KR102633275B1 - Method for manufacturing smart cruise control cover of automobiles with emblem design - Google Patents

Abstract

The present invention is a method of manufacturing a smart cruise control cover (6) for automobiles with an emblem design, which involves printing an emblem shape on a metal texture thin film that has radar radio wave transmission and a thin film lamination structure and three-dimensionally processing it to form a three-dimensional metal texture ( A step of manufacturing an emblem printing film 24 having an emblem design printing layer 24b) and an upper mold cavity among the upper and lower mold parts for insert injection molding of the rear opaque injection resin layer 26 of the cover 6. Forming a rear opaque injection resin layer (26) by insert injection molding with the emblem printing film (24) inserted into the upper and lower mold parts for final molding of the cover (6), and applying the emblem printing film to the lower mold cavity of the upper and lower mold parts. With the rear opaque injection resin layer (26) incorporated at the top of (24) inserted, the front transparent injection resin layer (30) is formed in front of the emblem printing film (24) by insert injection molding, and then the molded cover (6) ) is comprised of the step of demolding.

Description

Manufacturing method of smart cruise control cover for automobile with emblem design {METHOD FOR MANUFACTURING SMART CRUISE CONTROL COVER OF AUTOMOBILES WITH EMBLEM DESIGN}

The present invention relates to a smart cruise control (SCC) cover for automobiles. In particular, it relates to a method of manufacturing a smart cruise control cover for automobiles that prevents SCC malfunctions such as radar radio interference on the SCC cover for automobiles and has an emblem design. It's about improvement.

These days, cars have a lot of electronic convenience equipment and are also equipped with advanced automotive functions that are useful to drivers.

One of the advanced features of automobiles is the Smart Cruise Control function. The Smart Cruise Control (SCC) function is a function that maintains the vehicle's speed constant or accelerates or decelerates itself depending on the distance from the vehicle in front. Recently, the SCC function applied to vehicles has even added a 'Stop & Go' function that checks the distance to the car in front and stops and starts again when the car in front stops. This is called 'Advanced Smart Cruise Control (ASCC). Also called ‘Cruise Control’.

Detection sensors to provide smart cruise control (SCC) functions for automobiles include a front camera that recognizes lanes and the vehicle ahead, and a front radar that detects the vehicle in front and maintains the distance between vehicles.

Among the detection sensors, the installation location of the front camera may vary depending on the vehicle type, and the front radar among the detection sensors is mainly installed along with a smart cruise control (SCC) cover at the emblem location in the front of the vehicle.

As shown in Figure 1, among the smart cruise control equipment located in the front of the vehicle, the front radar (2) serves as the emblem of the vehicle and at the same time, the smart cruise control cover (4) is placed on the front to protect the front radar (2). Configure it so that:

Figure 2 shows an example photo related to the smart cruise control cover 4 of Figure 1, which also functions as an emblem.

In order for the front radar (2) to operate properly, it is important to ensure that the smart cruise control cover (4) located on the front of the front radar (2) is not contaminated, and that it also functions as an emblem and does not interfere with the radio waves of the front radar (2). The smart cruise control cover (4) must be implemented.

Therefore, in implementing a smart cruise control cover that also serves as an emblem for a smart cruise control cover for automobiles, not only does it not interfere with the radio waves of the front radar, but it can also provide a luxurious aesthetic, and furthermore, productivity during manufacturing is improved. If environmental pollution can be prevented, it will receive great response from those involved.

Registered Patent Publication No. 10-1856441 “Cruise control sensor cover for automobiles and manufacturing method thereof”

Therefore, the purpose of the present invention is to form an emblem design so that the smart cruise control (SCC) cover for automobiles does not have malfunctions of the SCC such as radar radio interference, as well as improve productivity, prevent environmental pollution, and provide a luxurious aesthetic. The aim is to provide a method of manufacturing a smart cruise control cover for automobiles.

The present invention for the above purpose is a method of manufacturing a smart cruise control cover for a car equipped with an emblem design, by printing an emblem shape on a metal texture thin film having a thin film lamination structure and being transparent to radar waves, and three-dimensionally processing it to create a three-dimensional metal texture. A step of producing an emblem printing film with a printing layer of the cover and an emblem design, and insert injection molding with the emblem printing film inserted into the upper mold cavity of the upper and lower mold parts for insert injection molding of the rear opaque injection resin layer of the cover. Forming a rear opaque injection resin layer, inserting the rear opaque injection resin layer with the emblem printing film incorporated into the lower mold cavity of the upper and lower mold parts for final molding of the cover, inserting injection molding on the front of the emblem printing film. This is a method of manufacturing a smart cruise control cover for an automobile with an emblem design, which consists of forming a transparent injection resin layer on the front side and then demolding the molded cover.

In addition, the metal-textured thin film used in the production of the emblem printing film in the present invention is a non-metallic thin film material with radar radio wave transmission and is characterized by having a thickness of 100 to 150㎛.

The present invention not only forms an emblem design so that the smart cruise control (SCC) cover for automobiles does not have SCC malfunctions such as radar radio interference, but also improves productivity, prevents environmental pollution, and provides a luxurious aesthetic when forming the emblem design. There is an advantage that this can be realized.

Figure 1 is a diagram for explaining the front radar and smart cruise control cover of the smart cruise control installed in the front of the vehicle;
Figure 2 is an example photo of a smart cruise control cover,
Figure 3 is an example of the mounting position and photo of the smart cruise control cover applied to the embodiment of the present invention;
4 to 7 are manufacturing process diagrams of a smart cruise control cover with an emblem design according to an embodiment of the present invention;
Figure 8 is an enlarged configuration diagram of the dotted circle indicated by 'B' in Figure 7.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

Figure 3 is an example of the mounting position and photo of the smart cruise control cover 6 applied to an embodiment of the present invention.

The smart cruise control cover 6 according to an embodiment of the present invention can be mounted at the front of the vehicle, for example, on the radiator grill, and can be configured with an emblem design that has continuity with the radiator grill design as shown in FIG. 3. Another example of the present invention can be configured as a smart cruise control cover that also serves as an emblem of the vehicle company, as shown in the example of FIG. 2.

In the present invention, when implementing the smart cruise control cover (6), an emblem design such as a vehicle logo or an emblem design such as a vehicle radiator grill is formed together, but it is also configured to prevent malfunction of the front radar due to the internal structure of the cover.

Moreover, in the present invention, in forming the emblem design, a separate emblem printing film (24 in FIG. 4) with radio wave transparency is prepared and used to improve productivity, prevent environmental pollution, and provide a smart cruise with a luxurious aesthetic. Produce the control cover (6).

Figure 7 is a front and longitudinal cross-sectional diagram of a smart cruise control cover 6 equipped with an emblem design according to an embodiment of the present invention, and Figure 8 is an enlarged diagram of the dotted circle indicated by 'B' in Figure 7.

The smart cruise control cover (6) with an emblem design according to the present invention has a rear opaque injection resin layer (26), a three-dimensional metal texture portion (24a), and an emblem design printing layer (24b), as shown in FIGS. 7 and 8. The emblem printing film 24 and the front transparent injection resin layer 30 are sequentially stacked, and the thickness (t) is 6 to 8.5 mm. The 6 to 8.5mm thickness (t) allows the 77GHz radar wavelength of the front radar to pass through the smart cruise control cover (6) in the form of a standing wave without radio wave loss, and within the thickness range (t), half of the radar wavelength of the front radar is The thickness is determined as an integer multiple of the wavelength value.

4 to 7 show the manufacturing process procedure of a smart cruise control cover 6 with an emblem design according to an embodiment of the present invention.

In the present invention, the emblem printing film 24 as shown in FIG. 4 is manufactured separately and applied to the manufacturing process of the smart cruise control cover 6.

The existing method of forming an emblem design on a cover typically involves performing a deposition process in which a metal film (indium, tin, etc.) capable of transmitting radio waves is deposited on the back of a transparent cover. However, the application of this deposition process has the disadvantage of increasing manufacturing costs because not only does it cause environmental pollution due to the use of metal film raw materials, but it also requires a separate chemical deposition process that is different from injection molding.

In the present invention, the emblem printing film 24 is manufactured and easily applied to the cover manufacturing process, so that the deposition process for forming the emblem design can be omitted, thereby preventing environmental pollution as well as improving productivity and reducing costs by applying the film insert injection of the present invention. Aim for savings.

The emblem printing film 24 manufactured separately according to the present invention has radar radio wave transmission and uses a non-metallic, metallic-textured thin film with a thickness of 100 to 150 μm.

As an example of a non-metallic, metallic textured thin film used in the emblem printing film 24, Picasus film (brand name) is preferable. Non-metallic metal-textured thin film is a non-metallic thin film material that has durability comparable to that of metals such as aluminum, but is much lighter. In a thin film of approximately 100㎛ thickness, approximately 1,000 polymer layers are stacked crossing each other horizontally and vertically. It can produce a glossy effect similar to that of a metal material, can be made transparent, and has radar radio wave penetration.

As shown in FIG. 4, the emblem printing film 24 of the present invention is transparent to radar waves, and a printed layer 24a in the shape of an emblem, such as a grill design, is printed on the entire surface on a metal-textured thin film having a thin film stack structure. The metal texture portion 24b remaining as a non-printing area is completed through three-dimensional processing.

The emblem printing film 24 includes a three-dimensional metal texture portion 24a as well as an emblem design printing layer 24a, and the portion excluding the three-dimensional metal texture portion 24b processed into a protruding shape is ink (black in the example of FIG. 3). By pre-printing with ink), an emblem design printing layer 24b expressing an emblem design such as a grill design is formed on the front surface.

Then, in the present invention, as shown in Figures 5 and 6, the emblem printing film (24) shown in Figure 4 is applied to the upper mold cavity of the upper and lower mold parts for insert injection molding of the rear opaque injection resin layer 26 of the cover 6. ) is inserted and insert injection molding is performed to form the rear opaque injection resin layer 26.

The rear opaque injection resin layer 26 has a thickness of 1.5 to 1.8 mm, and is preferably made of ASA (Acrylonitrile-styrene-acrylate) or AEPDS (acrylonitrile-(ethylene-propylene-diene)-styrene) opaque resin (e.g., black resin). do. Accordingly, the emblem printing film 24 is combined on the front side of the rear opaque injection resin layer 26.

Then, in the present invention, the rear opaque injection resin layer 26 with the emblem printing film 24 incorporated on the upper surface is inserted into the lower mold cavity of the upper and lower mold parts for the final molding of the cover 6, and then insert injection molding is performed. The front transparent injection resin layer 30 is formed in front of the emblem printing film 24 of the rear opaque injection resin layer 26. The front transparent injection resin layer 30 formed by insert injection molding has a thickness of 5 to 6 mm and uses transparent resin made of PC material.

Afterwards, the molded cover (6) is demolded to complete the production of a smart cruise control cover (6) for an automobile with an emblem design with a luxurious aesthetic like the present invention. As shown in the photo example in FIG. 3, the smart cruise control cover (6) is completed. (6) has a luxurious aesthetic.

In the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but by the scope of the patent claims and their equivalents.

(2)-- Front radar (4)(6)-- Smart cruise control cover
(24)-- Emblem printing film (24a)-- Three-dimensional metal texture part
(24b)--Emblem design printing layer (26)--Rear opaque injection resin layer
(30)-- Front transparent injection resin layer

Claims (2)

In the method of manufacturing a smart cruise control cover for a car with an emblem design,
The emblem shape is printed on the front and three-dimensionally processed on a metal-textured thin film that is transparent to radar waves and has a thin film lamination structure to produce a 100-150㎛ thick emblem printing film with a three-dimensional metal texture and an emblem design printed layer on the front. steps,
ASA (Acrylonitrile-styrene-acrylate) and AEPDS (acrylonitrile-(ethylene-propylene-diene)- A step of forming a rear opaque injection resin layer with a thickness of 1.5 to 1.8 mm with an emblem printing film incorporated on the top by insert injection molding using an opaque resin made of one of the styrene materials,
For the final molding of the cover, insert the rear opaque injection resin layer with the emblem printing film incorporated into the lower mold cavity of the upper and lower mold parts, and insert 5 to 6 mm in front of the emblem printing film by insert injection molding using PC (polycarbonate) resin. After forming a thick transparent injection resin layer on the front part, remove the molded smart cruise control cover with a cover thickness of 6 to 8.5 mm, and make sure that the 77 GHz radar wavelength of the front radar passes through the smart cruise control cover in the form of a standing wave without loss of radio waves. A method of manufacturing a smart cruise control cover for a car with an emblem design, comprising the step of ensuring that the thickness of the cruise control cover is set to an integer multiple of the half-wavelength value of the radar wavelength within 6 to 8.5 mm. delete

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