing unit is used for stirring dye and dyeing;

the stirring and dyeing unit is arranged on the base;

the unloading unit includes the unloading slide rail, be provided with the unloading support on the unloading slide rail, the top of unloading support is provided with the crossbeam, be provided with lift driving source and lift roller on the crossbeam, the lift roller is connected with the free end of lift driving source, around being equipped with the lift chain on the lift roller, it is provided with lifting support to slide on the unloading support, the bottom of lift chain is connected on lifting support, last being provided with of lifting support unreels the driving source and unreels the roller, unreel the roller and connect the free end at unreeling the driving source.

2. The dyeing device for silk fabrics according to claim 1, characterized in that the two blanking slide rails are respectively arranged at two sides of the stirring and dyeing unit, and the blanking support has at least four square parts arranged on the blanking slide rails.

3. The dyeing device for silk fabrics of claim 1, wherein the blanking support is provided with a sliding slot, and two ends of the lifting support are slidably arranged in the sliding slot.

4. The dyeing device for silk fabrics of claim 1, wherein the top of said lifting support is provided with a connecting nose, and the bottom end of said lifting chain is arranged on the connecting nose.

5. The dyeing device for the silk fabrics of claim 1, wherein the stirring and dyeing unit comprises a dye vat, a detection platform and a dye vat cover, the dye vat is a hemispherical shell, the bottom of the dye vat is provided with a second sensor, the detection platform is arranged on one side of the top of the dye vat, a transparent shade is arranged in the detection platform, the transparent shade is in a semi-ellipsoidal groove shape, a large opening of the transparent shade is communicated with the dye vat, a first sensor is arranged in the detection platform at the bottom of the transparent shade, the dye vat cover is arranged above the dye vat, the bottom of the dye vat cover is provided with semicircular stirring blades, holes are arranged in an array on the stirring blades, and the diameter of the stirring blades is consistent with the inner diameter of the dye vat.

6. The dyeing device for silk fabrics according to claim 5, characterized in that the end of the detection platform is provided with a boss, the boss is provided with a hinged shaft, the hinged shaft is hinged with a rotating beam, the dyeing cylinder cover is arranged at one end of the rotating beam, the other end of the rotating beam is provided with a stirring driving source, the free end of the stirring driving source is connected with a stirring blade, a worm is rotatably arranged in the rotating beam in a penetrating manner and connected with the free end of the stirring driving source, the dyeing cylinder cover is rotatably provided with a rotating shaft in a penetrating manner, the rotating shaft is provided with a worm wheel, the worm wheel is connected with the worm wheel, the dyeing cylinder cover is provided with a protective cover, and the protective cover is covered on the rotating shaft and the worm wheel.

7. The dyeing apparatus for silk fabrics as claimed in claim 6, wherein the bottom of said rotary beam is provided with a sealing cover in the form of a semi-ellipsoidal groove, said sealing cover being placed on a transparent cover.

8. The dyeing apparatus for silk fabrics according to claim 6, characterized in that the dye vat cover is provided with a funnel-shaped toning opening.

9. The dyeing device for silk fabrics of claim 5, wherein the dye vat is provided with a catching groove, a fixing pin is arranged in the catching groove, and the dye vat cover is provided with a button which is buckled in the catching groove.

10. The dyeing apparatus for silk fabrics as claimed in claim 5, wherein the bottom of said dye vat is equipped with a discharge outlet.

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