CN204020274U - The transfer film of lines and the shell structure of application transfer film in tool - Google Patents

Abstract

The utility model discloses the transfer film of lines in a kind of tool and the shell structure of application transfer film.Shell structure comprises a substrate, an adhesion layer, an ink layer, a ultraviolet hardening resin layer and a heated-air drying coating.Adhesion layer is arranged at substrate.Ink layer is arranged at the side of adhesion layer in contrast to substrate.Ink layer has a space pattern in contrast to the side of adhesion layer.Ultraviolet hardening resin layer is arranged at the side of ink layer in contrast to adhesion layer.The side of ultraviolet hardening resin aspect to ink layer has one of corresponding space pattern concave convex texture.Heated-air drying coating is arranged at the side of ultraviolet hardening resin layer in contrast to ink layer.By this, the inside of shell structure has pattern and transfer film has soft sense of touch.

Description

The transfer film of lines and the shell structure of application transfer film in tool

Technical field

This case system about a kind of transfer film and application transfer film shell structure, particularly a kind of tool in lines transfer film and application transfer film shell structure.

Background technology

With mobile computer, its characteristic be convenient for carrying receives an acclaim very much.Therefore for quality and the outward appearance of mobile computer, higher requirement is also had.For example, in order to promote comfortableness during use, the mobile computer with soft sense of touch shell is also luxuriant is fashion.

In order to make shell have more polynary outward appearance, meeting is at housing design decorative pattern usually, to reach the aesthetic feeling of vision.The mode that method common is at present through spraying goes out decorative pattern at shell surface spraying, but the processing procedure of spraying is easy to the pollution causing environment.

Utility model content

This is novel is the shell structure of transfer film about lines in a kind of tool and application transfer film, uses and solves in prior art, form in case surface the problem that decorative pattern can cause environmental pollution.

In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is:

A transfer film for lines in tool, comprises:

One release support plate;

One heated-air drying coating, is arranged at this release support plate side;

One ultraviolet hardening resin layer, be arranged at this heated-air drying coating side, this ultraviolet hardening resin layer has a concave convex texture in contrast to the side of this heated-air drying coating;

One ink layer, is arranged at the side of this ultraviolet hardening resin layer in contrast to this heated-air drying coating, and this ink layer has the space pattern corresponding to this concave convex texture in the face of the side of this ultraviolet hardening resin layer; And

One adhesion layer, is arranged at the side of this ink layer in contrast to this ultraviolet hardening resin layer.

The transfer film of lines in aforementioned tool, is characterized in that: this heated-air drying coating is selected from soft coating and group that hard conating formed.

The transfer film of lines in aforementioned tool, is characterized in that: the thickness of this heated-air drying coating is greater than 6 microns.

The transfer film of lines in aforementioned tool, is characterized in that: the material of this heated-air drying coating comprises polyurethane and polyurethane acryl resin.

The transfer film of lines in aforementioned tool, is characterized in that: the material of this heated-air drying coating comprises polyurethane, fine hair powder and silica, and wherein fine hair powder accounts for the gross weight 10 ~ 50%wt of this heated-air drying coating.

The transfer film of lines in aforementioned tool, is characterized in that: the material of this ultraviolet hardening resin layer is selected from the group that polyurethane acryl resin and polyester acryl resin formed.

The transfer film of lines in aforementioned tool, is characterized in that: also comprise a following layer, and this following layer is between this heated-air drying coating and this ultraviolet hardening resin layer.

The transfer film of lines in aforementioned tool, it is characterized in that: the material of this ink layer is polyester acryl resin, the material of this adhesion layer is selected from ethylene-acetic ethylene ester copolymer and group that acryl resin formed, and the material of this following layer is selected from the group that polyurethane acryl resin and polyester acryl resin formed.

A shell structure for lines in tool, is characterized in that: comprise:

One substrate;

One adhesion layer, is arranged at this substrate side;

One ink layer, is arranged at the side of this adhesion layer in contrast to this substrate, and this ink layer has a space pattern in contrast to the side of this adhesion layer;

One ultraviolet hardening resin layer, is arranged at the side of this ink layer in contrast to this adhesion layer, and this ultraviolet hardening resin aspect side to this ink layer has should one of space pattern concave convex texture; And

One heated-air drying coating, is arranged at the side of this ultraviolet hardening resin layer in contrast to this ink layer.

The beneficial effects of the utility model are: the transfer film of lines and the shell structure of application transfer film in the tool disclosed by this new embodiment, owing to being through the method for transfer printing to form transfer film in shell structure, and can form space pattern in shell structure.Therefore, solve in prior art, form in case surface the problem that decorative pattern can cause environmental pollution.

Accompanying drawing explanation

Fig. 1 is the preparation method of the transfer film of lines in the disclosed tool of this novel embodiment;

Fig. 2 A to Fig. 2 E is the cut-away illustration of the step S101 to S105 of corresponding diagram 1 respectively;

Fig. 2 F is the cut-away illustration according to the transfer film of lines in the prepared tool of the preparation method of Fig. 1;

Fig. 3 A is the preparation method of the transfer film of lines in the disclosed tool of this another embodiment novel;

Fig. 3 B is the cut-away illustration of the step S203 of corresponding diagram 3A;

Fig. 3 C is the cut-away illustration according to the transfer film of lines in the prepared tool of the preparation method of Fig. 3 A;

Fig. 4 is the preparation method of the shell structure of lines in the disclosed tool of this novel embodiment;

Fig. 5 A to Fig. 5 B is the cut-away illustration of the step S301 to S302 of corresponding diagram 4 respectively;

Fig. 5 C is the cut-away illustration according to the transfer film of lines in the prepared tool of the preparation method of Fig. 4;

Fig. 6 is the preparation method of the shell structure of lines in the disclosed tool of this another embodiment novel;

Wherein, 9, the shell structure of lines in tool, 10, the transfer film of lines in tool, 11, release support plate, 12, heated-air drying coating, 13, ultraviolet hardening resin layer, 14, ink layer, 15, adhesion layer, 16, following layer, 20, substrate, A, concave convex texture, B, space pattern.

Detailed description of the invention

Below this novel detailed features and advantage is described in embodiments in detail, its content is enough to make any relevant art of haveing the knack of understand this novel technology contents and implement according to this, and content disclosed by this description, claim and graphic, any relevant art of haveing the knack of can understand this novel relevant object and advantage easily.Embodiment system below further describes this novel viewpoint, but non-to limit this novel category anyways.

First, refer to Fig. 1 and Fig. 2 A to Fig. 2 F, Fig. 1 is the preparation method of the transfer film of lines in the disclosed tool of this novel embodiment.Fig. 2 A to Fig. 2 E is the cut-away illustration of the step S101 to S105 of corresponding diagram 1 respectively.Fig. 2 F is the cut-away illustration according to the transfer film of lines in the prepared tool of the preparation method of Fig. 1.

First, a release support plate 11(S101 is provided) (as shown in Figure 2 A).Release support plate 11 is such as polyolefin film (polyolefin), PET (the Polyethylene terephthalate with release layer, PET), PETG-1,4-cyclohexanedimethanoester ester (Poly (ethylene terephthalateco-1,4-cylclohexylenedimethylene terephthalate), PETG), polypropylene screen (polypropylene, or polyethylene film (polyethylene PP), PE), but not as limit.

Then, a heated-air drying coating 12(S102 is set in release support plate 11) (as shown in Figure 2 B).Specifically, be such as through the method for coating or printing and heated-air drying coating 12 is set at release support plate 11.Heated-air drying coating 12 refers to that coating has the character of deflection, stretching.Heated-air drying coating 12 is such as be selected from the group that soft coating (soft touch) and hard conating (hard coat, HC) formed.When heated-air drying coating 12 is soft coatings, the material of heated-air drying coating 12 comprises polyurethane, fine hair powder and silica, wherein fine hair powder accounts for the gross weight 10 ~ 50%wt of heated-air drying coating 12, and the thickness of the heated-air drying coating 12 formed is greater than 6 microns (mm).In this novel section Example, the soft coating of heated-air drying coating 12() thickness between 6 microns and 46 microns.When the thickness of heated-air drying coating 12 is thicker, the sense of touch of heated-air drying coating 12 is more soft and more have elasticity.That is user can adjust the thickness of heated-air drying coating 12 according to the demand of its sense of touch.On the other hand, when heated-air drying coating 12 is hard conatings, the material of heated-air drying coating 12 comprises polyurethane and polyurethane acryl resin, and the thickness of the heated-air drying coating 12 formed is between 10 microns and 20 microns.Specifically, when the thickness of heated-air drying coating 12 is thicker, heated-air drying coating 12 has preferably hardness.That is when heated-air drying coating 12 is hard conatings, user can adjust the thickness of heated-air drying coating 12 according to the demand of its hardness.In addition, hard conating is used also to have the visual experience of bright as the transfer film made by heated-air drying coating 12.

Then, a ultraviolet hardening resin layer 13 is set in heated-air drying coating 12 in contrast to the side of release support plate 11, and forms a concave convex texture A(S103 in ultraviolet hardening resin layer 13 in contrast to the side of heated-air drying coating 12) (as shown in Fig. 2 C, Fig. 2 D).Specifically, be such as through the method for coating or printing and ultraviolet hardening resin layer 13 is set in heated-air drying coating 12.Ultraviolet hardening resin layer 13 can be a thermosetting resin or a ultraviolet hardening resin.That is, ultraviolet hardening resin layer 13 can harden through heating or irradiation ultraviolet radiation.The material of ultraviolet hardening resin layer 13 is such as be selected from the group that polyurethane acryl resin and polyester acryl resin formed.The method forming concave convex texture A in ultraviolet hardening resin layer 13 can be use imprinting process, and so not as limit, user can select suitable method according to its demand.

Then, perform one first program curing (S104) to solidify to make ultraviolet hardening resin layer 13.Specifically, when ultraviolet hardening resin layer 13 is thermosetting resins, the mode that program curing is through heating performs, and when ultraviolet hardening resin layer 13 is ultraviolet hardening resins, the mode that program curing is then through irradiation ultraviolet radiation performs.It is noted that, still possess draftability after ultraviolet hardening resin layer 13 solidification of the present embodiment, thus can guarantee that transfer film can be transferred to the shell structure with curved surface.

The sequencing of above-mentioned steps (S103) and step (S104) being not used to limits that this is novel, in this novel section Example, step (S103) and step (S104) can be performed simultaneously or first perform step (S104) and perform step (S103) again.For example, when ultraviolet hardening resin layer 13 is ultraviolet hardening resins, imprinting process can be carried out under irradiation environment, thus can complete the program of solidification and shaping in the lump.

Then, an ink layer 14(S105 is set in ultraviolet hardening resin layer 13 in contrast to the side of heated-air drying coating 12) (as shown in Figure 2 E).Specifically, be such as through the method for coating or printing and ink layer 14 is set at ultraviolet hardening resin layer 13.The material of ink layer 14 is polyester acryl resin.User can select transparent ink layer 14 according to its demand, or selects the color of ink layer 14.Surface due to ultraviolet hardening resin layer 13 has concave convex texture A, and thus ink layer 14 can form the space pattern B corresponding to concave convex texture A in the face of the side of ultraviolet hardening resin layer 13.

Finally, an adhesion layer 15(S106 is set in ink layer 14 in contrast to the side of ultraviolet hardening resin layer 13) (as shown in Figure 2 F).Specifically, be such as through the method for coating or printing and adhesion layer 15 is set at ink layer 14.The material of adhesion layer 15 is selected from ethylene-acetic ethylene ester copolymer (ethylene-vinyl acetate copolymer, EVA) and group that acryl resin formed.Thus, the preparation of the transfer film 10 of lines in tool is namely completed.In tool, the transfer film 10 of lines can pass through adhesion layer 15 and is transferred to shell structure, and how the transfer film 10 of lines in tool being transferred to shell structure will introduce in more detail in paragraph after a while.

In addition, in order to promote the bond strength between heated-air drying coating 12 and ultraviolet hardening resin layer 13 further, in this novel section Example, a following layer can also be formed between heated-air drying coating 12 and ultraviolet hardening resin layer 13.Refer to Fig. 3 A to Fig. 3 C, Fig. 3 A is the preparation method of the transfer film of lines in the disclosed tool of this another embodiment novel.Fig. 3 B is the cut-away illustration of the step S203 of corresponding diagram 3A.Fig. 3 C is the cut-away illustration according to the transfer film of lines in the prepared tool of the preparation method of Fig. 3 A.Step S201, the S202 and S204 to S207 of the present embodiment are similar to the step S101 to S106 of Fig. 1, therefore are only described for its difference part.

Specifically, heated-air drying coating 12(S202 is being set) step after, then form a following layer 16(S203 in heated-air drying coating 12 in contrast to the side of release support plate 11) (as shown in Figure 3 B).Specifically, be such as through the method for coating or printing and following layer 16 is set in heated-air drying coating 12.The material of following layer 16 is selected from the group that polyurethane acryl resin and polyester acryl resin formed.By this, to promote the bond strength between heated-air drying coating 12 and ultraviolet hardening resin layer 13.In the tool prepared by preparation method of foundation Fig. 3 A, the transfer film 10x of lines as shown in Figure 3 C.It is noted that, in tool, the transfer film 10x of lines comprises following layer 16 and is not used to limit that this is novel.

Refer to Fig. 4 and Fig. 5 A to 5C, Fig. 4 is the preparation method of the shell structure of lines in the disclosed tool of this novel embodiment.Fig. 5 A to Fig. 5 B is the cut-away illustration of the step S301 to S302 of corresponding diagram 4 respectively.Fig. 5 C is the cut-away illustration according to the shell structure of lines in the prepared tool of the preparation method of Fig. 4.

First, the transfer film 10(S301 of lines in a tool is provided) (as shown in Figure 5A).In tool, the transfer film 10 and preparation method thereof of lines is as mentioned above, therefore not repeated description.

Then, a substrate 20 is attached to side (S302) (as shown in Figure 5 B) of adhesion layer 15 in contrast to ink layer 14.Substrate 20 is represent the shell structure of institute for application, and the material of substrate 20 is such as metalwork or working of plastics, but not as limit.

Finally, release support plate 11 Self-air-heating dry coating 12 is separated, namely completes the preparation (S303) of the shell structure 9 of lines in tool.Above-mentioned step S302 substrate 20 being attached to the adhesion layer 15 and step S303 be separated by release support plate 11 Self-air-heating dry coating 12 is exactly a printing process.

In the tool completed prepared by the present embodiment, the shell structure 9 of lines as shown in Figure 5 C, and in tool, the shell structure 9 of lines has soft sense of touch and inside has space pattern B, thus can meet the requirement in user's vision and sense of touch simultaneously.

It is noted that, along with the nature difference of selected heated-air drying coating 12, above-mentioned processing procedure has corresponding difference step.When heated-air drying coating 12 is hard conatings, the preparation process of shell structure has corresponding difference step.

Refer to Fig. 6, Fig. 6 is the preparation method of the shell structure of lines in the disclosed tool of this another embodiment novel.In the present embodiment, the heated-air drying coating 12 used is hard conatings, and substrate 20 is being attached to adhesion layer 15 after the step (S402) of the side of ink layer 14, another execution one second program curing (S403), so that heated-air drying coating 12 is solidified further, to strengthen the structural property of heated-air drying coating 12.

The transfer film of lines and the shell structure of application transfer film in tool disclosed by this new embodiment, because transfer film is transferred to shell structure by the method being through transfer printing, to form space pattern on the surface of housing.So, solve in prior art, form in case surface the problem that decorative pattern can cause environmental pollution.In addition, because the shell structure of lines in the tool of this new embodiment has soft sense of touch and inside has space pattern, thus can meet the requirement in user's vision and sense of touch simultaneously.

Although this is novel with embodiment exposure as above; so itself and be not used to limit that this is novel; have in any art and usually know the knowledgeable; not departing from these novel spirit and scope; when doing a little change and retouching, thus this novel protection domain when depending on after the attached claim person of defining be as the criterion.

Claims (4)

1. the transfer film of lines in tool, comprises:

One release support plate;

One heated-air drying coating, is arranged at this release support plate side;

One ultraviolet hardening resin layer, be arranged at this heated-air drying coating side, this ultraviolet hardening resin layer has a concave convex texture in contrast to the side of this heated-air drying coating;

One ink layer, is arranged at the side of this ultraviolet hardening resin layer in contrast to this heated-air drying coating, and this ink layer has the space pattern corresponding to this concave convex texture in the face of the side of this ultraviolet hardening resin layer; And

One adhesion layer, is arranged at the side of this ink layer in contrast to this ultraviolet hardening resin layer.

2. the transfer film of lines in tool as claimed in claim 1, is characterized in that: the thickness of this heated-air drying coating is greater than 6 microns.

3. the transfer film of lines in tool as claimed in claim 2, it is characterized in that: also comprise a following layer, this following layer is between this heated-air drying coating and this ultraviolet hardening resin layer.

4. the shell structure of lines in tool, is characterized in that: comprise:

One substrate;

One adhesion layer, is arranged at this substrate side;

One ink layer, is arranged at the side of this adhesion layer in contrast to this substrate, and this ink layer has a space pattern in contrast to the side of this adhesion layer;

One ultraviolet hardening resin layer, is arranged at the side of this ink layer in contrast to this adhesion layer, and this ultraviolet hardening resin aspect side to this ink layer has should one of space pattern concave convex texture; And

One heated-air drying coating, is arranged at the side of this ultraviolet hardening resin layer in contrast to this ink layer.