KR200150705Y1 - The second step mold automatic separation in the three step molding machine - Google Patents

Abstract

The present invention relates to a three-stage mold automatic separating device, in particular, between the operation (6) installed symmetrically on both sides of the width of the carrier bogie (2) centered on the rotating shaft (29) as the cylinder 5 back and forth A drive unit 30 rotatably coupled to each other so that both ends of the operation link 25 are rotatably coupled to the upper end of the operation frame 6 and the upper frame 12; The upper fixing plate 7-1 is fixed to the hollow 9 of the upper mold 3 attached to the lower part of the upper frame 12, and the lower fixing plate 7 is attached to the upper surface of the middle mold 4. Rotating parts 20, both ends of the link 8 are rotatably coupled to the upper and lower fixing plates 7-1 and 7, respectively; The lower end of the tension spring 14 is fixed to the rear side of the carrier bogie 2, and the wire 11 wound and guided by rollers 13 and 13-1 provided on the upper part of the upper frame 12 is the lower end thereof. The three-stage mold type automatic separating device, characterized in that the upper end is composed of an elastic support part 31 connected to the lower fixing plate 7 through the hollow 9 while being connected to the upper end of the tension spring 14. It is about.

Description

Three-stage mold automatic separating device

The present invention relates to a three-stage mold automatic separating device, and in particular, in the three-stage mold consisting of a lower mold, an upper mold, and a middle mold for foaming an automobile seat using a sponge material, the middle mold is formed of a fixed plate and a link from the upper mold. It relates to a medium-sized automatic separation device of a three-stage mold for automatic separation using the eastern part.

In general, a mold for foaming an automobile seat or the like is coupled to the lower mold 1 and the upper mold 3 so as to be opened and closed by the hydraulic cylinder and the operation, as shown in FIG. 1, and the middle mold 4 in the hollow of the upper mold. This structure is combined.

As described above, the process of foam-molding an automobile seat with a conventional mold is performed by first separating the upper mold 3 from the lower mold 1 by lever and joint motion between the operations operated by the hydraulic cylinder, and then forming the lower mold 1 on the lower mold 1. After filling the material and manually joining the middle die 4 to the upper hollow, the hydraulic cylinder and the working space are operated to align the upper die and the middle die with the lower die.

Then, when the material is heated through the hot water heating pipe embedded in the lower mold 1, the material is foamed and molded into the shape of the mold.

In addition, if the upper mold 3 is lifted between operations by the operation of the hydraulic cylinder after the molding is completed, the molding is taken out together with the heavy mold 4, and at this time, the molding is pushed out of the heavy mold 4 by manual operation.

In the prior art in which the work is performed by such a process, the medium (4) must be combined manually by hand, and the molded product must be separated by the worker's hand, which makes the work process complicated and reduces work efficiency, worker fatigue, mold and product. There has been a problem that often occurs, such as breakage.

The present invention facilitates the separation of molded products by automatically separating the middle die from the upper die by using a rotating part consisting of a fixed plate and a link, thereby improving the productivity of the work and at the same time, preventing the damage of the mold and the molded product in three stages. The purpose is to provide a medium automatic separation device of the mold.

1 is a schematic diagram of a three-stage mold according to the prior art.

Figure 2 is a schematic view showing a closed state of the three-stage mold automatic separation apparatus according to the present invention.

Figure 3 is a schematic diagram showing an open state of the three-stage mold automatic separation apparatus according to the present invention.

Figure 4 is a perspective view showing a middle rotating part of the three-stage mold automatic separation apparatus of the three-stage mold according to the present invention.

* Explanation of symbols for main parts of the drawings

1: lower mold 1-1: molding part

2: carrier balance 3: upper box

4: Medium 5: Hydraulic cylinder

5-1: Cylinder Rod 6: Between Operation

7, 7-1: fixed plate 8: link

9: hole 10: ring

11 wire 12 upper frame

13, 13-1: Roller 14: tensioning spring

16: molding 20: rotating part

In order to achieve the above object, the present invention is installed between the two sides of the carrier bogie symmetrically between the operation is rotated around the axis of rotation in accordance with the forward and backward of the cylinder, both ends of the operation link of the upper and upper frames of the operation respectively A driving unit rotatably coupled to the upper portion; An upper fixing plate fixed to an upper hollow (9) attached to the lower portion of the upper frame, a lower fixing plate attached to an upper surface of the middle type, and a plurality of links each of which is rotatably coupled to the upper and lower fixing plates; The lower end of the tension spring is fixed to the rear side of the carrier bogie, the wire wound around the guide roller is installed on the upper portion of the upper frame is connected to the upper end of the tension spring, the upper end of the lower fixing plate through the hollow Provides a three-stage mold automatic separation device, characterized in that consisting of an elastic support connected to.

With reference to the drawings will be described in detail the configuration of the subject innovation.

Figure 2 is a schematic diagram showing a closed state of the three-stage mold automatic separation apparatus according to the present invention, Figure 3 is a schematic diagram showing the open state of the three-stage mold medium automatic separation device according to the present invention.

The lower mold 1 is fixedly installed at the upper center of the carrier bogie 2 fixed to the ground, and the upper frame 12 is formed at the upper end of the pair of bases 30 formed on the upper right side of the carrier bogie, respectively. The lower end of the pin is coupled to the rotatable around the pin (28).

At this time, an upper die 3 is fixedly attached to the lower side of the upper play 12, which is formed in an approximately L shape, and a rectangular hollow 9 is formed in the center of the upper die 3, and this hollow 9 At the lower end side of the bottom), a seating recess 3-1 into which the middle die 4 is inserted is successively formed.

And, Figure 4 is a perspective view of the middle rotating part of the three-stage mold automatic separation apparatus of the three-stage mold according to the present invention.

The upper fixing plate 7-1 is fixedly attached to one side of the hollow 9 of the upper mold 3, and the lower fixing plate 7 is attached to the center of the upper surface of the middle mold 4, and the upper and lower fixing plates 7-7 are separated from each other. 1 and 7 are connected by four links 8.

That is, the four links 8 are coupled to each other so as to be rotatably coupled to the upper and lower fixing plates 7-1 and 7 so that two pairs of two up and down pairs face each other with the same pair. It is rotated at the same time by its own weight or the tensile force of the tension spring (14).

In addition, the middle plate (4) is attached to the lower portion is attached to the ring 10 in the center on the front surface of the fixed plate (7), one end of the wire 11 is connected to the ring 10 is the upper frame 12 Guided by two rollers (13) (13-1) formed to be spaced apart on the top of the other end is connected to the upper end of the tension spring (14).

Here, the tension spring 14 is fixed to the center of the rear portion of the carrier bogie 2 by the upper end is connected to the wire 11, the tension spring 14 is connected to the rotating part 20 by the wire (11). The elastic die 4 is elastically in close contact with the seating groove 3-1 of the upper die 3.

The lower end of the bending operation 6 is rotatably coupled to the hydraulic cylinder 5 installed at the lower center of the carrier bogie 2 so as to be rotatable. The bending operation period 6 which is symmetrically installed at both front and rear sides is penetrated and coupled to both ends of the rotating shaft 29 which couples the carrier cart in the front and rear directions so as to be rotatable.

At this time, one end of the operation link 25 is coupled to the upper end of the bending operation (6), the other end of the operation link is coupled to the upper portion of the upper frame 12 to be rotatable.

Hereinafter, the operation of the three-stage mold automatic separation apparatus of the three-stage mold will be described with reference to FIGS.

First, when the hydraulic cylinder 5 is advanced, the operation link 25 lifts the upper frame 12 while the pair of operating sections 6 rotate about the rotation shaft 29 in the vertical tank.

At this time, the upper mold 3 is moved upward by the rotating upper frame 12 to be separated from the lower mold 1, and the loose tension spring 14 cannot pull the lower fixing plate 7 through the wire 11. .

Therefore, the link 8 falls down due to the weight of the heavy mold 4, and the heavy mold exits from the seating groove 3-1 and is separated from the upper mold 3, and the worker removes the molding 16 from the heavy mold. It is easy to recover.

Then, after filling the molding portion 1-1 formed on the upper surface of the lower mold 1, the hydraulic cylinder 5 is retracted when the hydraulic cylinder 5 is retracted. ) Is rotated about the rotation axis (29).

At this time, the upper frame 12 is rotated downwardly about the shaft pin 28 by the rotating operation 6 and the operation link 25, the tension spring 14 in the course of the downward rotation of the upper frame is a wire ( 11) to pull the lower fixing plate (7) to it.

Here, the tension spring 14 is the lower fixing plate 7 is pulled more and more strongly through the hollow (9) by the tension force is to fold the link (8) fell down horizontally, whereby the medium (4) seating groove ( Close contact with 3-1).

In addition, when the intermittent operation 6 and the operation link 25 are placed in a vertical state, the middle die 4 is completely elastically adhered to the upper die 3 by the fully folded link 8, and the lower die-shaped portion 1-1. ), The material is compressed and the material is heated through the hot water heating pipe built into the lower mold 1, and the material is released and molded into the shape of the mold.

When the hydraulic cylinder 5 is advanced again after the molding is completed, the upper die 3 is separated from the lower die 1 by the operation period 6, and the molded article 16 is taken out together with the middle die 4. It is done.

At this time, the linkage (8) is rotated to be lowered by the self-weight of the tensioning spring (14) and the middle die (4) loosened, the middle die (4) is separated from the upper die (3), and the molding (16) is 4) Push it off and separate.

This design reduces the defect rate of the product to less than 1%, improves work efficiency, prolongs the life of mold equipment and prevents environmental pollution. do.

Claims (1)

The operation section 6, which is installed symmetrically on both sides of the carrier trolley 2, is rotated about the rotational shaft 29 as the cylinder 5 moves forward and backward, and both ends of the operation link 25 are operated respectively. A driving unit 30 coupled to the upper end of the liver 6 and the upper part of the upper frame 12 so as to be rotatable; The upper fixing plate 7-1 is fixed to the hollow 9 of the upper mold 3 attached to the lower part of the upper frame 12, attached to the upper surface of the lower fixing plate 7 middle mold 4, and has a plurality of links. (8) a rotating part 20 having both ends rotatably coupled to the upper and lower fixing plates 7-1 and 7, respectively; The lower end of the tension spring 14 is fixed to the rear side of the carrier bogie 2, the wire 11 is wound around the guide (13, 13-1) installed on the upper portion of the upper frame 12, the lower end thereof The three-stage mold type automatic separating device, characterized in that the upper end is composed of an elastic support part 31 connected to the lower fixing plate 7 through the hollow 9 while being connected to the upper end of the tension spring 14. .