KR20120061135A - Foam molding apparatus - Google Patents

Abstract

PURPOSE: A foaming mold device is provided to reduce used amount of vapor and cooling water by reducing an internal space according as a back plate is not installed in a movable mold module. CONSTITUTION: A foaming mold device comprises a fixed mold module(10) and a movable mold module(40). The fixed mold module is fixed in a structure. The movable mold module moves toward the fixed mold module. The movable mold module comprises a movable frame(41), moving side plates(44), and a movable plate(46). Both sides of the movable frame are opened. The moving side plates are mounted on one opened side of the movable frame. The movable plate is coupled to the back side of the movable frame and moves the movable frame on which the moving side plates are mounted toward the fixed mold module.

Description

Foam molding apparatus

The present invention relates to a foam molding die apparatus, and more particularly, to a foam molding mold apparatus that can reduce the thickness of the moving mold module to reduce the cost and the amount of cooling water and water vapor used in molding.

In general, styrofoam is called expandable polystyene, and is a foamed resin that is cured by adding a foaming agent such as pentane (C ₅ H ₁₂ ) or butane to a polystyrene resin.

In order to manufacture the above styrofoam into a product having a predetermined form, a foam molding apparatus is used. Such a foam molding apparatus includes a fixed mold module and a movable mold module each having a mold for forming a cavity, a cavity for forming a cavity, a feeder for supplying raw materials to the cavity, an ejector for pushing the finished product, a movable mold module, and It includes a steam inlet and a cooling pipe installed in the stationary mold module.

Looking at the molding operation in the above-mentioned foam molding die apparatus.

First, the moving mold module is moved to the fixed mold module side to form a cavity between the fixed side template and the moving side template.

Then, when the styrofoam raw material is injected through the feeder into the cavity, water vapor is supplied to each mold module to form the styrofoam molding. Here, the steam supplied to each mold module may be supplied before injecting the styrofoam raw material into the cavity to preheat each mold module.

When the cooling water is supplied to the inside of each frame after molding, the molding is cooled.

After cooling, the moving mold module is moved to its original position, and the finished molding is completed by releasing and discharging the finished molding with an ejector installed through the fixed mold module.

On the other hand, the moving mold module of the above-mentioned foam molding die apparatus includes a moving frame in which the front and rear sides are open. The moving side template is detachably mounted on the front of the movable frame, and the back plate is detachably mounted on the rear of the movable frame. That is, the water vapor and the cooling water are provided to the closed space inside the moving frame formed between the moving side template and the back plate.

However, the mobile mold module of the conventional foam molding mold apparatus is structurally thick and has a large internal space, thereby increasing the cost of manufacturing the mobile mold module, and consumes a lot of water vapor and cooling water used for molding the styrofoam.

In addition, the conventional foam molding apparatus has a problem that the cost is increased because the size of the moving mold module should also be changed according to the size of the molding to be made.

Therefore, the present invention is to solve this problem, it is an object of the present invention to provide a foam molding apparatus that can reduce the cost required for the manufacture of a mobile mold module.

In addition, another object of the present invention is to provide a foam molding apparatus that can reduce the consumption of steam and cooling water used in the molding of styrofoam.

Foam molding apparatus of the present invention for achieving the above object includes a fixed mold module that is fixedly installed on the structure, and a moving mold module to be moved to the fixed mold module side,

The moving mold module,

A movable frame having both sides open, a movable side template mounted on an open side of the movable frame, and a movable plate coupled to the rear surface of the movable frame to move the movable frame on which the movable side template is mounted to the fixed mold module side. Characterized in that it comprises a.

The movable plate is characterized in that the sealing member surrounding the outer circumference of the movable frame is disposed.

The moving frame is provided with a steam supply port for supplying water vapor to a space between the moving side template and the moving plate, and a cooling water pipe for injecting cooling water into the moving side template between the moving side template and the moving plate. It is done.

As described above, in the foam molding die apparatus of the present invention, the movable mold module is directly coupled to the movable frame, a movable side template mounted on one side of the movable frame, and a rear surface of the movable frame to fix the movable frame. Since it includes a moving plate for moving to the module side, unlike the prior art having a back plate mounted on the back of the moving frame, the manufacturing cost of the mobile mold module, in particular, even when changing the size of the mobile mold module to reduce the manufacturing costs It can work.

In addition, the foam molding apparatus of the present invention has the effect of reducing the amount of water vapor and cooling water consumed because the internal space is reduced because the back plate is not provided in the moving mold module as described above.

1 is a side view schematically showing a foam molding apparatus of the present invention.
Figure 2 is an exploded perspective view showing a moving mold module of the foam molding apparatus of the present invention.
3 is a perspective view showing a moving mold module of the foam molding apparatus of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a foam molding apparatus of the present invention.

As shown in FIG. 1, the foam molding apparatus of the present invention includes a fixed mold module 10 fixedly installed on a structure, and a moving mold module 40 moved to the fixed mold module 10 side.

First, the fixed mold module 10 has a fixed frame 11 having both sides open, a fixed side template 13 mounted on an open side of the fixed frame 11, and an open rear surface of the fixed frame 11. And a back plate 15 to be mounted.

The fixed side template 13 is recessed on one surface to form a cavity by being joined with the moving side template 44 which will be described later. The fixed side template 13 is mounted such that its circumference is located in the seating groove of the fixed frame 11 by fastening a plurality of fixing screws.

Like the stationary side plate 13, the back plate 15 is mounted so that its circumference is located in the seating groove of the fixed frame 11 by fastening a plurality of fixing screws. The back plate 15 is supplied with styrofoam raw material The feeder 20 and the ejector 30 for releasing the molding from the cavity after the molding of the molding are penetrated.

The feeder 20 extends up to the stationary side template 13 with a nozzle passing through the backplate 15 as shown. The feeder 20 injects the styrofoam raw material into the cavity formed by the combination of the fixed side template 13 and the moving side template 44.

The ejector 30 includes an eject plate 31 actuated by a drive member 32 such as a cylinder, and an eject pin 33 extending from the eject plate 31. At this time, the eject pin 33 extends through the back plate 15 to the fixed side template 13, and serves to directly release the molded product from the cavity.

The fixed frame 11 is formed with a steam supply port 12 for supplying steam to the space between the fixed side template 13 and the back plate 15. The steam supplied to the steam supply port 12 allows the fixed side template 13 to be heated to foam the styrofoam raw material.

Further, a cooling water pipe (not shown) for cooling the fixed side template 13 to which molding has been completed is mounted in the space between the fixed side template 13 and the back plate 15 of the fixed frame 11.

As shown in FIGS. 1 to 3, the moving mold module 40 includes a moving frame 41 having both sides open, a moving side template 44 mounted on one open surface of the moving frame 41, and moving. The rear surface of the frame 41 is coupled to include a moving plate 46 for moving the moving frame 41 on which the moving side template 44 is mounted to the fixed frame 11 side.

The moving frame 41 is provided with a steam supply port 42 for supplying steam to the space between the moving side template 44 and the moving plate 46. The water vapor supplied to this water vapor supply port 42 heats the moving side template 44.

Further, a cooling water pipe 43 for cooling the moving side template 44 is mounted in the space between the moving side template 44 and the moving plate 46 of the moving frame 41. The cooling water pipe 43 is composed of a horizontal pipe 43a formed in the horizontal direction of the moving frame 41 as shown, and a plurality of vertical pipes 43b extending downward from the horizontal pipe 43a. In this case, an injection hole (not shown) is formed in the vertical pipe 43b to spray cooling water at regular intervals.

The moving side template 44 protrudes a predetermined portion on one surface to be joined with the fixed side template 13 to form a cavity. The moving side template 44 is mounted such that its circumference is located in the seating groove 41a of the moving frame 41 by fastening a plurality of fixing screws.

In addition, the back side of the moving side template 44 is formed with a plurality of struts 45 which are in direct contact with the moving plate 46, and such a strut 45 is heated by the steam on the moving side template 44. It serves to prevent bending by heat during the process.

The moving plate 46 serves to move the moving frame 41 on which the moving side template 44 is mounted by the driving member 48 such as a cylinder to the fixed frame 11 side as described above. In this case, unlike the conventional plate having a back plate detachably coupled to the rear surface of the movable frame 46, the rear surface of the movable frame 41 is directly coupled. Here, the coupling between the movable plate 46 and the movable frame 41 may be made by fusion and fastening using a fixing screw.

In addition, the movable plate 46 has a sealing member 47 for preventing the leakage of water vapor and cooling water supplied through the movable frame 41 and the movable plate 46 when the rear surface of the movable frame 41 is coupled. Is attached.

The sealing member 47 is provided to surround the circumference of the moving frame 41 to prevent the water vapor and the cooling water from flowing out between the moving frame 41 and the moving plate 46.

Accordingly, in the present invention, the back plate 15 is not mounted on the rear surface of the movable frame 41, and the movable plate 46 for moving the movable mold module 40 to the stationary mold module 10 side includes the movable plate 41. Since it is directly coupled to the back surface, the thickness of the moving mold module 40 is reduced by the thickness of the back plate and the internal space is reduced.

Accordingly, in the present invention, the weight of the mobile mold module 40 is reduced and the manufacturing cost of the mobile mold module 40 is reduced. In addition, in the present invention, since the internal space of the moving mold module 40 is reduced, the amount of water vapor and cooling water used in forming the styrofoam is reduced.

In addition, in the present invention, there may be a case in which the size of the moving mold module 40 needs to be changed according to the size of a molding to be made. In this case, only the remaining components except the back plate of the moving mold module 40 may be changed in size. This change can reduce manufacturing costs by the cost of manufacturing the backplate.

When the size of the moving mold module 40 is changed, the size of the sealing member 47 attached to the moving plate 46 is easily changed to leak water and cooling water between the moving plate 46 and the moving frame 41. Can be easily prevented.

10: fixed mold module 11: fixed frame
13: fixed side template 15: back plate
20: feeder 30: ejector
40: moving mold module 41: moving frame
42: water vapor supply port 43: cooling water pipe
44: moving side template 45: prop
46: moving plate 47: sealing member
48: drive member

Claims (3)

In the foam molding apparatus including a fixed mold module 10 fixed to the structure and a moving mold module 40 moved to the fixed mold module 10 side,
The moving mold module 40,
The moving frame 41 having both sides open, a moving side template 44 mounted on one open side of the moving frame 41, and a moving side template 44 coupled to the rear surface of the moving frame 41. Foaming mold apparatus, characterized in that it comprises a moving plate 46 for moving the mounted moving frame 41 to the fixed mold module (10) side. The method of claim 1,
Foaming mold apparatus, characterized in that the sealing plate 47 is disposed on the movable plate 46 to surround the outer periphery of the movable frame (41). The method according to claim 1 or 2,
The moving frame 41 includes a steam supply port 42 for supplying steam to a space between the moving side template 44 and the moving plate 46, and the moving side template 44 and the moving plate 46. And a cooling water pipe (43) for injecting cooling water into the moving side template (44) between the molds.

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