KR200167684Y1 - Heat-transfer paper for label made of thermosetting material - Google Patents

Abstract

The present invention relates to a thermal transfer paper for labels made of a thermosetting material, and in particular, to enhance the adhesive force of the thermosetting material layer and the adhesive layer of the label attached to clothes, shoes, bags and hats, and by the thermosetting material layer more protruded three-dimensionally It is to realize three-dimensional label with excellent decoration.

Conventionally, when the thermal adhesive is applied to the thermosetting material layer constituting the three-dimensional label, there is a problem such that the adhesive force is remarkably lowered due to the release property of the thermosetting material layer.

Therefore, according to the present invention, the thermosetting material layer 13 is firmly adhered to the heat adhesive layer 11 by the powdered adhesive reinforcing layer 12 positioned between the heat adhesive layer 11 and the thermosetting material layer 13. Since the thermosetting material layer 13 can prevent the conventional closed end such as falling from the material 20 and at the same time, the flexibility of the thermosetting material layer 13 allows the material to be flexibly buffered even if the material is shrunk or stretched. By preventing the deformation of the original shape can be maintained as it has the advantage of enhancing the foreign competitiveness of the label as much as possible.

Description

Heat-transfer paper for label made of thermosetting material}

The present invention relates to a thermal transfer paper for labels made of a thermosetting material, and in particular, to enhance the adhesive force of the thermosetting material layer and the adhesive layer of the label attached to clothes, shoes, bags and hats, and by the thermosetting material layer more protruded three-dimensionally It is to realize three-dimensional label with excellent decoration.

In general, in order to form a silicone rubber or a thermosetting resin into a three-dimensional label, a technique has been proposed in which a label is protruded by thermally transferring a thermosetting material layer to a disposable mold cardboard.

In the manufacture of such a label, the thermal adhesive applied to the backside of the thermosetting material layer is adhered to the material by the heat press to be adhered to form a thermosetting material layer having a specific shape on the material, thereby having a thermosetting material layer such as silicone rubber. Even if the material is shrunk or stretched due to its flexibility, it is flexibly buffered to prevent the closed end from being deformed or poorly attached.

However, when the heat adhesive is applied to the thermosetting material layer, there is a problem that the adhesive strength is significantly lowered due to the release property of the thermosetting material layer. That is, the thermosetting material layer contains oil, and even when the thermosetting material layer is completely cured, a small amount of oil remains on the surface, and thus the adhesive strength is significantly weakened.

Of course, even if the oil remaining on the surface of the thermosetting material layer is wiped by an artificial method, since the inside of the thermosetting material layer contains a certain amount of oil, there is a problem in that the thermal adhesive and the thermosetting material layer are eventually separated. .

The present invention was devised to solve the above problems, and an object thereof is to provide a thermal transfer paper for labels that is hardly adhered to a label due to a strong adhesive of a thermal adhesive layer and a thermosetting material layer to be firmly adhered to a label.

The present invention has been made in view of the above problems, the object of which is applied to the surface of the release paper 10 in a specific form, the heat adhesive layer 11 attached to the material 20 of the product; An adhesive strengthening layer 12 uniformly coated on the thermal adhesive layer 11; A thermosetting material layer 13 applied and cured in a shape corresponding to that of the thermal adhesive layer 11 on the surface of the adhesive strengthening layer 12; A cover layer 14 applied to the surface of the thermosetting material layer 13 and the release paper 10; It is made of a release paper (10a) attached to the cover layer 14 surface, the adhesive reinforcing layer 12 is for labeling, characterized in that the thermosetting material layer 13 and the heat adhesive layer 11 closely adheres It can be achieved by thermal transfer paper.

1 is a cross-sectional view illustrating an embodiment of the present invention,

2A to 2C are cross-sectional views sequentially illustrating a process of forming a label by attaching a thermal transfer paper according to the present invention to a material.

Figure 3 is a perspective view illustrating a state in which the label according to the present invention attached to the material.

Explanation of symbols on the main parts of the drawings

1: Label

10, 10a: release paper

11: heat adhesive layer

12: adhesive strengthening layer

13: thermosetting material layer

14: cover layer

20: material

21: heat press

Hereinafter, with reference to the accompanying drawings, the manufacturing process of the thermal transfer paper for labels made of a thermosetting material according to the present invention is as follows.

That is, as shown in FIGS. 1 to 3, a heat adhesive is applied to the surface of the release paper 10 in a specific form (for example, a letter form of 'ZPZG' type) and attached to the material 20 of the product. The thermal adhesive layer 11 is formed.

The thermal adhesive layer 11 is a thermoplastic adhesive of synthetic resins, and mainly has a characteristic that it is fused to the material 20 when the heat is applied in a solid state.

A powdery adhesive strengthening agent is uniformly applied on the thermal adhesive layer 11 to form an adhesive strengthening layer 12.

In this case, as the material of the adhesive strengthening layer 12, metal powder, fiber powder, inorganic or organic primer is used. Preferably, synthetic resin particles having a size of about 0.4 mm, for example, polyester resin powders are used, but in some cases, dilution of the solvent in an organic primer to apply an adhesive strengthening layer 12 made of a liquid phase by silk screening. As it can be made, it is not necessarily limited to the powder which is an adhesive strengthening layer 12 according to the present invention.

Due to the presence of the adhesive strengthening layer 12, the thermosetting material layer 13 and the thermal adhesive layer 11 are closely adhered to each other so that they do not fall apart when they are thermally pressurized.

At this time, it is important to increase the adhesive strength so that the powder-like adhesive reinforcing layer 12 is uniformly placed thereon before the thermal adhesive layer 11 is cured.

That is, when the adhesive strengthening layer 12 is uniformly placed before the thermal adhesive layer 11 is cured, a part of the adhesive strengthening layer 12 is hardened and fixed in a state buried in the thermal adhesive layer 11 and the remaining portion is fixed. Protrudes to the top of the heat adhesive layer (11).

Subsequently, the thermosetting material is coated on the surface of the adhesive reinforcing layer 12 and heated at room temperature to form the thermosetting material layer 13.

Since the thermosetting material layer 13 and the heat adhesive layer 11 form a specific letter or figure, a silk screen printing plate having a specific letter or figure is placed on the release paper 10 and the heat adhesive and the thermosetting material are sequentially applied. When the silk plate is separated after the silk screen printing is completed, the heat adhesive layer 11 and the thermosetting material layer 13 formed of specific characters or figures are formed.

Of course, in addition to this method, it is possible to apply the heat-adhesive layer 11 and the thermosetting material layer 13 made of a specific letter or figure on the release paper 10 by using a mold having an intaglio groove. It is not limited to the printing method.

The material of the thermosetting material layer 13 may be a material that is mainly flexible, such as silicone rubber, thermosetting resin, or urethane rubber, and is not deformed by heat, but preferably silicone rubber is mainly used.

Subsequently, the cover layer 14 is applied on the thermosetting material layer 13 and the release paper 10, and then another release paper 10a is attached on the cover layer 14 to complete the thermal transfer paper for the label.

In this case, in order to easily separate the thermosetting material layer 13 such as silicon, the cover layer 14 preferably has a good releasability and a material that can withstand the heat of the iron, and is mainly used for natural rubber or heat such as latex. Strong releasable resin and the like.

The thermal transfer paper for labels completed through the above-described process is separated from the release paper 10 positioned at the lowermost side as shown in FIG. 2A, and then the thermal adhesive layer 11 is placed on a material 20 such as cloth or leather. As shown in FIG. 2B, the iron or hot press 21 is placed on the release paper 10a positioned at the uppermost side and pressurized.

In this case, the thermal adhesive layer 11 is fused by heat of about 150 ° C. generated by the heat press 21, and the thermosetting material layer 13 is firmly adhered while penetrating into the material 20.

At the same time, the powdered adhesive reinforcing layer 12 adhered to the lower portion of the thermosetting material layer 13 serves as a medium for firmly bonding the two sides between the heat adhesive layer 11 and the thermosetting material layer 13 to maximize the adhesive strength. Since it is possible to raise, it is possible to completely solve the conventional problems such as the adhesive strength is significantly weakened by the oil contained in the thermosetting material layer in the prior art.

Then, the heat press 21 is removed and the cover layer 14 and the release paper 10a adhered to the thermosetting material layer 13 are separated, and the label of the thermosetting material made of a specific letter or figure on the material 20 is formed. ) Is formed.

A feature of the present invention as described above is in the adhesive strengthening layer 12 located between the thermosetting material layer 13 and the thermal adhesive layer 11. That is, the powdery adhesive strengthening layer 12 protruding on the heat adhesive layer 11 is adhered to the thermosetting material layer 13 before curing, and is firmly fixed when the thermosetting material layer 13 is completely cured. As a whole, the conventional thermosetting material layer 13 is firmly adhered to the thermal adhesive layer 11 and the conventional problems such as the thermosetting material layer 13 falling from the material 20 are completely solved.

In addition, due to the flexibility of the thermosetting material layer 13 protruding three-dimensionally, even if the material is shrunk or stretched, it can be flexibly buffered to prevent the closing of the label 1 and the like, and the label (1) may be washed or ironed. By minimizing the deformation of) can be kept intact.

The foregoing descriptions are intended to describe the present invention in more detail, and these details do not necessarily limit the scope of the present invention.

The present invention as described above, since the thermosetting material layer 13 is firmly adhered to the thermal adhesive layer 11 by the powdery adhesive strengthening layer 12, the thermosetting material layer 13 is the material 20 It is possible to prevent the conventional closed end, such as falling from the same time at the same time by the flexibility of the thermosetting material layer 13, even if the material shrinks or stretches, and flexibly buffered to prevent deformation of the label (1) to maintain the label as it is There is an advantage such as to maximize the foreign competitiveness of the company.

Claims (4)

A heat adhesive layer 11 applied to the surface of the release paper 10 in a specific form and attached to the material 20 of the product; An adhesive strengthening layer 12 uniformly coated on the thermal adhesive layer 11; A thermosetting material layer 13 applied and cured in a shape corresponding to that of the thermal adhesive layer 11 on the surface of the adhesive strengthening layer 12; A cover layer 14 applied to the surface of the thermosetting material layer 13 and the release paper 10; It is made of a release paper (10a) attached to the surface of the cover layer 14, The adhesive reinforcing layer 12 is a thermal transfer paper for labels, characterized in that the thermosetting material layer 13 and the heat adhesive layer (11) closely adhere. 2. The thermal transfer paper for labels according to claim 1, wherein the adhesive strengthening layer (12) is made of a fiber, a metal, an inorganic or an organic primer. The method of claim 1, wherein the cover layer 14 is a thermal transfer paper for labels made of a thermosetting material, characterized in that formed of a natural rubber or heat resistant release resin such as latex. The thermal transfer paper for labels according to claim 1, wherein the thermosetting material layer (13) is silicone rubber.