KR102203058B1 - Radio Wave Penetration Cover And Manufacturing Method Thereof - Google Patents

Abstract

The present invention relates to a radar radio wave transmission type cover and to a manufacturing method thereof and, more specifically, to a radar radio wave transmission type cover capable of protecting a printed layer formed on a main film layer with a print protective layer and increasing adhesion between a top cover member consisting of resins and a main film layer consisting of resins, and to a manufacturing method thereof.

Description

The radar wave penetration type cover and its manufacturing method {Radio Wave Penetration Cover And Manufacturing Method Thereof}

The present invention relates to a radar wave transmission type cover and a method of manufacturing the same.

Smart Cruise Control (SCC) uses a radar sensor to detect the vehicle in front, and if there is a preceding vehicle, it maintains a specific distance from the preceding vehicle and runs at a specific speed. It is an advanced form of Cruise Control with all the set speed driving functions.

Smart cruise control is also referred to as adaptive cruise control (ACC).

Smart Cruise Control is a representative driver assistance/assistance system that has the effect of improving driver's convenience and reducing the risk of a frontal collision by automating acceleration and deceleration of a vehicle using an engine control unit and an electronic braking unit.

The SCC radar, which is the core of such a system, is most advantageous in terms of securing performance to be installed in the front center of the vehicle.In many cases, a radiator grill, an emblem or ornament of an automobile manufacturer is usually located in the front center of such a vehicle. .

In general, radiator grills are made of metal or plastic, and are plated with chrome again to prevent corrosion from external environments.

However, since metal has low radio wave transmittance, it adversely affects radio wave transmission and reception of SCC radars.

Accordingly, a method of securing radio wave transmittance by replacing a partial area of a radiator grill with a separate radar cover has been attempted so that radio wave transmission and reception can be performed smoothly.

Korean Patent Publication No. 2018-0055983 (hereinafter, prior art 1) relates to a method of manufacturing a radio wave transmitting member for a vehicle.

As mentioned in the background art of the prior art 1, the radio wave transmitting member 10 deposits a metal layer 2 on at least a part of the surface of the base layer 1, and then ejects the cover layer 3 of the plastic member, The base layer 1 and the cover layer 3 are formed in a bonded form.

However, there is a problem in that the base layer 1 or the metal layer 2 is damaged when the high temperature plastic member is injected when the radio wave transmitting member is manufactured, and thus radio wave transmission performance is deteriorated.

In order to protect the metal layer formed during the injection process, a painting process is additionally performed, but there is a problem in that production cost and time increase due to the addition of the painting process (see Fig. 1).

In addition, when a print protective layer for protecting the print layer is added, there is a problem of reducing the adhesion between the top cover member made of resin and the main film layer.

Korean Patent Publication No. 1,913,941 (hereinafter, prior art 2) is proposed to improve the disadvantages of the prior art 1, which was manufactured by forming a mold base through double injection after performing a deposition process on the back side of the injection cover. There is a bar.

In other words, it is proposed to improve the problem of discoloration of the paint due to the heat generated during double injection, and because the injection cover and the mold base are integrally formed, the product cannot be recycled and should be disposed of when defective. It is a method of separately manufacturing and then fastening the mold base.

Prior art 2 can solve a considerable part of the problems of prior art 1.

However, in the prior art 2, since the cover member and the mold base are separately manufactured, not only the process is complicated, but also a new problem is raised such as a gap between the cover member and the mold base when coupled through a fastening part.

Korean Patent Publication No. 2018-0055983 Korean Patent Publication No. 1,913,941

In order to overcome the above-described problems, the present invention provides a radar wave transmission type cover capable of not only enhancing adhesion between a top cover member and a main film layer, but also protecting an emblem printed on the main film layer.

Another object of the present invention is to provide a method of manufacturing a radar wave transmission type cover capable of not only enhancing the adhesion between the top cover member and the main film layer, but also protecting the emblem printed on the main film layer.

In order to achieve the above object, claim 1 of the present invention is a bottom cover member and a top cover member made of a resin; A main film layer provided between the bottom cover member and the top cover member, and including a print layer and a print protective layer covering the print layer on an upper surface; The print protection layer is characterized in that it is formed only on a portion of the upper surface of the main film layer.

In order to achieve the above object, claim 2 of the present invention is characterized in that the print protection layer is formed in an area that covers the print layer.

In order to achieve the above object, claim 3 of the present invention is characterized in that the print protective layer is formed by pad printing.

In order to achieve the above object, claim 4 of the present invention is characterized in that the print protective layer is formed by silk screen printing or gravure printing.

In order to achieve the above object, claim 5 of the present invention is a step of preparing a main film layer in which a print layer and a print protective layer are sequentially stacked, wherein the print protective layer is formed only on a part of the upper surface of the main film layer, and has an uneven shape. ; It characterized by the step of injection molding a resin on the upper and lower surfaces of the main film layer.

In order to achieve the above object, claim 6 of the present invention is characterized in that the print protective layer is formed in an area that covers the print layer.

In order to achieve the above object, claim 7 of the present invention is characterized in that the print protective layer is formed by pad printing.

In order to achieve the above object, claim 8 of the present invention is characterized in that the print protective layer is formed by silk screen printing or gravure printing.

The radar wave transmission type cover and the manufacturing method thereof according to an embodiment of the present invention may have the following effects.

(1) Since the top cover member made of resin and the main film layer come into direct contact with each other, the adhesion between the top cover member made of the same material and the main film layer is greatly improved.

Accordingly, since the possibility of opening between the top cover member and the main film layer is significantly lowered, the possibility of inflow of moisture or foreign matter is reduced.

(2) Since the amount of the print protective layer used is reduced, it is advantageous in terms of manufacturing cost.

(3) Since it is not necessary to use a separate adhesive for bonding the top cover member and the main film layer of the same material, the process can be simplified.

1 is a partial simplified cross-sectional view of a radar wave transmission type cover according to the prior art
2 is a cross-sectional view of a main film layer used in a radar wave transmission type cover according to the prior art
3 is an exploded cross-sectional view of FIG. 2
4 is a simplified cross-sectional view of a radar wave transmission type cover according to the present invention
5 is a cross-sectional view of the main film layer used in the radar wave transmission type cover according to the present invention
6 is an exploded cross-sectional view of FIG. 5
7 is a flowchart of a method of manufacturing a radar wave transmission type cover according to the present invention

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

The film layer used for a general radar wave transmission type cover consists of the following.

It will be described based on the main film layer made of PET and PC.

A deposition layer 360 made of indium or ceramic is formed on the lower surface of the main film layer 300.

To protect the indium or ceramic deposition layer 360, the indium protective layer 380 is sequentially stacked on the indium or ceramic deposition layer 360.

A printing layer 320 is formed on the upper surface of the main film layer 300, and a printing protective layer 340 for protecting the printing layer 320 is sequentially stacked.

The radar wave transmission type cover according to the first embodiment of the present invention includes a top cover member 100 and a bottom cover member 200 made of resin.

A main film layer 300 is provided between the top cover member 100 and the bottom cover member 200.

The main film layer 300 has a printing layer 320 formed on an upper surface thereof, and a print protective layer 340 covering the printing layer 320 is sequentially stacked.

In the conventional radar wave transmission type cover 2, the print protective layer 34 covers the print layer 32.

In this way, when the print protection layer 34 covers the print layer 32, the main film layer 30 made of PC and the top cover member 10 made of PC cannot directly contact.

That is, the print protection layer 34 partially interferes with the adhesion between the main film layer 30 made of PC and the top cover member 10 made of PC.

In addition, the adhesion between the main film layer 30 made of PC and the top cover member 10 made of PC according to the composition of the print protective layer 34 covering the print layer 32 formed on the upper surface of the main film layer 30 There arises a problem that this depends.

Therefore, the radar wave transmission type cover 1 according to the first preferred embodiment of the present invention protects printing to form a portion in direct contact between the main film layer 300 made of PC and the top cover member 100 made of PC. The layer 340 is formed only on a part of the upper surface 305 of the main film layer.

In the radar wave transmission type cover 1 according to the second embodiment of the present invention, the print protection layer 340 is formed in an area that covers the print layer 320 formed on the upper surface 305 of the main film layer.

By doing so, the print protection layer 340 can play a role of protecting the print layer 320, and maximizes the portion in direct contact between the main film layer 300 made of PC and the top cover member 100 made of PC. can do.

In the radar wave transmission type cover 1 according to the third embodiment of the present invention, the print protection layer 340 is formed by pad printing.

In the case of a pad printing method in which the print protective layer 340 is printed with a pad on the print layer 320, it is simpler than that of the conventional printing method.

In the radar wave transmission type cover 1 according to the fourth embodiment of the present invention, the print protection layer 340 may be formed by silk screen printing or gravure printing.

The method of manufacturing the radar wave transmission type cover 1 according to the present invention is as follows.

First, prepare the main film layer 300 (step S1)

The main film layer 300 is characterized in that the print layer 320 and the print protective layer 340 are sequentially stacked, but the print protective layer 340 is formed only on a part of the upper surface 305 of the main film layer.

In general, the main film layer 300 has an uneven shape formed by forming.

Second, resin is injection-molded on the upper surface 305 and the lower surface 310 of the main film layer (step S2).

The top cover member 100 of the radar wave transmission type cover 1 is formed by injecting a transparent PC material resin onto the upper surface 305 of the main film layer.

By injecting an opaque ASA resin to the lower surface 310 of the main film layer, the bottom cover member 200 of the radar wave transmission type cover 1 is formed.

A print layer 320 and a print protective layer 340 are sequentially stacked on the upper surface 305 of the main film layer.

At this time, the print protective layer 340 that protects the print layer 320 is formed only on a part of the upper surface 305 of the main film layer.

Another embodiment of the method of manufacturing the radar wave transmission type cover of the present invention is such that the print protection layer 340 is formed in an area that covers the print layer 320 in step S1 of preparing the main film layer 300.

By doing so, the print protective layer 340 may serve to protect the print layer 320, and the main film layer 300 made of PC and the top cover member 100 made of PC are in direct contact with each other. Can be maximized.

Another embodiment of the method of manufacturing the radar wave transmission type cover of the present invention is to form the print protection layer 340 by pad printing, and in another embodiment, the print protection layer 340 is formed by silkscreen printing or gravure printing. It can also be formed.

In the method of manufacturing the radar wave transmission type cover and the radar wave transmission type cover, since the top cover member made of resin and the main film layer also made of resin come into direct contact, the adhesion between the top cover member made of the same material and the main film layer is significantly improved, The possibility of a gap between the top cover member and the main film layer is significantly reduced.

1: radar wave transmission type cover 100: top cover member
200: bottom cover member 300: main film layer
305: upper surface of the main film layer 310: lower surface of the main film layer
320: printed layer 340: printed protective layer
360: indium vapor deposition layer 380: indium protective layer

Claims (8)

A bottom cover member made of opaque ASA material and a top cover member made of transparent PC material;
A main film layer made of PC material provided between the bottom cover member and the top cover member, and on an upper surface of which a print layer as an emblem and a print protective layer covering the print layer are laminated;
Including; an indium deposition layer laminated on the lower surface of the main film layer, and an indium protective layer protecting the indium deposition layer,
The print protective layer is formed in an area that covers the print layer so that it is formed only on a part of the upper surface of the main film layer,
The radar wave transmission type cover, characterized in that the main film layer excluding the print protection layer and the top cover member directly contact each other delete The method of claim 1,
Radar radio wave transmission type cover, characterized in that the print protection layer is formed by pad printing The method of claim 1,
The print protection layer is a radar wave transmission type cover, characterized in that formed by silk screen printing or gravure printing On the upper surface, an emblem printing layer and a printing protection layer are sequentially stacked, but the printing protection layer is formed only on a part of the upper surface of the main film layer, and the lower surface is made of a PC material including an indium deposition layer and an indium protection layer protecting the indium deposition layer. Preparing a main film layer;
A bottom cover member made of an opaque ASA material and a top cover member made of a transparent PC are molded by injecting resin to the upper and lower surfaces of the main film layer,
The method for manufacturing a radar wave transmission type cover, characterized in that the main film layer excluding the print protection layer and the top cover member directly contact each other so that the print protection layer has an area that covers the print layer. delete The method of claim 5,
A method for manufacturing a radar wave transmission type cover, characterized in that the print protective layer is formed by pad printing The method of claim 5,
A method for manufacturing a radar wave transmission type cover, characterized in that the print protective layer is formed by silk screen printing or gravure printing.

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