CN109940975B - Pollution-free wig spring transfer printing equipment and method - Google Patents

Abstract

The invention discloses pollution-free wig spring transfer printing equipment and method. The transfer printing spring winding and unwinding device, the transfer printing felt device, the transfer printing paper device and the heat transfer printing roller device are driven by a servo motor, and the magnetic powder or friction tension controls the winding and unwinding of constant tension. And a temperature sensor is arranged in the heat transfer roller device, and the temperature sensor, the heating device and the servo motor are connected with the controller. The locking end of the hair curtain is arranged above, the scattered hair is vertically placed downwards, and the suspended hair is orderly adsorbed on the surface of the felt under the action of negative pressure adsorption before the clockwork spring enters the felt area. Synchronously, the transfer paper is stuck and pressed on the hair; under the clamping of the felt and the transfer paper, the felt, the transfer paper and the transfer paper enter a transfer area of the synchronous thermal transfer roller together to complete the clockwork spring. The dyeing device has the advantages of large dyeing contact area, constant dyeing temperature, dyeing effect, high automation degree by adopting the controller to control dyeing.

Description

Pollution-free wig spring transfer printing equipment and method

Technical Field

The invention relates to a high-efficiency wig spring dyeing machine. In particular to a pollution-free wig spring transfer printing device and method.

Background

Wigs are hair produced by artificial techniques, ornamental articles for decoration, which can be worn by bald or thin hair, or as part of costumes, officers or professionals for bundling or fashion decorations, which has many advantages, such as easy and convenient hair style changing, time saving, hair quality injury caused by perm and hair drawing, various hair style designs can be tried, and different fashionable dresses can be lined, so that wearing wigs is increasingly favored by people, and in order to make wigs more beautiful, people can dye wigs,

with the continuous improvement of the quality of life, the appearance is more and more emphasized by people, and people can easily find the appearance on streets and alleys, so that the hair dyeing, especially the dyeing and painting hair becomes a fashion for consumption; the demand is brought into the market, present the fashion wig of batch factory production, nevertheless because of its wig all is artifical preparation, if there is strong rotation to probably lead to the wig to drop in a large number for the in-process of wig dyeing, loose or tie a knot even, cause the loss, the productivity is general low, in the preparation production process of wig, often need dye the wig, at present adopt mostly to add the coloring agent stirring in dyeing process and dye, only lean on the stirring to dye, dyeing effect is poor, inefficiency. The hair dyeing process comprises the steps of firstly adding soft water into a dyeing barrel, heating the soft water to a required temperature, then adding the dye, adding the hair according to a certain proportion, and stirring until the dyeing quality is met, and then fishing out the hair. In the hair dyeing process, in order to obtain better dyeing quality, the solution in the dyeing tank needs to be kept at a uniform temperature, and the hair to be dyed and the dye need to be in sufficient contact so that the dye can uniformly act on the surface of the hair. In order to meet the requirements, the hair must be continuously stirred, the work is realized by manual operation at present, each dyeing barrel needs to be charged by a specially-assigned person, the stirring operation is carried out all the time, the labor intensity of workers is high, and dye steam is harmful to human bodies. The stirring uniformity is difficult to control by manual operation, and the dyeing quality is directly influenced. The application number is 200910172335.0, the dyeing and stirring process of the full-automatic numerical control hair-dyeing machine is that a water inlet tangent to the circumference of a dyeing barrel is used for spraying a solution, the solution forms a vortex to achieve the stirring purpose, the method cannot ensure that hair is fully dyed, hair products are easy to curl, equipment is expensive, and the full-automatic numerical control hair-dyeing machine is not widely applied.

CN 206887439U an automatic wig dyeing device solves and wears for a long time, and the wig can be in disorder slightly, arranges the wig, especially false long hair, takes certain time. In the factory production process, the dyed wig needs to be cleaned and the floating color needs to be removed in the preparation process of the wig, only the wig is washed by water in the prior art, and impurities mixed in the middle of the wig are not completely removed.

In the prior art of the CN 207193564U wig straightening and dyeing device, the wig needs to be operated in a plurality of processes in the production process, and the dyeing process of the traditional wig has the defects of complicated structure and uneven dyeing.

CN 104652066A high efficiency wig dyeing machine, CN 207259767U wig silk dyeing apparatus for industrial production, CN 206887432U dyeing equipment for wig, CN 108625061A propose a dyeing apparatus for wig that dyeing effect is good, solve present dyeing apparatus for wig proportion can not accurate control when allotting the colour, dye liquid colour mixes inhomogeneous, leads to the not good problem of effect when dyeing.

The polyacrylonitrile fiber modified polyacrylonitrile fiber has good elasticity and smoothness, full texture and good hand feeling, is called artificial wool, is often used as a wig raw material and is widely applied to hair product fibers. At present, the dyeing method for acrylic fibers is mainly divided into a stock solution dyeing method and a gel dyeing method. The invention patent CN1170014C discloses a method for preparing colored acrylon by stock solution coloring, which mixes color paste prepared by pigment and NaSCN aqueous solution with spinning stock solution and then sends the mixture into a spinning machine for spinning, but the fiber prepared by the method has the defects of non-bright color and luster, poor brightness, less color spectrum, less color variety and the like. The conventional gel dyeing method has the problems of uneven dyeing, serious color-flower phenomenon and the like, and can generate a large amount of industrial sewage to cause harm to the environment. The invention patent CN100344826C discloses a dyeing method of gel-dyed acrylic fibers, which solves the defects of uneven dyeing, whitening of tows and the like by designing the addition amount and the addition concentration of a dye solution on the basis of conventional gel dyeing, and can only be used for producing civil fibers of 0.8-6.67 dtex, and CN 103981743B provides a new method for the applicability of the gel dyeing method for preparing modified polyacrylonitrile fibers for wigs to fibers for wigs of 30-80 dtex.

Sodium alginate has attracted attention because of its high oxygen permeability, high moisture absorption, flame retardancy, non-toxicity, and biodegradability. The seaweed/krill protein composite fiber is a novel green biodegradable fiber obtained by solidifying and filamentizing in the presence of divalent metal ions in a wet spinning forming technology, and the fiber not only has better flame retardant property of the seaweed fiber, but also has beautiful color and comfortable hand feeling of the protein fiber.

The fiber for the seaweed/krill protein composite simulation wig has the modulus and the strength which are comparable to those of real hair, is non-toxic, has excellent flame retardant property, can be made into various wig products meeting the market demand through dyeing, and is an ideal material for wig, but the objective problem existing at present is that the composite fiber has serious destructive swelling phenomenon in the dyeing process, so that the fiber loses the original modulus and mechanical strength, the practical value is lost, meanwhile, the diameter (about 70-80 mu m) of the wig fiber is thicker than that of the conventional fiber (about 10-20 mu m), and the uniformity of dyeing is difficult to ensure by the conventional dyeing method. CN 104652140B a dyeing method of composite fiber for wig gives a proposal for composite fiber for wig (such as seaweed/krill protein composite fiber) to solve the above problems.

However, the above techniques all produce a large amount of industrial sewage, which is harmful to the environment.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides pollution-free wig spring transfer printing equipment and method, which have the advantages of large dyeing contact area, constant dyeing temperature and high dyeing effect, and the controller is adopted to control dyeing, so that the automation degree is high.

In order to solve the technical problems, the invention adopts the following technical scheme:

a pollution-free wig spring transfer printing device comprises a transfer printing spring winding and unwinding device, a transfer printing felt device, a transfer printing paper device, a negative pressure system and a heat transfer printing roller device which are vertically arranged, wherein the transfer printing spring winding and unwinding device, the transfer printing felt device, the transfer printing paper device and the heat transfer printing roller device are driven by a servo motor, magnetic powder or friction tension controls constant tension winding and unwinding, a temperature sensor is arranged in the heat transfer printing roller device, and the temperature sensor, a heating device and the servo motor are connected with a controller.

Preferably, the negative pressure system is adsorbed by an air knife and controls the hair to vertically face downwards.

The invention discloses a pollution-free wig spring transfer printing method, which comprises the following steps: in order to solve the key technical problems that one end of a clockwork spring is orderly connected, and the other end of the clockwork spring is loose, disconnected and incapable of being transferred, a hair curtain is tightly locked at the upper end, loose hair is vertically and downwards placed, and the suspended hair is orderly adsorbed on the surface of a felt under the action of negative pressure adsorption before the clockwork spring enters a felt area; synchronously, the transfer paper is stuck and pressed on the hair; under the clamping of the felt and the transfer paper, the felt, the transfer paper and the transfer paper enter a transfer area of the synchronous thermal transfer roller together to complete the clockwork spring.

Preferably, the hair transfer dyeing is added to the synchronous double-sided transfer paper on the front and back surfaces of the clockwork spring.

Preferably, the felt of the felt system is surface treated with polytetrafluoroethylene and is not compatible with dyes.

The invention has the beneficial effects that: the dyeing device has the advantages of large dyeing contact area, constant dyeing temperature, dyeing effect, high automation degree by adopting the controller to control dyeing.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples. It is to be understood that the following examples are illustrative only and are not intended to limit the scope of the invention, which is to be given numerous insubstantial modifications and adaptations by those skilled in the art based on the teachings set forth above.

Example 1

A pollution-free wig spring transfer printing device comprises a transfer printing spring winding and unwinding device 1, a transfer printing felt device 3, a transfer printing paper device 2, a negative pressure system and a heat transfer printing roller device 4 which are vertically arranged, wherein the transfer printing spring winding and unwinding device, the transfer printing felt device, the transfer printing paper device and the heat transfer printing roller device are driven by a servo motor, magnetic powder or friction tension controls constant tension winding and unwinding, a temperature sensor is arranged in the heat transfer printing roller device, and the temperature sensor, a heating device and the servo motor are connected with a controller.

Preferably, the negative pressure system is adsorbed by an air knife and controls the hair to vertically face downwards.

The invention discloses a pollution-free wig spring transfer printing method, which comprises the following steps: in order to solve the key technical problems that one end of a clockwork spring is orderly connected, and the other end of the clockwork spring is loose, disconnected and incapable of being transferred, a hair curtain is tightly locked at the upper end, loose hair is vertically and downwards placed, and the suspended hair is orderly adsorbed on the surface of a felt under the action of negative pressure adsorption before the clockwork spring enters a felt area; synchronously, the transfer paper is stuck and pressed on the hair; under the clamping of the felt and the transfer paper, the felt, the transfer paper and the transfer paper enter a transfer area of the synchronous thermal transfer roller together to complete the clockwork spring.

Preferably, the hair transfer dyeing is added to the synchronous double-sided transfer paper on the front and back surfaces of the clockwork spring.

Preferably, the felt of the felt system is surface treated with polytetrafluoroethylene and is not compatible with dyes.

Example 2

The temperature sensor, the heating device, the servo motor and the controller are connected to drive the locking end of the continuous hair curtain with the length of 25' to be on, the scattered hair is vertically placed downwards, and the suspended hair is orderly adsorbed on the surface of the felt under the action of negative pressure adsorption of the air knife before the clockwork spring enters the felt area. Synchronously, the transfer paper is stuck and pressed on the hair; under the holding of the felt and the transfer paper, the felt, the transfer paper and the transfer paper enter a transfer area of the synchronous thermal transfer roller together to finish clockwork dyeing. And then, respectively winding the spiral power spring and the used transfer paper for the next process.

Example 3

The temperature sensor, the heating device, the servo motor and the controller are connected to drive the locking end of the continuous hair curtain with the length of 15' to be on, the scattered hair is vertically placed downwards, and the suspended hair is orderly adsorbed on the surface of the felt under the action of negative pressure adsorption of the air knife before the clockwork spring enters the felt area. Synchronously, the transfer paper is stuck and pressed on the hair; under the condition that the felt and the transfer paper are added, the hair is added to the front and back two sides of the clockwork spring synchronously and the double-sided transfer paper is added with the hair for transfer dyeing. The four materials enter a transfer area of the synchronous heat transfer roller together to complete spring dyeing. And then, respectively winding the spiral power spring and the used transfer paper for the next process.

Example 4

The temperature sensor, the heating device, the servo motor and the controller are connected to drive the locking end of the continuous hair curtain with the length of 15' to be on, the scattered hair is vertically placed downwards, and the suspended hair is orderly adsorbed on the surface of the felt under the action of negative pressure adsorption of the air knife before the clockwork spring enters the felt area. Simultaneously, ink-jet printing on the hair; and drying to finish clockwork dyeing in a felt hot roller area. And then, the clockwork spring is coiled for the next working procedure. That is, direct injection may be implemented instead of thermal transfer.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. A method for transferring printing of a pollution-free wig spring by using pollution-free wig spring transfer printing equipment is characterized by comprising the following steps: the locking end of the hair curtain is arranged above, the scattered hair is vertically placed downwards, and the suspended hair is orderly adsorbed on the surface of the felt under the action of negative pressure adsorption before the clockwork spring enters the felt area; synchronously, the transfer paper is stuck and pressed on the hair; under the condition that the felt and the transfer paper are held, the felt, the transfer paper and the transfer paper enter a transfer area of the synchronous heat transfer roller together to finish dyeing of the clockwork spring;

the pollution-free wig spring transfer printing equipment comprises a transfer printing spring winding and unwinding device (1), a transfer printing felt device (3), a transfer printing paper device (2), a negative pressure system and a heat transfer printing roller device (4) which are vertically arranged, wherein the transfer printing spring winding and unwinding device, the transfer printing felt device, the transfer printing paper device and the heat transfer printing roller device are driven by a servo motor, magnetic powder tension controls constant tension winding and unwinding, a temperature sensor is arranged in the heat transfer printing roller device, and the temperature sensor, a heating device and the servo motor are connected with a controller.

2. The method of claim 1, wherein the negative pressure system is a wind knife suction that holds the hair vertically down.

3. The method of claim 2, wherein: the hair transfer dyeing is added to the synchronous double-sided transfer paper on the front and back surfaces of the clockwork spring.

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