KR20220108270A - Hybrid molding apparatus capable of performing press molding and injection molding simultaneously and molding method using thereof - Google Patents

Abstract

To solve aforementioned problems, provided is a hybrid molding apparatus capable of manufacturing a product made of a composite material by being fixed once in one device. The present invention relates to the hybrid molding apparatus for simultaneously performing press molding and injection molding comprising: a press pressurizing device; a mold which is installed inside the press pressurizing device, and is composed of an upper mold and a lower mold for the press molding; and an injecting device which is connected to the lower mold, and melts and extrudes an injecting material. In a lower part of the lower mold, an injecting pipe for allowing the material to flow is formed in the injecting device. Since the press molding and the injection molding are simultaneously performed in one device and process, the present invention simplifies the overall manufacturing process by simplifying a work process and the device to reduce manufacturing time and costs.

Description

Hybrid molding apparatus capable of performing press molding and injection molding simultaneously and molding method using thereof

The present invention relates to a hybrid composite material molding method that can be injection molded under pressure applied to a mold after compression molding using a prepreg using metal or carbon, glass, Kevlar fiber, SMC, injection material, etc. it's about

Recently, as environmental regulations on carbon dioxide emissions are getting stronger and stronger, the government announced the Korean version of the Green New Deal policy, and Hyundai/Kia Motors has a plan to commercialize automobiles and air transportation means that can travel 450 km with a charge within 20 minutes by 2028. have.

However, in order to realize everything, weight reduction must be carried out first, and with the current lightweight parts manufacturing technology, the cost of the material is high, but the process cost of the parts using the lightweight material is also high, and it is true that the number of steps has increased significantly compared to the conventional press process. However, the cycle time required for each process also increases, which increases the manufacturing cost burden.

As the material of the car body evolves into a composite material, in order to improve the impact characteristics of the vehicle and realize light weight, the technology for strengthening and reducing the weight of the car body using ribs is increasing.

In order to form these parts, the cost of each process, transportation of products, labor costs, etc. are additionally incurred because they are manufactured by a method of injection inserting after forming a plate or a method of manufacturing and assembling ribs one by one. The low carbon composite application rate may also be a factor.

Korean Patent Registration No. 10-587620

The present invention is to solve the above-mentioned problems, and it is a technical problem to provide a hybrid molding apparatus that makes it possible to manufacture a product made of a composite material by one fixing in one apparatus.

In order to solve the above problems, the present invention is a hybrid molding apparatus capable of simultaneously performing press molding and injection molding, comprising a press pressing device and an upper mold and a lower mold installed inside the press pressing device for press molding. and an injection device connected to the lower mold for dissolving and extruding the injection material, and an injection pipe path for the material in the injection device to flow in the lower part of the lower mold is formed. do.

In the hybrid molding apparatus of the present invention, in the lower mold, a lower press-shaped part formed in a shape corresponding to the lower shape of the product to be pressed, one or a plurality of rib grooves extending downward from the upper surface of the lower press-shaped part; , an injection pipe path connected to the rib groove and connected to the injection device is formed, and in the upper mold, an upper press-shaped part formed in a shape corresponding to the upper shape of the product to be pressed, and a lower surface of the upper press-shaped part One or a plurality of rib fixing grooves extending upward to coincide with the rib grooves in the height direction are formed.

In the hybrid molding apparatus of the present invention, the width of the rib fixing groove is equal to or greater than the width of the rib groove.

In the hybrid molding apparatus of the present invention, a part of the injection pipe passage is formed at both ends of the lower press-shaped part.

In the hybrid molding apparatus of the present invention, a lower air chamber is formed in the lower mold to be adjacent to the rib groove, and an upper air chamber is formed in the upper mold to be adjacent to the rib fixing groove, It further includes a mold heating device for heating and a mold cooling device for cooling, wherein the mold cooling device includes an air compressor for supplying cold air for cooling, one end connected to the air compressor and the other end connected to the lower air It is characterized in that it consists of an inlet pipe connected to the chamber and the upper air chamber for supplying air, and an outlet pipe connected to the lower air chamber and the upper air chamber for discharging air that has completed a cooling action.

As a molding method using the hybrid molding apparatus of the present invention, a press material pre-work step (s100), inserting and placing the material processed in the step (s100) in the hybrid molding apparatus, press molding, and heating (s200); In the press-molded state in the step (s200), the injection material is injected into the lower mold and characterized in that it comprises a step (s300) of injection molding for cooling.

In the molding method using the hybrid molding apparatus of the present invention, the step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120), and the step (s110) is a through hole in the press material. It is characterized in that it consists of forming a.

In the molding method using the hybrid molding apparatus of the present invention, in the injection molding step of the step (s300), the injection material is input to pass through the through hole of the press material.

In the molding method using the hybrid molding apparatus of the present invention, the step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120), and the step (s110) is applied to the surface of the press material. It is characterized in that a plurality of surface pores are formed or surface roughness is formed.

As a molding method using the hybrid molding apparatus of the present invention, a press material pre-work step (s100) and the press material and the second material processed in the step (s100) are inserted and placed in the hybrid molding apparatus, press-molded, and heated (s200) and the injection molding step (s300) of injecting and cooling the injection material into the lower mold in the press-molded state in the step (s200).

In the hybrid molding method of the present invention, the step (s100) consists of an injection material adhesion improvement step (s110) and a pre-heating step (s120) of the press material, and the step (s110) is a through hole in the press material and the second material It is characterized in that it consists of forming

In the hybrid molding method of the present invention, in the injection molding step of the step (s300), the injection material is input to pass through the through-holes of the press material and the second material.

In the hybrid molding method of the present invention, the step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120), and the step (s110) is a plurality of surface pores on the surface of the press material. or to form a surface roughness.

In the present invention, as the press molding and injection molding are performed simultaneously in one device and process as described above, the working process is simple, and the overall manufacturing process is simplified by simplifying the device, thereby reducing manufacturing time and cost.

In addition, in the present invention, the injection material injected through the injection pipe is formed so as to reach both ends of the lower press-shaped part. During the press molding operation, one end of the press does not come down to the lower mold, and the injection material is press-molded. This has the effect of complementing the shape of the part that does not descend to the lower mold.

On the other hand, when a hole is formed in the press material to improve the bonding force between the injection material and the press material, the injection material flows upward from the rib groove and flows into the rib fixing groove and then cools to improve the physical bonding between the press material and the injection material. By this, the fastening force between the two is ensured.

In addition, when surface pores or surface roughness are formed on the press material in order to improve the bonding force between the injection material and the press material, the injection material has the effect of further improving the bonding strength by the surface.

1 is a view showing a hybrid molding apparatus according to an embodiment of the present invention.
2 is a view showing the shape of the rib fixing groove in the hybrid molding apparatus according to an embodiment of the present invention.
3 is a view showing a molding method using a hybrid molding apparatus according to an embodiment of the present invention.
4 is a view showing an injection material adhesion improvement step (s110) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.
5 is a view showing the pre-heating step (s120) of the press material in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.
6 is a view showing a press molding step (s200) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.
7 is a view showing an injection material injection step (s310) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.
8 is a view showing a cooling step (s320) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.
9 is a view showing a product manufactured through a molding method using a hybrid molding apparatus according to an embodiment of the present invention.
10 is a view showing a press molding step (s200) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention.
11 is a view showing an injection material injection step (s310) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention.
12 is a view showing a cooling step (s320) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention.
13 is a view showing a product manufactured through a molding method using a hybrid molding apparatus according to a second embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

1 is a view showing a hybrid molding apparatus according to an embodiment of the present invention.

The hybrid molding apparatus 10 of the present invention includes a housing 100 , a press-pressing device 200 moving in the vertical direction inside the housing 100 , and the press-pressurizing device 200 . It consists of a mold 300 to be used, a mold heating device 400 installed in the mold 300 , a mold cooling device 500 , and an injection device 600 .

The housing 100 is formed in the configuration of a housing of a general press device.

The press press device 200 includes a lower press unit 210 installed in the housing 100 and installed and fixed at the lower portion, and an upper press unit 220 installed at an upper portion of the lower press unit 210 . .

The upper pressing part 220 is installed to be movable in the vertical direction by the hydraulic cylinder (c).

A lower mold 310 is installed above the lower pressing part 210 .

A lower press-shaped portion 310a formed in a shape corresponding to the lower shape of the product to be pressed is formed in the center of the lower mold 310, and a rib groove extending downwardly on the upper surface of the lower press-shaped portion 310a ( 310b) is formed in one or a plurality of pieces.

Meanwhile, a lower air chamber 310c is formed in the lower mold 310 to be adjacent to the rib groove 310b.

In addition, the lower mold 310 has an injection pipe path 310d connected to the rib groove 310b on the bottom surface and connected to the injection device 600 .

The injection pipe path 310d is formed at both ends and the center of the lower press-shaped part 310a.

The upper mold 320 is fixed to the upper pressing unit 220 and is formed to be movable in the vertical direction.

An upper press-shaped part 320a formed in a shape corresponding to the upper shape of the product to be pressed is formed in the center of the upper mold 320, and a rib fixing groove extending upwardly on the lower surface of the upper press-shaped part 320a is formed. (320b) is formed in one or a plurality.

The rib fixing groove 320b is formed to coincide with the rib groove 310b in the height direction.

2 is a view showing the shape of the rib fixing groove in the hybrid molding apparatus according to an embodiment of the present invention.

The width of the rib fixing groove 320b may be the same as the width of the rib groove 310b as shown in FIG. 2A or may be formed to be larger than the width of the rib groove 310b as shown in FIG. 2B .

On the other hand, the upper air chamber 320c is formed in the upper mold 320 to be adjacent to the rib fixing groove 320b to have the same action as the lower air chamber 310c.

A generally known method such as high-frequency induction heating, heating heater, and electric resistance method is used for the mold heating device 400 , and in this embodiment, a method using the electric resistance of the mold surface is applied.

The mold heating device 400 includes an inverter 410, a control box 420 connected to the inverter 410, one end connected to the control box 420 and the other end connected to the lower mold 310 and the upper mold ( It consists of a bus bar (430. busbar) connected to the 320).

The mold cooling device 500 includes an air compressor 510 and an inlet pipe that has one end connected to the air compressor 510 and the other end connected to the lower air chamber 310c and the upper air chamber 320c to supply air ( 520) and an outlet pipe 530 connected to the lower air chamber 310c and the upper air chamber 320c for discharging air that has completed a cooling action.

The injection device 600 is composed of a known device for dissolving and supplying an injection material, and is connected to the end of the injection pipe path 310d of the lower mold 310 .

3 is a view showing a molding method using a hybrid molding apparatus according to an embodiment of the present invention.

Next, a method for molding using the hybrid device formed as described above will be described.

[First embodiment]

First, in the hybrid device of the present invention, a step (s100) of performing a pre-work on the press material (p) is performed.

In the present invention, the press material (p) is not particularly limited as long as it is a material that can be press-formed, for example, a prepreg made of a metal material such as aluminum or magnesium or carbon fiber reinforced plastics (CFRP), etc. this can be used

4 is a view showing an injection material adhesion improvement step (s110) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.

The press material pre-work step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120).

The injection material adhesion improvement step (s110) is made through one of the following three methods.

The first method is a method of forming a penetrating hole p1 in the press material p through a punch or other method as shown in FIG. 4A .

In the second method, as shown in Fig. 4b, a plurality of surface pores p2 are formed through MPA (micropore) or TRI (nano micropore) treatment on the surface of the press material p using a chemical substance. a way to form

The third method is a method of forming the roughness p3 on the surface of the material p of the press through sand blasting or laser machining.

5 is a view showing the pre-heating step (s120) of the press material in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.

In the press material heating step (s120), it is a step of pre-heating through a heating device before inserting the press material into the hybrid molding device.

When pre-heating is performed in step (s120), it is applied to improve moldability when the press material is made of a thermoplastic resin rather than a metal material.

The press material heating device is a known configuration, and for example, as a heat source, all non-contact heating devices such as IR heater, high frequency, hot air heater, and microwave oven are applicable, and the temperature is usually heated to 300°C to 1,000°C.

The heating temperature or conditions are set differently depending on the press material. For example, if the press material is a thermoplastic material, it is heated higher than the glass transition temperature (Tg.

Next, a press forming step (s200) for the press material is performed.

6 is a view showing a press molding step (s200) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.

The step (s200) consists of a step (s210) of inserting and pressing the press material into the hybrid molding apparatus and a step (s220) of heating.

In step s210, the step of arranging the press material heated in step s120 is inserted into the lower mold 310 as shown in FIG. 6a.

As shown in FIG. 6b , the upper mold 320 is moved downward to pressurize the press material.

After the step (s210), a step (s220) of heating the upper mold and the lower mold by operating the mold heating device 400 is performed.

The press material is press-formed while being pressurized by this heating and pressing action.

In the press forming step (s200), it is possible to press-form a metal, as well as a prepreg product such as CFRP (Carbon Fiber Reinforced Plastic) is formed.

7 is a view showing an injection material injection step (s310) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.

Then, an injection molding step (s300) is performed.

The injection molding step (s300) includes an injection material injection step (s310) and a mold cooling step (s320).

For injection materials, materials commonly used for injection such as PP, PA, ABS, PPS, and PC may be used, or materials containing Innegar, Aramid, Basalt, Carbon, and Glass fibers may be used for these general injection materials. do.

In the injection material injection step (s310), the injection material (i) is injected under pressure through the injection pipe path (310d) formed in the lower mold (310) through the injection device (600).

At this time, when the length of one end is shorter than the desired length while the press material (p) is pressed, the replenishment part (i1) is formed by the injection material (i) so that the entire shape of the press material (p) is completely formed it will work

8 is a view showing a cooling step (s320) in the molding method using the hybrid molding apparatus according to an embodiment of the present invention.

Then, in the mold cooling step (s320), the air compressor 510 of the mold cooling device 500 is operated to introduce cold air into the lower air chamber 310c through the inlet pipe 520 and then the outlet pipe 530 is The operation of cooling the mold 300 is performed by performing the operation of discharging through.

9 is a view showing a product manufactured through a molding method using a hybrid molding apparatus according to an embodiment of the present invention.

When the injection molding is completed while the injected material is cooled due to the cooling of the mold, the product as shown in FIG. 9 is completed.

In the present invention, as the press molding and injection molding are performed simultaneously in one device and process as described above, the working process is simple, and the overall manufacturing process is simplified by simplifying the device, thereby reducing manufacturing time and cost.

In particular, in the case of recent automobiles, etc., to accommodate the need to lighten the weight while reinforcing the strength, in the present invention, as a press material, a metal steel sheet used for a body, etc. It makes it possible to do it.

In addition, in the present invention, the injection material injected through the injection pipe path 310d is formed to reach both ends of the lower press-shaped portion 310a, and one end of the press is reached to the lower mold 310 during the press molding operation. Even if it is not molded to descend, it has an action effect that can complement the shape of the part descending to the lower mold by the injection material.

On the other hand, when the hole p1 is formed in the press material in order to improve the bonding force between the injection material and the press material, the injection material flows upward from the rib groove (310b) and flows into the rib fixing groove (320b) and then cools down. By the physical bonding between the press material (p) and the injection material (i), the fastening force between them is ensured.

In particular, when the width of the rib fixing groove 320b is larger than the width of the rib groove 310b as shown in FIG. 2b , the fastening force between the two is more reliable.

In addition, when surface pores (p2) or surface roughness (p3) are formed in the press material to improve the bonding force between the injection material and the press material, the bonding force of the injection material and the press material (p) is further improved by these surfaces will have an effect.

[Second embodiment]

The first embodiment described above relates to the case of using two different materials or parts, but is not limited thereto. In the second embodiment of the molding method of the present invention, by adding a second material (p') It is also possible to mold composite material parts using

There is no particular limitation on the three materials, and in the second embodiment, the second material (p') is made of a car body steel sheet on which the press forming operation has been completed, and the press material (p) is formed of CFRP (carbon fiber reinforced plastics) and an injection material. (i) is for the case made of GFRP (Glass Fiber Reinforced Plastics).

The molding method of the second embodiment also uses the same molding method as that of the first embodiment for manufacturing two parts in that three parts are used.

In the second embodiment, the injection material adhesion improvement step (s110) and the press material pre-heating step (s120) are made the same.

In the case of applying the method of forming the hole p1 in the injection material adhesion improvement step s110, the same is applied to the second material p' as well as the press material p to form the hole p'1. .

The method of forming a plurality of surface pores p2 or surface roughness p3 on the surface of the press material p in the injection material adhesion improvement step s110 is also applicable to the second material p'.

However, in the second embodiment, this is not applied due to the characteristics of the second material p'.

In the pre-heating step (s120) of the press material, the second material (p') is not heated, and only the CFRP corresponding to the press material (p) is heated.

10 is a view showing a press molding step (s200) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention.

In step (s200), the press material (p) and the second material (p') processed in step (s100) are inserted and arranged in a hybrid molding apparatus, press-formed, and heated.

11 is a view showing an injection material injection step (s310) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention. 12 is a view showing a cooling step (s320) in the molding method using the hybrid molding apparatus according to the second embodiment of the present invention.

In step (s300), the injection material (i) is injected into the lower mold in the press-molded state in step (s200) and cooling is performed.

13 is a view showing a product manufactured through a molding method using a hybrid molding apparatus according to a second embodiment of the present invention.

In the second embodiment, a composite product consisting of three parts has the effect of being molded in one process and one apparatus.

In particular, in the second embodiment, the strength of the second material (p') is reinforced by a press material (p) of a composite material made of CFRP (carbon fiber reinforced plastics) on the body steel sheet on which the press forming operation has been completed so that the strength is high. By forming ribs with the injection material (i) made of GFRP (Glass Fiber Reinforced Plastics), the strength of the car body is greatly improved and the weight is reduced at the same time.

This embodiment is intended to explain the technical spirit of the present invention, and cannot be construed as limiting the technical scope of the present invention, and all descriptions of ranges similar to the embodiments of the present invention are included in the scope of the present invention. will be.

100: housing 200: press pressure device
300: mold 400: mold heating device
500: mold cooling device 600: injection device

Claims (13)

A hybrid molding apparatus capable of simultaneously performing press molding and injection molding, comprising:
a press press device,
A mold installed inside the press pressing device and comprising an upper mold and a lower mold for press molding;
It is connected to the lower mold and consists of an injection device for dissolving and extruding the injection material,
A hybrid molding apparatus, characterized in that an injection pipe is formed in the lower part of the lower mold for the material in the injection apparatus to flow. The method according to claim 1,
In the lower mold,
A lower press-shaped portion formed in a shape corresponding to the lower shape of the product to be pressed;
One or a plurality of rib grooves extending downward from the upper surface of the lower press-shaped part;
An injection pipe path connected to the rib groove and connected to the injection device is formed,
In the upper mold,
An upper press-shaped portion formed in a shape corresponding to the upper shape of the product to be pressed;
A hybrid molding apparatus, characterized in that one or a plurality of rib fixing grooves extending upward to coincide with the rib grooves in the height direction are formed on the lower surface of the upper press-shaped part. The method according to claim 2,
A hybrid molding apparatus, characterized in that the width of the rib fixing groove is equal to or greater than the width of the rib groove. 4. The method of claim 3,
A part of the injection pipe passage is a hybrid molding apparatus, characterized in that formed at both ends of the lower press-shaped portion. 5. The method according to claim 4,
A lower air chamber is formed in the lower mold to be adjacent to the rib groove,
An upper air chamber is formed in the upper mold to be adjacent to the rib fixing groove,
Further comprising a mold heating device for heating the mold and a mold cooling device for cooling,
The mold cooling device,
an air compressor for supplying cold air for cooling;
an inlet pipe having one end connected to the air compressor and the other end connected to the lower air chamber and the upper air chamber to supply air;
and an outlet pipe for discharging air that is connected to the lower air chamber and the upper air chamber and has completed the cooling action. As a molding method using the hybrid molding apparatus according to any one of claims 1 to 5,
Press material pre-work step (s100) and,
Inserting and placing the material processed in the step (s100) in a hybrid molding apparatus, press-molding, and heating (s200);
A hybrid molding method comprising the step (s300) of injection molding in which the injection material is injected into the lower mold in the press-molded state in the step (s200) and cooled. 7. The method of claim 6,
The step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120),
The step (s110) is a hybrid molding method consisting of forming a through hole in the press material. 8. The method of claim 7,
In the injection molding step of the step (s300), a hybrid molding method, characterized in that the injection material is injected to pass through the through hole of the press material. 7. The method of claim 6,
The step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120),
The step (s110) is a hybrid molding method, characterized in that forming a plurality of surface pores or surface roughness on the surface of the press material. As a molding method using the hybrid molding apparatus according to any one of claims 1 to 5,
Press material pre-work step (s100) and,
Inserting and placing the press material and the second material processed in the step (s100) in a hybrid molding apparatus, press forming, and heating (s200);
A hybrid molding method comprising the step (s300) of injection molding in which the injection material is injected into the lower mold in the press-molded state in the step (s200) and cooled. 11. The method of claim 10,
The step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120),
The step (s110) is a hybrid molding method consisting of forming a through hole in the press material and the second material. 12. The method of claim 11,
In the injection molding step of the step (s300), a hybrid molding method, characterized in that the injection material is injected to pass through the through-holes of the press material and the second material. 11. The method of claim 10,
The step (s100) consists of an injection material adhesion improvement step (s110) and a press material pre-heating step (s120),
The step (s110) is a hybrid molding method, characterized in that forming a plurality of surface pores or surface roughness on the surface of the press material.

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