CN104228082A

CN104228082A - Forming method for thermoplastic composite

Info

Publication number: CN104228082A
Application number: CN201310227932.5A
Authority: CN
Inventors: 王水木
Original assignee: Chaei Hsin Enterprise Co Ltd
Current assignee: Chaei Hsin Enterprise Co Ltd
Priority date: 2013-06-08
Filing date: 2013-06-08
Publication date: 2014-12-24
Anticipated expiration: 2033-06-08
Also published as: CN104228082B

Abstract

The invention relates to a forming method for a thermoplastic composite. The forming method comprises the steps of firstly cutting a thermoplastic film and a cloth material into predetermined shapes respectively, wherein the thermoplastic film has an adhering layer and a surface layer; the surface layer has a higher melting point than that of the adhering layer; then laminating the thermoplastic film and the cloth material on a carrier to make the adhering layer of the thermoplastic film face to the cloth material; then heating to melt the adhering layer and soften the surface layer; vacuumizing from the carrier so as to absorb the thermoplastic film and the cloth material downward and press from top to bottom by using a press-fit member, so as to permeate the adhering layer of the thermoplastic film into the cloth material to form tight adhesion. When the carrier is provided with a plurality of convex-concave patterns and the surface layer of the thermoplastic film faces to the top surface of the carrier, clear stereoscopic patterns corresponding to the convex-concave patterns can be formed on the surface layer; and the cloth material and the thermoplastic film can be combined after being cut into required shapes, so that the thermoplastic composite of the thermoplastic film and the cloth material with different shape combinations can be manufactured.

Description

The forming method of thermoplastic composite material

Technical field

The technical field of the present invention in a kind of method for making of thermoplastic composite material, espespecially a kind of have thermoplastic film can be made to be combined with cloth material comparatively closely, thermoplastic film surface can be made to form solid grain and the structure of thermoplastic composite material can be made to have the forming method of the thermoplastic composite material of the effects such as more change more clearly.

Background technology

A kind of forming method of known thermoplastic composite material, TaiWan, China as earlier application is announced shown in I269703 patent, one release mold layer is set around and a guide wheel makes it have the release interface of concavo-convex pattern and be positioned at outside by it, then an extruder is utilized to be hung down by thermoplastic on the release interface of the release mold layer flowed above guide wheel, make a base cloth winding position again on a runner of this guide wheel side, make this release mold layer, this thermoplastic film and this base cloth pass through the nearly contact of this guide wheel and this runner, with the roll extrusion by this guide wheel and this runner, three is fitted each other, just can form the three-dimensional pattern of this concavo-convex pattern relatively in the surface of this thermoplastic film after removing this release mold layer afterwards.But this kind utilizes the roll extrusion of two rollers to make this release mold layer, this thermoplastic film and this base cloth be bonded to each other and form the mode of three-dimensional pattern, and its conjugation is poor, and the three-dimensional pattern produced is also more unintelligible.Especially this forming method is only suitable for the thermoplastic composite material produced whole base cloth and whole thermoplastic film and be combined completely, and cannot make the thermoplastic composite material base cloth for different shaped shape being combined with the thermoplastic film of difformity and size.

The forming method of another kind of known thermoplastic composite material, as TaiWan, China is announced shown in I266693 patent, it utilizes a patrix and a counterdie by cloth material together with thermoplastic film hot pressing, though this kind of forming method can make the thermoplastic composite material for difform cloth material being combined with the thermoplastic film of difformity and size.But, only rely on merely the mode of this upper and lower mould hot pressing by cloth material together with thermoplastic film hot pressing, its in conjunction with poor effect, and its solid grain utilizing the concave convex texture on mould to produce also can be more unintelligible.In addition, it also can produce bag wind phenomenon, and makes the repeatability of lines bad and lines also can be made comparatively unintelligible.

The known molding mode making formation thermoplastic composite material in conjunction with thermoplastic film and cloth material, the conjugation with thermoplastic film and cloth material is not good, the problem that lines is more unintelligible and thermoplastic composite equipment structure is with low uncertainty that thermoplastic film is formed.

Summary of the invention

The invention provides a kind of forming method of thermoplastic composite material, it can make to be formed in the laminating layer of thermoplastic film infiltration cloth material to fit closely, the superficial layer of thermoplastic film can form the clear three-dimensional pattern of the concave convex texture of corresponding microscope carrier, and shaping thermoplastic composite material has more structure change.

For reaching above-mentioned purpose, solution of the present invention is:

A forming method for thermoplastic composite material, comprising:

One thermoplastic film and a cloth material are cut into predetermined shape, and this thermoplastic film is made up of a superficial layer of a side and a laminating layer of another side, fusing point comparatively this laminating floor height of this superficial layer;

This thermoplastic film is arranged in the end face of the microscope carrier of a forming machine, and make this laminating layer upward, again stacked for this cloth sheet material layers upper side being located at this thermoplastic film is made to cover this thermoplastic film, among this microscope carrier, there is plural air flow channel, end face in this microscope carrier is provided with plural concave convex texture and plural minute aperture, and this plural minute aperture is laid in the end face of this microscope carrier uniformly and also penetrates into this plural air flow channel respectively;

A heating unit is utilized to be heated to make this laminating layer form hot melt state and this superficial layer is softened to this thermoplastic film, extract the air in this plural air flow channel by a vacuum unit simultaneously and make a pressing part be pressed on the upper side of this cloth material, by this plural minute aperture this thermoplastic film and this cloth material adsorbed downwards and to utilize this pressing part to apply pressure downwards by the top of this cloth material, infiltrate in this cloth material to be formed to make the laminating layer of this thermoplastic film and fit closely, the superficial layer of this thermoplastic film then can be formed should the clear three-dimensional pattern of concave convex texture of microscope carrier.

A forming method for thermoplastic composite material, comprising:

This cloth material is arranged in the end face of the microscope carrier of a forming machine, again by the laminating layer of this thermoplastic film stacked upper side being located at cloth material down, have plural air flow channel in this microscope carrier, the end face in microscope carrier is evenly laid with the plural minute aperture penetrating into this air flow channel;

A heating unit is utilized to be heated to make this laminating layer form hot melt state to this thermoplastic film, extract the air in this plural air flow channel by a vacuum unit simultaneously and make a pressing part be pressed on the upper side of this thermoplastic film, through this cloth material this thermoplastic film to be adsorbed downwards by this plural minute aperture and to utilize this pressing part to apply pressure downwards by the top of this thermoplastic film, infiltrate in this cloth material to be formed to make the laminating layer of this thermoplastic film and fit closely.

Described pressing part is a pressing mold.

Described heating unit is located at pressing mold.

Described heating unit is located at microscope carrier.

Described pressing part is a gas barrier film, and the fusing point of this gas barrier film higher than superficial layer, and covers the end face of microscope carrier.

Described pressing part comprises a gas barrier film and a pressing mold, and the fusing point of this gas barrier film higher than superficial layer, and covers the end face of microscope carrier, and this pressing mold can be pressed on the upper side of gas barrier film.

The batch that described thermoplastic film is polymerized material with thermoplasticity, colouring agent is formed, through being made up of extruder after mixing.

Described thermoplastic film can be plastic polyurethane elastomer resin (TPU)+talan-butene rubber (SBR), or plastic polyurethane elastomer resin (TPU)+styrene (SEBS), or plastic polyurethane elastomer resin (TPU)+thermoplastic rubber (TPR), or plastic polyurethane elastomer resin (TPU)+artificial rubber (EPDM), or plastic polyurethane elastomer resin (TPU)+TPU PUR, or plastic polyurethane elastomer resin (TPU)+nylon elastomer wherein any one.

The color of described thermoplastic film can mode of printing, coating look film mode or surperficial sandwich like way wherein any one is formed.

After adopting said method, this thermoplastic film and this cloth material just can adsorb downwards by this plural minute aperture and utilize this pressing part to apply pressure downwards by the top of this cloth material by the present invention, infiltrate in this cloth material to be formed to make the laminating layer of this thermoplastic film and fit closely, the superficial layer of this thermoplastic film then can be formed should the clear three-dimensional pattern of concave convex texture of microscope carrier.And this thermoplastic composite material can be made up of various difform thermoplastic film and cloth material, shaping thermoplastic composite material therefore can be made to have more structure change.

This thermoplastic film and this cloth material also can adsorb downwards by this plural minute aperture and utilize this pressing part to apply pressure downwards by the top of this thermoplastic film by the present invention, infiltrate in this cloth material to be formed fit closely to make the laminating layer of this thermoplastic film.And this thermoplastic composite material can be made up of various difform thermoplastic film and cloth material, shaping thermoplastic composite material therefore can be made to have more structure change.

Accompanying drawing explanation

Fig. 1 is the Making programme figure of first embodiment of the invention;

Fig. 2 is the section enlarged diagram of thermoplastic film of the present invention;

Fig. 3 is the action schematic diagram that the thermoplastic film of first embodiment of the invention and cloth material are arranged on microscope carrier;

Fig. 4 be first embodiment of the invention heating, vacuumize the action schematic diagram with pressing;

Fig. 5 is the finished product schematic diagram of the thermoplastic composite material of first embodiment of the invention;

Fig. 6 is the Making programme figure of the second embodiment of the present invention;

Fig. 7 be the second embodiment of the present invention heating, vacuumize the action schematic diagram with pressing.

[symbol description]

10 thermoplastic film 11 superficial layers

12 laminating layer 20 cloth materials

30 microscope carrier 31 air flow channels

32 concave convex texture 33 minute apertures

34 vacuum unit 40 heating units

50 pressing part 51 gas barrier films

52 pressing molds.

Detailed description of the invention

In order to explain technical scheme of the present invention further, below by specific embodiment, the present invention will be described in detail.

Refer to shown in Fig. 1 to Fig. 5, be the first embodiment of the forming method of thermoplastic composite material of the present invention, wherein point out that the forming method of this thermoplastic composite material comprises the following steps:

A one thermoplastic film 10 and a cloth material 20 are cut into predetermined shape by (), and this thermoplastic film 10 is less than this cloth material 20.This thermoplastic film 10 is with thermoplasticity polymerization material, the batch that colouring agent is formed, through being made up of extruder after mixing, it can be plastic polyurethane elastomer resin (TPU)+talan-butene rubber (SBR), or plastic polyurethane elastomer resin (TPU)+styrene (SEBS), or plastic polyurethane elastomer resin (TPU)+thermoplastic rubber (TPR), or plastic polyurethane elastomer resin (TPU)+artificial rubber (EPDM), or plastic polyurethane elastomer resin (TPU)+TPU PUR, or plastic polyurethane elastomer resin (TPU)+nylon elastomer wherein any one.The color of this thermoplastic film 10 can mode of printing, coating look film mode or surperficial sandwich like way wherein any one is formed.The thickness of this thermoplastic film 10 is about 0.05 ~ 2.5mm, and its by a superficial layer 11 and a laminating layer 12 form (as shown in Figure 2), the fusing point of this superficial layer 11 comparatively this laminating layer 1 is high, the temperature difference of both fusing points more than about 5 DEG C.This cloth material 20 can be flat fabric, looped fabric, adhesive-bonded fabric or Sandwich screen-cloth etc.

(b) this thermoplastic film 10 is arranged in the end face of the microscope carrier 30 of a forming machine and the laminating layer 12 making it upward, then make it cover this thermoplastic film 10(as shown in Figure 3 stacked for this cloth material 20 upper side being arranged in this thermoplastic film 10).Have plural air flow channel 31 in this microscope carrier 30, the end face in this microscope carrier 30 is provided with plural concave convex texture 32 and plural minute aperture 33, and this plural concave convex texture 32 can be same decorative pattern or can be several different decorative patterns.The aperture of this plural minute aperture 33 is about 0.001mm, and it is laid in the end face of this microscope carrier 30 uniformly and penetrates into this plural air flow channel 31 respectively.

C () utilizes a heating unit 40 to heat this thermoplastic film 10, make this laminating layer 12 form hot melt state and make this superficial layer 11 slightly softening.Extract the air in this plural air flow channel 31 by a vacuum unit 34 simultaneously and make a pressing part 50 be pressed on the end face of this cloth material 20.This pressing part 50 comprises gas barrier film 51 and a pressing mold 52, the fusing point of this gas barrier film 51 is higher than this superficial layer 11, its material can be rubber or silicone etc., and this gas barrier film 51 covers the upper side of this microscope carrier 30 and this cloth material 20, and this pressing mold 52 can be pressed on the upper side of this gas barrier film 51.

So, when this vacuum unit 34 vacuumizes, just the negative pressure state lower than atmospheric pressure can be formed between the end face of this microscope carrier 30 and this gas barrier film 51, utilize this negative pressure state this gas barrier film 51 can be adsorbed downwards, pressure is applied downwards by the top of this cloth material 20 to make this gas barrier film 51, add this pressing mold 52 simultaneously and apply gravity downwards by the upside of this gas barrier film 51, the laminating layer 12 of this thermoplastic film 10 just can be made to infiltrate formation in this cloth material 20 and fit closely.Especially, this thermoplastic film 10 and this cloth material 20 can be adsorbed downwards by this plural minute aperture 33, the superficial layer 11 of this thermoplastic film 10 so can be made should the three-dimensional pattern more clear and obvious (as shown in Figure 5) that formed of the concave convex texture 32 of microscope carrier 30.And, utilize the thermoplastic composite material made by forming method of the present embodiment, can directly be made up of with thermoplastic film 10 various difform cloth material 20 especially, therefore it can have more structure change, and it can by difform design, and can be applicable to make shoes, suitcase, cap etc. especially.

In this first embodiment, this pressing part 50, except can comprise gas barrier film 51 with except pressing mold 52 simultaneously, can also be only the wherein one of this gas barrier film 51 or this pressing mold 52.Such as, then just only gas barrier film 51 can be used when the cloth gap of cloth material 20 is large.And this heating unit 40 can be located among this microscope carrier 30 or this pressing mold 52.

Referring to shown in Fig. 6, Fig. 7, is the second embodiment of the present invention, wherein points out that the forming method of this thermoplastic composite material comprises the following steps:

A one thermoplastic film 10 and a cloth material 20 are cut into predetermined shape by (), the structure of this thermoplastic film 10 and cloth material 20 is same as the first embodiment.

B this cloth material 20 is arranged in the end face of the microscope carrier 30 of a forming machine by (), then by the laminating layer 12 of this thermoplastic film 10 upper side being stacked and placed on this cloth material 20 down.Have plural air flow channel 31 in this microscope carrier 30, the end face in this microscope carrier 30 is evenly laid with the plural minute aperture 33 penetrating into this air flow channel 31.

C () utilizes a heating unit 40 to be heated to make this laminating layer 12 form hot melt state to this thermoplastic film 10, extract the air in this plural air flow channel 31 simultaneously and make a pressing part 50 be pressed on the end face of this thermoplastic film 10 by a vacuum unit 34.

So, when this vacuum unit 34 vacuumizes, just the negative pressure state lower than atmospheric pressure can be formed between the end face of this microscope carrier 30 and this gas barrier film 51, utilize this negative pressure state this gas barrier film 51 can be adsorbed downwards, pressure is applied downwards by the top of this thermoplastic film 10 to make this gas barrier film 51, add this pressing mold 52 simultaneously and apply gravity downwards by the upside of this gas barrier film 51, and utilize this plural minute aperture 33 through the effect of this cloth material 20 by the absorption downwards of this thermoplastic film 10, just the laminating layer 12 of this thermoplastic film 10 can be made to infiltrate formation in this cloth material 20 fit closely.And, utilize the thermoplastic composite material made by forming method of the present embodiment, can directly be made up of with thermoplastic film 10 various difform cloth material 20 especially, therefore it can have more structure change, and it can by difform design, and can be applicable to make shoes, suitcase, cap etc. especially.

In this second embodiment, this pressing part 50, except can comprise gas barrier film 51 with except pressing mold 52 simultaneously, can also be only the wherein one of this gas barrier film 51 or this pressing mold 52.Such as, then just only gas barrier film 51 can be used when the cloth gap of cloth material 20 is large.And this heating unit 40 can be located among this microscope carrier 30 or this pressing mold 52.

Above-described embodiment and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present invention.

Claims

1. a forming method for thermoplastic composite material, is characterized in that, comprising:

2. a forming method for thermoplastic composite material, is characterized in that, comprising:

3. the forming method of thermoplastic composite material as claimed in claim 1 or 2, is characterized in that: pressing part is a pressing mold.

4. the forming method of thermoplastic composite material as claimed in claim 3, is characterized in that: heating unit is located at pressing mold.

5. the forming method of thermoplastic composite material as claimed in claim 1 or 2, is characterized in that: heating unit is located at microscope carrier.

6. the forming method of thermoplastic composite material as claimed in claim 1 or 2, it is characterized in that: pressing part is a gas barrier film, the fusing point of this gas barrier film higher than superficial layer, and covers the end face of microscope carrier.

7. the forming method of thermoplastic composite material as claimed in claim 1 or 2, it is characterized in that: pressing part comprises a gas barrier film and a pressing mold, the fusing point of this gas barrier film higher than superficial layer, and covers the end face of microscope carrier, and this pressing mold can be pressed on the upper side of gas barrier film.

8. the forming method of thermoplastic composite material as claimed in claim 1 or 2, is characterized in that: the batch that thermoplastic film is polymerized material with thermoplasticity, colouring agent is formed, through being made up of extruder after mixing.

9. the forming method of thermoplastic composite material as claimed in claim 1 or 2, it is characterized in that: thermoplastic film can be plastic polyurethane elastomer resin (TPU)+talan-butene rubber (SBR), or plastic polyurethane elastomer resin (TPU)+styrene (SEBS), or plastic polyurethane elastomer resin (TPU)+thermoplastic rubber (TPR), or plastic polyurethane elastomer resin (TPU)+artificial rubber (EPDM), or plastic polyurethane elastomer resin (TPU)+TPU PUR, or plastic polyurethane elastomer resin (TPU)+nylon elastomer wherein any one.

10. the forming method of thermoplastic composite material as claimed in claim 1 or 2, is characterized in that: the color of thermoplastic film can mode of printing, coating look film mode or surperficial sandwich like way wherein any one is formed.