CN203485530U - Thermoplastic composite material forming machine - Google Patents

Abstract

The utility model provides a thermoplastic composite material forming machine. The thermoplastic composite material forming machine comprises a machine stand, a platform deck, a heating device, a vacuumizing device and a gas-blocking film, wherein the machine stand is provided with a working platform and a rack body arranged on the working platform, the platform deck is arranged on the working platform and is internally provided with a plurality of air passages communicated with one another, the top surface of the platform deck is provided with a plurality of micro pores penetrating through the air passages, one side surface of the platform deck is provided with a connector communicated with the air passages, the heating device is arranged on the machine stand to heat a processed material on the top surface of the platform deck, the vacuumizing device is arranged in the machine stand and is connected with the connector by a pipeline, so that the top surface of the platform deck can form a negative pressure state, and the gas-blocking film is thin and can completely cover the top surface of the platform deck. The thermoplastic film and a cloth material can be tightly combined.

Description

Thermoplastic composite forming machine

Technical field

The utility model is relevant for the technical field of a kind of thermoplastic composite forming machine aspect, espespecially a kind of make that thermoplastic film is combined with cloth material more tight, and can make three-dimensional pattern that thermoplastic film surface forms thermoplastic composite forming machine more clearly.

Background technology

The shaped device of general known thermoplastic composite material, mainly on a board, be provided with a counterdie, a patrix and a heater, end face in this counterdie is provided with plural concave convex texture, then the sequentially stacked end face that is seated in this counterdie of the thermoplastic film of reservation shape and cloth material will be cut into, recycling this heater makes this thermoplastic film be hot melt state, make this patrix be pressed on this stacked cloth material and thermoplastic film simultaneously, make both relative hot bindings.

Yet, this kind only utilize merely this upper and lower mould by cloth material the mode together with thermoplastic film hot binding, cloth material and the combination effect between thermoplastic film of the thermoplastic composite material that it is made are poor, and the formed three-dimensional pattern in the surface of this thermoplastic film also can be more unintelligible.

The thermoplastic composite material that known thermoplastic composite material forming device only utilizes hot pressing mode to mold, has the not good and unsharp shortcoming of surface of steroscopic decorative pattern of the conjugation of thermoplastic film and cloth material.

Utility model content

The purpose of this utility model is to provide a kind of thermoplastic composite forming machine, and it is more tight that it can make that thermoplastic film is combined with cloth material, and the three-dimensional pattern that also makes thermoplastic film surface form is more clear.

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

A thermoplastic composite forming machine, comprising:

One board, has a workbench;

One microscope carrier, be located on workbench, and inside has the plural air flow channel being interconnected, end face has plural concave convex texture and plural minute aperture, this plural number minute aperture be evenly laid in microscope carrier end face and and penetrate into inner air flow channel, a side of this microscope carrier has the joint communicating with air flow channel;

One heater that can heat the rapidoprint of microscope carrier end face, is located on board;

One can extract air in this air flow channel out the vacuum extractor that make the end face of microscope carrier form negative pressure state, is located among board and with pipeline, is connected to the joint of microscope carrier;

One can, for covering the gas barrier film of the end face of this microscope carrier completely, be laminar.

Further, more include a pressing mold, wherein board has a support body and is located on workbench, and this pressing mold is located on this support body, and liftably presses to the end face of microscope carrier.

Further, plural concave convex texture comprises several decorative patterns.

Further, the end face of microscope carrier has the plural moulding block of different depth, and this plural number concave convex texture comprises several decorative patterns and also forms respectively difform plural lines block, and this plural number lines block coordinates plural moulding block to form a processing graphic pattern.

Further, heater is located at the bottom of microscope carrier.

Further, heater is located among pressing mold.

A thermoplastic composite forming machine, comprising:

One board, has a workbench;

One microscope carrier, be located on this workbench, and inner have the plural air flow channel being interconnected, end face has plural minute aperture, this plural number minute aperture be evenly laid in microscope carrier end face and and penetrate into inner air flow channel, a side of this microscope carrier has the joint communicating with air flow channel;

One heater that can heat the rapidoprint of this microscope carrier end face, is located on board;

One can extract air in this air flow channel out the vacuum extractor that make the end face of microscope carrier form negative pressure state, is located among board and with pipeline, is connected to the joint of microscope carrier;

One can, for covering the gas barrier film of the end face of this microscope carrier completely, be laminar.

Further, more include a pressing mold, wherein board has a support body and is located on workbench, and this pressing mold is located on support body, and liftably presses to the end face of microscope carrier.

Further, heater is located at the bottom of microscope carrier.

Further, heater is located among pressing mold.

Adopt after said structure, thermoplastic composite forming machine provided by the utility model can be to the stacked thermoplastic film of this microscope carrier end face and the processing procedure that cloth material imposes heating, pressing and vacuum suction be located at simultaneously, therefore can make the thermoplastic film of the thermoplastic composite material produced can form closely and fit with cloth material.

In addition, the end face of microscope carrier of the present utility model also can be provided with plural concave convex texture, whereby coordinating of concave convex texture and above-mentioned heating, pressing and vacuum suction processing procedure, can make the surface of this thermoplastic film form three-dimensional pattern comparatively clearly.

Accompanying drawing explanation

Fig. 1 is schematic perspective view of the present utility model;

Fig. 2 is front view of the present utility model;

Fig. 3 is the three-dimensional enlarged diagram of microscope carrier of the present utility model;

Fig. 4 is the schematic perspective view of microscope carrier of the present utility model inside;

Fig. 5 is use view of the present utility model;

Fig. 6 is the section enlarged diagram of use state of the present utility model;

Fig. 7 is the three-dimensional enlarged diagram of the thermoplastic composite material of the utility model institute moulding;

Fig. 8 is that the another kind of the concave convex texture on microscope carrier of the present utility model is implemented aspect;

Fig. 9 is another embodiment of the present utility model.

[symbol description]

10 board 11 workbenches

12 support body 20 microscope carriers

21 joint 22 air flow channels

23 concave convex texture 24 minute apertures

25 moulding block 30 heaters

40 vacuum extractor 41 pipelines

42 control valve 50 pressing molds

60 gas barrier film 70 thermoplastic films

71 cloth materials.

The specific embodiment

In order further to explain the technical solution of the utility model, below by specific embodiment, refer to shown in Fig. 1 to Fig. 7, show that thermoplastic composite forming machine described in the utility model comprises a board 10, a microscope carrier 20, a heater 30, a vacuum extractor 40, a pressing mold 50 and a gas barrier film 60.

This board 10 has a workbench 11 and is located on this workbench 11 and is a support body 12 of ㄇ font.

This microscope carrier 20 is located on this workbench 11, and one side has a joint 21.

This heater 30 is located at the bottom of this microscope carrier 20, can heat the rapidoprint of these microscope carrier 20 end faces.

This vacuum extractor 40 is located among this board 10 and with pipeline 41, is connected to the joint 21 of this microscope carrier 20, and the junction of this pipeline 41 and this joint 21 is provided with control valve 42 and can whether bleeds for controlling.

This pressing mold 50 is liftable to be located on this support body 12, and it can drop to the end face that presses to this microscope carrier 20.In the utility model, this heater 30 also can be located among this pressing mold 50.

This gas barrier film 60 is laminar, and its material can be rubber or silicon Li Kang or plastics etc., and this gas barrier film 60 can be for covering the end face of this microscope carrier 20 completely.

Shown in Fig. 3, Fig. 4 and Fig. 6, can find out that the inside of this microscope carrier 20 has the plural air flow channel 22 being interconnected, end face has plural concave convex texture 23 and plural minute aperture 24.This plural number concave convex texture 23 can only only have a kind of decorative pattern, or can comprise several decorative patterns and also form respectively plurality of blocks.The aperture of this plural number minute aperture 24 is more than 0.001mm, and is evenly laid in the end face of this microscope carrier 20, and penetrates into inner air flow channel 22.This air flow channel 22 of this joint 21 and this plural number communicates, and can make the end face of this microscope carrier 20 form negative pressure state for the air in this air flow channel 22 is extracted out.

Please refer to shown in Fig. 5 to Fig. 7, point out that this rapidoprint comprises a thermoplastic film 70 and a cloth material 71 that cuts into reservation shape in the utility model, a side of this thermoplastic film 70 is high temperature resistant compared with another side.When making thermoplastic composite material, a main resistant to elevated temperatures side that first this thermoplastic film 70 is lain against to the end face of this microscope carrier 20 and make it down, make it cover this thermoplastic film 70 completely the stacked upper side that is arranged in this thermoplastic film 70 of this cloth material 71 again, again these gas barrier film 60 lids are located to the upper side of this cloth material 71 and make this gas barrier film 60 cover the end face of this microscope carrier 20 completely afterwards, then utilize 70 heating of 30 pairs of these thermoplastic films of this heater, make the contact-making surface of itself and this cloth material 71 form hot melt state, and on the contrary this cloth material 71 and a more resistant to elevated temperatures side slightly softening, open this control valve 42 makes this vacuum extractor 40 see through this pipeline 41 by the air extraction in this air flow channel 22 simultaneously, so this plural number minute aperture 24 can adsorb this thermoplastic film 70 downwards with this cloth material 71, and therefore 60 of the end face of this microscope carrier 20 and this gas barrier films can form and lower than the negative pressure state of atmospheric pressure, impel this gas barrier film 60 to be exerted pressure by the upper side of this cloth material 71 downwards, meanwhile, making this pressing mold 50 decline makes to be exerted pressure downwards by the upside of this gas barrier film 60 again.So, by heating, exert pressure and the synchronous processing processing procedure of vacuum suction, make the thermoplastic film 70 of its produced thermoplastic composite material can form laminating closely with this cloth material 20, and the formed three-dimensional pattern in the surface of this thermoplastic film 70 also can be comparatively clear.In above-mentioned processing procedure, also can optionally and only utilize this mode vacuumizing to make this gas barrier film 60 produce enough pressure forces, and press down without this pressing mold 50 of recycling.

Referring to shown in Fig. 8, is another embodiment of the concave convex texture 23 on microscope carrier 20 of the present utility model.Wherein point out that the end face of this microscope carrier 20 can have the plural moulding block 25 of different depth, this plural number concave convex texture 23 comprises several decorative patterns and also forms respectively difform plural lines block, and this plural number lines block coordinates this plural number moulding block 25 to form processing graphic patterns.

Referring to shown in Fig. 9, is another embodiment of thermoplastic composite forming machine described in the utility model, and its structure and above-described embodiment are roughly the same, and difference is only that the end face of the microscope carrier 20 of the present embodiment is not provided with concave convex texture 23.So, by heating, exert pressure and the synchronous processing processing procedure of vacuum suction, can make the thermoplastic film 70 of its produced thermoplastic composite material can form closely and fit with this cloth material 20.

The thermoplastic composite material that thermoplastic composite forming machine of the present utility model is made can be applicable to make shoes, suitcase, cap etc.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, suitable variation or modification that any person of an ordinary skill in the technical field does it, all should be considered as not departing from patent category of the present utility model.

Claims (10)

1. a thermoplastic composite forming machine, is characterized in that, comprising:

One board, has a workbench;

One microscope carrier, be located on workbench, and inside has the plural air flow channel being interconnected, end face has plural concave convex texture and plural minute aperture, this plural number minute aperture be evenly laid in microscope carrier end face and and penetrate into inner air flow channel, a side of this microscope carrier has the joint communicating with air flow channel;

One heater that can heat the rapidoprint of microscope carrier end face, is located on board;

One can extract air in this air flow channel out the vacuum extractor that make the end face of microscope carrier form negative pressure state, is located among this board and with pipeline, is connected to the joint of this microscope carrier;

One can, for covering the gas barrier film of the end face of this microscope carrier completely, be laminar.

2. thermoplastic composite forming machine as claimed in claim 1, is characterized in that: more include a pressing mold, board has a support body and is located on workbench, and this pressing mold is located on support body, and liftably presses to the end face of microscope carrier.

3. thermoplastic composite forming machine as claimed in claim 1 or 2, is characterized in that: plural concave convex texture comprises several decorative patterns.

4. thermoplastic composite forming machine as claimed in claim 1 or 2, it is characterized in that: the end face of microscope carrier has the plural moulding block of different depth, this plural number concave convex texture comprises several decorative patterns and also forms respectively difform plural lines block, and this plural number lines block coordinates plural moulding block to form a processing graphic pattern.

5. thermoplastic composite forming machine as claimed in claim 1 or 2, is characterized in that: heater is located at the bottom of microscope carrier.

6. thermoplastic composite forming machine as claimed in claim 2, is characterized in that: heater is located among pressing mold.

7. a thermoplastic composite forming machine, is characterized in that, comprising:

One board, has a workbench;

One microscope carrier, be located on workbench, and inner have the plural air flow channel being interconnected, end face has plural minute aperture, this plural number minute aperture be evenly laid in microscope carrier end face and and penetrate into inner air flow channel, a side of this microscope carrier has the joint communicating with air flow channel;

One heater that can heat the rapidoprint of this microscope carrier end face, is located on board;

One can extract air in this air flow channel out the vacuum extractor that make the end face of this microscope carrier form negative pressure state, is located among board and with pipeline, is connected to the joint of this microscope carrier;

One can, for covering the gas barrier film of the end face of this microscope carrier completely, be laminar.

8. thermoplastic composite forming machine as claimed in claim 7, is characterized in that: more include a pressing mold, wherein board has a support body and is located on workbench, and this pressing mold is located on support body, and liftably presses to the end face of microscope carrier.

9. thermoplastic composite forming machine as claimed in claim 7 or 8, is characterized in that: heater is located at the bottom of microscope carrier.

10. thermoplastic composite forming machine as claimed in claim 8, is characterized in that: heater is located among pressing mold.

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