KR102382671B1 - Adaptive cruise control sensor cover and method manufacturing the same - Google Patents

Abstract

The present invention relates to a manufacturing method of a vehicle cruise sensor cover composed of a top cover member and a bottom cover member. The method comprises: (a) a step of manufacturing a bottom cover member at once by injection molding depending on the shape including a first emblem part displaying an emblem or logo; (b) a step of manufacturing a top cover member including a top cover body that occupies most of the top cover member and is injection-molded with plastic resin to match the shape of the bottom cover member; and (c) a step of bonding the top cover member and the bottom cover member. The present invention provides a vehicle cruise sensor cover produced by the manufacturing method. Compared to the prior art, the present invention has excellent durability and can highlight an emblem or logo more beautifully.

Description

A cruise control sensor cover for a vehicle and a manufacturing method thereof {Adaptive cruise control sensor cover and method manufacturing the same}

The present invention relates to a cruise control sensor cover for a vehicle and a method for manufacturing the same.

Radar sensors mounted on vehicles have been developed for commercialization since the early 1970s. In order to overcome the disadvantages of being vulnerable to bad weather such as rain, snow, and fog, and to soil and dust, the radar method using millimeter waves has been popular since the late 1980s.

As for vehicle radar, it uses a 77GHz frequency to detect a relatively long distance (200m), for example, a high-end radar used in a forward collision warning system, and a 24GHz frequency to detect up to a medium distance (100m), for example, a blind spot. A general-type radar used for detection, lane change system, or bird view image capture has been developed and is being commercialized.

Meanwhile, as a field in which a vehicle radar sensor is used, there is an adaptive cruise control (ACC) field. Originally, cruise control control maintains the current vehicle speed even when the driver presses a button to increase the vehicle speed, and removes the cruise function at speeds below 40 km/h. It is a technology that was first applied to automobiles and universalized. However, with the recent development of DAS (driver assistance system) technology, it has evolved into a system that automatically adjusts the safety distance from the preceding vehicle, that is, an “adaptive” system, and has evolved into a Lidar (detecting distance by light) or Laser (with a laser) system. Distance detection) or ultrasonic adaptive cruise control is implemented.

A vehicle ACC sensor is usually housed in a radome or cover, which is a convex cover or housing that covers the radar sensor in front of it, and is provided as a module coupled with a mount attached directly to the vehicle body at the rear thereof. That is, the ACC sensor assembly for a vehicle is, strictly speaking, a cover, an ACC sensor, and a mount are integrally coupled.

The ACC sensor assembly is attached to the center grille in front of the vehicle, the lower side of the front left and right bumpers (parking aid radar), or the windshield, and the emblem is often integrally formed on the radome for aesthetics.

In Patent No. 10-1856441 (application date: September 29, 2017 / registration date: May 3, 2018), the applicant has proposed a cruise control sensor cover having the structure as shown in FIG. 6 .

The cruise control sensor cover for a vehicle is formed with a bottom cover member 10' and a top cover member 20' assembled therein.

The bottom cover member 10' is made of a colored synthetic resin material, and includes a bottom cover body 11' in which a logo and an outer rim are three-dimensionally protruded, and the front of the bottom cover body 11' is a bottom cover body 11'. ), a non-conductive deposition layer 12' is formed to secure electromagnetic transmittance, and a protective layer 13' for protecting the non-conductive deposition layer by coating or deposition is formed on the front surface of the non-conductive deposition layer 12'. do. (1') is the logo, (2') is the frame, and (3') is the inner side excluding the frame.

The top cover member 20' is made of a transparent synthetic resin material, and the rear side includes a transparent top cover body 21' formed in a shape corresponding to the front surface of the bottom cover body 11', and the top cover body 21' It includes a hard coating layer 22' formed by an injection process or a painting process through an injection mold on the front side, and a logo (1'), an outer edge (2'), and a logo base (3') on the back side. Optionally, a partial painting layer 23' formed by partial painting on one surface is formed. An etched surface may be further formed on the rear surface of the top cover body 21'. When viewed from the outside, the etched surface emits light at various angles by the multi-angled cutting surface formed on the logo 1' and the outer rim 2'. Reflection makes them stand out more than the logo base (3').

The non-conductive deposition layer 12', which is characteristic of the patent, implements a metallic color and material. Indium or an alloy containing indium is deposited by NCVM (non conductive vacuum metalization) method, and particles are deposited in an island shape. Thus, it is formed to have higher electromagnetic transmittance than a general deposition layer.

Although the above patent has several advantages, the formation of the non-conductive deposition layer 12' on the bottom cover member 10' is a very cumbersome operation, and the addition of the protective layer 13' considers the development of a plastic resin material. Therefore, it may be omitted in consideration of the presence of a protective layer in the top cover member 20'. Furthermore, instead of injecting or painting the hard coating layer 22' from the top cover member 20', it is also necessary to replace the hard coating layer 22' with a fast curing speed and an eco-friendly method.

Also, in some cases, it is preferable to form a metal layer and an etched surface for decorating the emblem on the top cover member 20'.

As a related patent, there is, for example, EP 0 954 052 (applicant: Daimler). A metal layer is formed on the concave surface of the transparent plate forming the top cover member, the emblem structure is inserted into the concave surface, and insert molding is performed together with the metal layer, and black painting is performed on the back surface of the transparent plate. However, this patent has a limitation in proposing insert molding as a method of manufacturing the emblem, and does not disclose any bottom cover member.

Accordingly, the inventors have developed a cruise control sensor cover for a vehicle having a new structure and a method of manufacturing the same by further improving the above patent in consideration of the above prior art.

Therefore, an object of the present invention is to provide a cruise sensor cover for a vehicle that is simple and quick in manufacturing process, has excellent durability, and can beautifully emphasize an emblem or logo, and a manufacturing method thereof.

In order to achieve the above object, the present invention provides a method for manufacturing a cruise sensor cover for a vehicle comprising a top cover member and a bottom cover member, the method comprising: (a) a bottom cover member with a first emblem displaying an emblem or a logo; manufacturing at a time by injection molding according to the shape included; (b) manufacturing a top cover member comprising a top cover body that occupies most of the top cover member and is injection-molded with a plastic resin to match the shape of the bottom cover member; and (c) bonding the top cover member and the bottom cover member by bonding.

The step (b) is: (b-1) forming a UV hard coating layer on the outer surface of the top cover body; (b-2) forming a UV coating layer on the inner surface opposite to the outer surface of the top cover body; (b-3) forming a deposition layer on the UV coating layer using a metal such as indium (In), aluminum or nickel; and (b-4) forming a coating layer on the deposition layer by black coating.

In the step (c), PUR (polyurethane) hot melt is applied to both sides or one side of the edges of the top cover member and the bottom cover member, and an instant adhesive is applied to both sides or one side of the inner side except for the edge. can be

After step (c), it may further include the step of forming an air vent fusion on the rear side of the bottom cover.

In addition, the present invention is a cruise sensor cover of a vehicle comprising a top cover member and a bottom cover member, wherein the bottom cover member is injection molded with a plastic resin material so as to have a shape including a first emblem portion displaying an emblem or a logo at one time manufactured, the top cover member occupies most of the top cover member, and a top cover body injection molded with plastic resin to match the shape of the bottom cover member is manufactured, and the top cover member and the bottom cover member are bonded by bonding, There is provided a cruise sensor cover of a vehicle in which an air vent is fused to the rear surface of the bottom cover member.

The top cover member, a UV hard coating layer formed on the outer surface of the top cover body facing the outside, a UV coating layer formed on the inner surface opposite to the outer surface of the top cover body, indium (In), aluminum or nickel, such as a metal UV coating layer The formed deposition layer and the black coating layer formed on the deposition layer may be further sequentially formed.
In addition, the present invention is a method of manufacturing a cruise sensor cover for a vehicle comprising a top cover member and a bottom cover member, the method comprising: (a) injection molding the bottom cover member into a shape including a first emblem portion displaying an emblem or a logo manufacturing at a time; (b) manufacturing a top cover member comprising a top cover body which occupies most of the top cover member and is injection-molded with a plastic resin to match the shape of the bottom cover member; and (c) bonding the top cover member and the bottom cover member by bonding, wherein the step (b) includes: (b-1) forming a UV hard coating layer on the outer surface of the top cover body; (b-2) forming a UV coating layer on the inner surface opposite to the outer surface of the top cover body; (b-3) forming a deposition layer on the UV coating layer using a metal such as indium (In), aluminum or nickel; And (b-4) further comprising the step of forming a coating layer on the deposition layer with black coating, by selectively performing laser etching on the deposited portion of the deposition layer prior to the coating layer forming step of (b-4) , so that the etched surface etched by laser etching is reflected from the emblem or logo area, and in step (c), PUR (polyurethane) hot melt is applied to both or one side of the edges of the top cover member and the bottom cover member, and the edge Provided is a method of bonding the entire surface of the top cover member toward the bottom cover member by bonding by applying an instant adhesive to both sides or one side of the inner side except for the pressure bonding.

The present invention exhibits the effect of providing a cruise sensor cover for a vehicle that has excellent durability and can emphasize an emblem or a logo more beautifully, and a manufacturing method thereof, compared to the prior art.

1 is an overall exploded perspective view of a cruise control sensor cover of the present invention;
Figure 2 is a cross-sectional view showing the structure of the top cover member of the present invention;
Figure 3 is a cross-sectional view showing the structure of the bottom cover member of the present invention;
4 is a perspective view showing that the top cover member and the bottom cover member of the present invention are bonded by bonding;
5 is a perspective view showing an air vent is formed in the cruise control sensor cover of the present invention; And
6 is an overall exploded perspective view of a cruise control sensor cover of the prior art.

Each embodiment according to the present invention is merely an example for helping understanding of the present invention, and the present invention is not limited to these embodiments. The present invention may be composed of a combination of at least any one of individual components and individual functions included in each embodiment.

The cruise control sensor cover 1 of the present invention is used in, but not limited to, an adaptive cruise control sensor assembly.

1 is an overall exploded perspective view of a cruise control sensor cover 1 of the present invention.

The cruise control sensor cover 1 includes an upper top cover member 2 and a lower bottom cover member 4 . On the bottom cover member 4, for example, the first emblem portion 4a for implementing the emblem of the shape of “M”, which is three-dimensionally molded in embossing, is convex toward the front side, that is, the top cover member 2 . is formed Although the top cover member 2 has a multi-layered composite structure, the bottom cover member 4 is formed from a single material in one process.

The structure and manufacturing process of the top cover member 2 of the present invention will be described with reference to FIG. 2 . In the drawing, the upper part is the side facing the outside of the vehicle.

First, the top cover body 20 of the top cover member 2 is completed through an injection molding process. The top cover body 20 occupies most of the top cover member 2 . The material of the top cover body 20 includes all moldable plastic resins including PC, PMMA (acrylic), ABS, AES, and the like. The top cover body 20 is basically formed to match the shape and structure of the bottom cover member 4, so that the back side is manufactured three-dimensionally so as to accommodate the emblem.

Next, a hard coating layer 28 is formed on the first surface that is the upper surface of the top cover body 20 , that is, the surface facing the outside. The hard coating process shortens the construction time, there is no need to wait for complete curing, and UV coating with good durability and eco-friendliness is desirable. Since most plastic resins have a soft surface, they are easily scratched by friction and have low resistance to external chemicals, so the addition of the hard coating layer 28 is essential. As a hard coating agent, an organic coating agent of acrylic or urethane, an inorganic coating agent of silicone type, or a mixture of both can be used.

Next, the coating layer 22 is formed on the second surface that is the lower surface of the top cover body 20 , that is, the surface facing the bottom cover member 4 . In this coating process, UV coating is also preferable to promote a speedy operation.

Next, a deposition layer 24 is formed on the coating layer 22 through a deposition process. The deposition layer 24 may be formed of, for example, a metal such as indium (In), aluminum, or nickel, and may be partially deposited on the coating layer 22 . The deposition layer 24 is particularly useful when forming, for example, an engraved design corresponding to the emblem on the top cover member 2 .

Next, the painting layer 26 is formed by performing a painting operation using a paint to realize a beautiful color. The paint layer 26 can select a color according to the surrounding color, and uses a transmissive paint through which laser and ultrasonic waves pass.

If necessary in the above process, after forming the deposition layer 24 , laser etching may be further selectively performed on the deposited portion of the deposition layer 24 prior to the formation of the coating layer 26 . The etched surface etched by laser etching is reflected from the emblem or logo in various angles when viewed from the outside, thereby making them stand out more than the base surface.

The basic structure of the top cover member 2 of the present invention is determined by the first injection-molded top cover body 20, and the above-described inner and outer layers follow the shape of the top cover body 20 and are applied to the surface thereof. It can be understood that the formation

The structure and manufacturing process of the bottom cover member 4 of the present invention will be described with reference to FIG. 3 . In the drawing, the upper part is the side facing the outside of the vehicle.

3, the bottom cover member 4 is manufactured by injection molding to match the final shape, that is, the shape including the first emblem portion 4a, and at this time, the air vent hole 50 is also molded. No subsequent layers are applied and therefore no subsequent processing is required. The material of the bottom cover member 4 may be made of any moldable plastic resin including PET, PC, PMMA (acrylic), ABS, AES, and the like.

As described above, since the final shape of the bottom cover member 4 of the present invention is completed by one injection molding, the process is simple, quick, and cost-effective compared to Patent No. 10-1856441.

Next, as shown in FIG. 4 , the top cover member 2 and the bottom cover member 4 are bonded by bonding. Specifically, PUR (polyurethane) hot melt is applied to both sides or one side of the edges 2b and 4b of each member 2 and 4 . PUR hot melt has strong bonding strength, continuous, flexible, good adaptability, good resistance to a wide range of temperatures, fast curing speed, and strong adhesion to materials that are difficult to bond or materials with different properties. An instant adhesive such as “Loctite” (trade name) is applied to both sides or one side of the inner side (2c, 4c) except for the edges of each member (2, 4) for quick curing and bonding. In addition, when the two members 2 and 4 are pressed while facing each other without gaps, they are strongly bonded to complete the cruise control sensor cover 1 .

FIG. 5 shows that an air vent (black) is formed in the side rear portion penetrating the bottom cover member 4 as a further embodiment of the present invention. The air vent is formed by the thermal fusion method. The air vent functions to remove gas generated during bonding of the top cover member 2 and the bottom cover member 4 and to remove external moisture penetration.

Although the embodiment of the present invention has been described above, it does not limit the present invention, and various modifications and variations are possible with respect to the present invention.

It is obvious that the scope of the present invention extends to the same or equivalent scope as the claims described below.

Claims (6)

A method of manufacturing a cruise sensor cover for a vehicle comprising a top cover member and a bottom cover member, the method comprising:
(a) manufacturing the bottom cover member at a time by injection molding according to the shape including the first emblem portion displaying the emblem or logo;
(b) forming a top cover member and manufacturing a top cover member including a top cover body injection molded with a plastic resin to match the shape of the bottom cover member; and
(c) bonding the top cover member and the bottom cover member by bonding;
The step (b) is:
(b-1) forming a UV hard coating layer on the outer surface of the top cover body;
(b-2) forming a UV coating layer on the inner surface opposite to the outer surface of the top cover body;
(b-3) forming a deposition layer on the UV coating layer with indium (In) or aluminum or nickel metal; and
(b-4) further comprising the step of forming a coating layer over the entire deposition layer with black coating,
Prior to the coating layer forming step of (b-4), laser etching is selectively performed on the deposited portion of the deposition layer so that the etched surface etched by laser etching is reflected from the emblem or logo area,
In the step (c), PUR (polyurethane) hot melt is applied to both sides or one side of the edges of the top cover member and the bottom cover member, and an instant adhesive is applied to both sides or one side of the inner side except for the edge. A method of bonding the entire surface of the member toward the bottom cover member. delete delete The method of claim 1,
After step (c), the method further comprising the step of forming an air vent fusion on the rear side of the bottom cover. It is prepared by the method of claim 1,
The top cover member is a UV hard coating layer formed on the outer surface of the top cover body facing the outside, a UV coating layer formed on the inner surface opposite to the outer surface of the top cover body, indium (In) or aluminum or nickel metal is deposited on the UV coating layer A black coating layer formed over the entire layer and deposition layer is sequentially formed, and PUR (polyurethane) hot melt is applied to both sides or one side of the edges of the top cover member and the bottom cover member, and both sides or one side of the inner side except for the edge A cruise sensor cover of a vehicle in which the entire surface of the top cover member facing the bottom cover member is bonded by applying an instant adhesive to the surface and bonding by pressing. delete

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