WO2020143821A1

WO2020143821A1 - Heat transfer printing method for precise film adhering

Info

Publication number: WO2020143821A1
Application number: PCT/CN2020/071633
Authority: WO
Inventors: 郑君华; 马栓俊
Original assignee: 深圳凯和科技有限公司
Priority date: 2019-01-11
Filing date: 2020-01-13
Publication date: 2020-07-16
Also published as: CN109720137A

Abstract

A heat transfer printing method for precise film adhering. Said method in the present invention comprises: performing, according to a preset mold cutting size, precise mold cutting on a decorative film having a transparent adhesive adhered thereon to obtain a pre-adhering thin film; fixedly pre-adhering the pre-adhering thin film to an adhering surface of a product; and placing the pre-adhering thin film and the product, which have been fixedly pre-adhered together, in a gaseous medium having a preset temperature and a preset pressure for a preset duration, so as to fully adhere the pre-adhering thin film to the adhering surface of the product by means of the temperature and pressure of the gaseous medium. High-precision heat transfer printing processing can be performed on products having flat surfaces and complex curved surfaces, increasing the yield in decoration and explosion-proof processing on the outer surfaces of the products, and achieving a good effect during practical application.

Description

A thermal transfer method for precision film sticking

Technical field

The invention relates to the technical field of processing and manufacturing, in particular to a thermal transfer method for precision film sticking.

Background technique

With the improvement and wide application of digital technology, the application range of decoration and explosion-proof protection of consumer electronic digital products, home appliances, automotive internal and external parts and accessories is becoming more and more extensive, and the surfaces of these products need to be decorated and protected by explosion-proof protection.

In the above products, the base material of the product gradually changes from the original colored plastic to many materials such as ceramics, transparent synthetic plates, transparent PC, transparent glass, and even transparent sapphire, and the shape of the product also changes from the original single plane, 2.5 D shape changes to various complex curved surfaces. In the future, complex curved products will become the mainstream, and the traditional thermal transfer method can no longer meet the requirements of products with complex curved surfaces such as explosion-proof performance, anti-wrinkle, anti-marking, anti-bubble, and precision of bonding. As a result, enterprises have a low product yield rate during the process of thermal transfer processing. Therefore, the existing thermal transfer method has a problem of low yield rate.

Summary of the invention

In view of the shortcomings of the prior art, the object of the present invention is to provide a thermal transfer method for precision lamination, aiming to solve the problem of low processing yield in the thermal transfer method of the prior art.

The present invention is achieved through the following technical solutions:

A thermal transfer method for precision lamination, which includes:

According to the preset die cutting size, the decorative film with the transparent adhesive glue is precisely die cut to obtain a pre-laminated film;

Pre-laminate the bonding surface of the pre-lamination film to the bonding surface of the product through pre-lamination equipment;

Determine whether the bending angle of the product is greater than a preset bending angle threshold, and if the bending angle of the product is greater than the bending angle threshold, place the pre-laminated film and the product that have been pre-laminated and fixed To seal the bag and evacuate the sealed bag;

The pre-laminated film and the product that have been pre-laminated and fixed or the vacuum-sealed bag are placed in a gaseous medium with a preset temperature and a preset pressure for a preset time to pass the temperature of the gaseous medium And the pressure to fully adhere the pre-lamination film to the lamination surface of the product;

Placing the pre-laminated film and the product that have been pre-laminated and fixed in a gaseous medium having a preset temperature and a preset pressure for a preset time, so that the pre-laminated film is subjected to the temperature and pressure of the gaseous medium Fully fit on the fitting surface of the product;

Determine whether the tightness of the pre-laminated film and the product is greater than a preset tightness threshold;

If the tightness of the bonding between the pre-laminated film and the product is not greater than the tightness threshold, the pre-laminated film is tightly cured on the bonding surface of the product by a preset curing device.

The thermal transfer method for precision film, wherein the transparent adhesive and the decorative film are attached to the surface of the base film, the base film is cast polypropylene film, biaxially oriented polypropylene Film or thermoplastic polyurethane film.

The thermal transfer method for precision lamination film, wherein the pre-lamination of the lamination surface of the pre-lamination film to the lamination surface of the product by a pre-lamination device includes:

Precisely align the bonding surface of the pre-lamination film with the bonding surface of the product through a pre-alignment device in the pre-lamination equipment;

The partial pre-lamination of the pre-lamination film is fixed to the lamination surface of the product by the heating device in the pre-lamination device.

The thermal transfer method for precision lamination film, wherein after pre-laminating the lower surface of the pre-lamination film to the front surface of the product by a pre-lamination device, further comprising:

A supporting pad is fixedly arranged on the non-lamination surface of the pre-lamination film and the non-lamination surface of the product.

In the thermal transfer method for precision film sticking, the material of the support pad is polyurethane or silica gel.

According to the thermal transfer method for precision film sticking, the preset temperature is 60-150 degrees Celsius, and the preset pressure is not less than 5 kg/cm ² .

In the thermal transfer method for precision film sticking, the gaseous medium is air, nitrogen or inert gas.

In the thermal transfer method for precision film sticking, the preset time is greater than 1 minute.

According to the thermal transfer method for precision film sticking, the preset curing device is a hot air dryer and/or a UV ultraviolet lamp.

Beneficial effect:

The method of the present invention obtains a pre-laminated film by precision die-cutting a decorative film attached with a transparent adhesive according to a preset die-cutting size, and fixes the pre-laminated film on the laminating surface of the product, Placing the pre-laminated film and the product that have been pre-laminated and fixed in a gaseous medium having a preset temperature and a preset pressure for a preset time, so that the pre-laminated film is subjected to the temperature and pressure of the gaseous medium Fully fit on the bonding surface of the product, can carry out high-precision thermal transfer processing on flat and complex curved products, greatly improving the yield of decorative and explosion-proof processing on the outer surface of the product, obtained in the actual application process Good effect.

BRIEF DESCRIPTION

FIG. 1 is a schematic flowchart of a thermal transfer method for precision lamination of the present invention.

detailed description

The present invention provides a thermal transfer method for precision film sticking. To make the objectives, technical solutions, and effects of the present invention clearer and more specific, the present invention will be described in further detail below. It should be understood that the specific embodiments described herein are only used to explain the present invention and are not intended to limit the present invention.

Please refer to FIG. 1. FIG. 1 is a schematic flowchart of a thermal transfer method for precision lamination of the present invention. As shown in the figure, a thermal transfer method for precision lamination includes steps S110-S160.

S110. Precisely die-cut the decorative film attached with the transparent adhesive according to the preset die-cutting size to obtain a pre-laminated film. Specifically, the corresponding die-cutting size can be obtained according to the external dimensions of the product, and the local size of the pre-laminated film can be adjusted according to the die-cutting size, so that the pre-laminated film after precision die cutting and the bonding surface of the product Agree.

The product is the product to be decorated or to be subjected to explosion-proof treatment, that is, the thermal transfer method used for precision lamination in this case can realize the decoration of the product and/or the explosion-proof treatment of the product. The bonding surface of the product is the side used to bond the pre-laminated film, and the non-lamination surface of the product is the back of the product; the bonding surface of the pre-lamination film is the transparent adhesive. The non-laminated surface of the pre-laminated film is the side of the pre-laminated film to which no transparent adhesive is attached.

Both the transparent adhesive and the decorative film are attached to the surface of the base film, and the specific attachment methods can be divided into two types: attach the decorative film and the transparent adhesive to the same surface of the base film, or attach the decoration The film and the transparent adhesive are attached to the upper and lower surfaces of the base film, respectively. Specifically, the decorative film can be attached to the lower surface of the base film, and the transparent adhesive can be attached to the upper surface of the decorative film, so that the decorative film and the transparent adhesive can be attached to the same surface of the base film at the same time; The decorative film can be attached to the upper surface of the base film, and the transparent adhesive can be attached to the lower surface of the base film, so that the decorative film and the transparent adhesive can be attached to the two surfaces of the base film respectively.

Among them, the base film has good ductility, and the base film may be one of cast polypropylene (CPP) film, biaxially oriented polypropylene (OPP) film or thermoplastic polyurethane (TPU) film, or other with good ductility Film. The thickness of the base film is 0.04-0.15 mm. The transparent adhesive can be applied to the surface of the base film by coating or pasting. The transparent adhesive is not sticky at room temperature. Only under a certain temperature and pressure environment can the transparent adhesive be firmly adhered to the product. surface. Among them, the preset decorative film can be attached to the surface of the base film by various methods, and the preset decorative film can be attached to the surface of the base film by UV transfer, electroplating, screen printing, offset printing, or letterpress printing.

S120. Pre-laminate and fix the bonding surface of the pre-lamination film to the bonding surface of the product through a pre-lamination device. The pre-lamination equipment includes a pre-alignment device and a heating device.

Specifically, step S120 specifically includes: precisely positioning the bonding surface of the pre-lamination film and the bonding surface of the product through a pre-alignment device in the pre-lamination device; The heating device in the bonding equipment fixes the partial pre-lamination of the pre-lamination film to the lamination surface of the product. The pre-alignment device is a device for precisely aligning the pre-laminated film and the product. The pre-laminated film and the product are heated by the heating device, and the pre-laminated film can be partially fixed on the bonding surface of the product In order to achieve the effect of local fixation, that is, to achieve the pre-lamination film pre-lamination fixed to the product bonding surface.

Specifically, after step S120, the method further includes: fixing a supporting pad on the non-lamination surface of the pre-lamination film and the non-lamination surface of the product. Specifically, according to the product's shape, local openings, materials, etc., a support pad can be fixed at the corresponding position on the back of the product, and a support pad can be fixed on the upper surface of the pre-laminated film. For the purpose of assisting the fitting, the support pad can be made of a softer material, for example, polyurethane or silicone can be used as the material of the support pad.

S130. Judge whether the bending angle of the product is greater than a preset bending angle threshold. If the bending angle of the product is greater than the bending angle threshold, the pre-laminated film and the The product is placed in a sealed bag and the sealed bag is evacuated. Specifically, the bending angle threshold can be set according to the needs of the user, and the bending angle can be set to 20°-45° in actual use. If the bending angle of the product is greater than the bending angle threshold, the pre-laminated film and product that have been pre-laminated are placed in a sealed bag; if the bending angle of the product is not greater than the bending angle threshold, the pre-laminated film and The product is placed in a sealed bag.

S140: Place the pre-laminated film and the product that have been pre-laminated and fixed or the vacuum-sealed bag in a gaseous medium with a preset temperature and a preset pressure for a preset time to pass the gaseous medium The temperature and pressure of the pre-lamination film are fully applied to the bonding surface of the product. If the pre-laminated film and product are not placed in the sealed bag, the pre-laminated film and product that have been pre-laminated are directly placed in the gaseous medium at the preset temperature and pressure; if the pre-laminated film and product are When it is placed in a sealed bag, the sealed bag with the pre-laminated film and product is placed in a gaseous medium at a preset temperature and preset pressure. Specifically, the preset temperature is 60-150 degrees Celsius, the preset pressure is not less than 5 kg/cm ² , and the preset time is more than 1 minute; the gaseous medium is air, nitrogen, or inert gas. Put the pre-laminated film and product in the sealed cavity, and inject the heated gas into the sealed cavity. After reaching a certain pressure in the sealed cavity and maintaining it for a preset time, the decorative film can be fully Fit to the fitting surface of the product.

S150. Determine whether the tightness of the pre-laminated film and the product is greater than a preset tightness threshold.

Specifically, it can be detected by a tightness detection device to obtain the tightness of the bonding of the pre-laminated film and the product, and the tightness of the bonding of the pre-laminated film and the product and the preset tightness threshold are judged. The tightness of the bonding film to the product is greater than the preset tightness threshold value, indicating that the pre-lamination film product has been closely bonded; if the tightness of the pre-lamination film and product bonding is not greater than the tightness threshold value, it indicates The pre-laminated film products are not tightly bonded yet, and the pre-laminated film needs to be processed by other devices.

S160. If the tightness of the bonding between the pre-laminated film and the product is not greater than the tightness threshold, the pre-laminated film is tightly cured to the bonding surface of the product by a preset curing device. After the pre-lamination film on the product bonding surface is cured by the curing device, the adhesion of the pre-lamination film on the product bonding surface can be greatly enhanced, and the pre-lamination film can be bonded more tightly. Specifically, the curing device may be a hot air dryer or a UV ultraviolet lamp, and a curing device may be obtained by combining the hot air dryer and the UV ultraviolet lamp to cure the pre-laminated film. The UV light is generated by the UV lamp to cure the pre-laminated film, which can greatly enhance the chemical corrosion resistance of the pre-laminated film after lamination.

By the above method, the decorative film is firmly bonded to the surface of the product. It is suitable for flat and complex curved products. It can avoid bubbles or wrinkles during the bonding of the decorative film, avoid scratching the outer surface of the product, and avoid lamination. The product is damaged, which greatly improves the yield rate of the product during the thermal transfer process.

It should be understood that the application of the present invention is not limited to the above examples. For those of ordinary skill in the art, improvements or changes can be made according to the above description, and all such improvements and changes should fall within the protection scope of the appended claims of the present invention.

Claims

A thermal transfer method for precision lamination, which is characterized by including:

According to the preset die cutting size, the decorative film with the transparent adhesive glue is precisely die cut to obtain a pre-laminated film;

Pre-laminate the bonding surface of the pre-lamination film to the bonding surface of the product through pre-lamination equipment;

Determine whether the bending angle of the product is greater than a preset bending angle threshold, and if the bending angle of the product is greater than the bending angle threshold, place the pre-laminated film and the product that have been pre-laminated and fixed To seal the bag and evacuate the sealed bag;

The pre-laminated film and the product that have been pre-laminated and fixed or the vacuum-sealed bag are placed in a gaseous medium with a preset temperature and a preset pressure for a preset time to pass the temperature of the gaseous medium And the pressure to fully adhere the pre-lamination film to the lamination surface of the product;

Determine whether the tightness of the pre-laminated film and the product is greater than a preset tightness threshold;

If the tightness of the bonding between the pre-laminated film and the product is not greater than the tightness threshold, the pre-laminated film is tightly cured on the bonding surface of the product by a preset curing device.
The thermal transfer method for precision lamination according to claim 1, wherein the transparent adhesive and the decorative film are attached to the surface of the base film, and the base film is a cast polypropylene film , Biaxially oriented polypropylene film or thermoplastic polyurethane film.
The thermal transfer method for precision lamination according to claim 1, wherein the pre-lamination of the lamination surface of the pre-lamination film to the lamination surface of the product by a pre-lamination device comprises:

Precisely align the bonding surface of the pre-lamination film with the bonding surface of the product through a pre-alignment device in the pre-lamination equipment;

The partial pre-lamination of the pre-lamination film is fixed to the lamination surface of the product by a heating device in the pre-lamination device.
The thermal transfer method for precision lamination according to claim 1, wherein after pre-laminating the lower surface of the pre-lamination film to the front of the product by a pre-lamination device, further comprising:

A supporting pad is fixedly arranged on the non-lamination surface of the pre-lamination film and the non-lamination surface of the product.
The thermal transfer method for precision lamination according to claim 4, wherein the material of the support pad is polyurethane or silicone.
The thermal transfer method for precision lamination according to claim 1, wherein the preset temperature is 60-150 degrees Celsius, and the preset pressure is not less than 5 kg/cm 2 .
The thermal transfer method for precision lamination according to claim 1, wherein the gaseous medium is air, nitrogen or inert gas.
The thermal transfer method for precision lamination according to claim 1, wherein the preset time is greater than 1 minute.
The thermal transfer method for precision lamination according to claim 1, wherein the preset curing device is a hot air dryer and/or UV ultraviolet lamp.