KR102078114B1 - Mold for making stick glue - Google Patents

Abstract

The present invention relates to a molding frame for producing solid glue. More specifically, the present invention is able to: extend the life span of a product semi-permanently without any concern of the deformation or distortion of a size even under repetitive heating and cooling; and prevent an operation error of a device due to the adhesion of molding frames to each other by glue components in a work process. The molding frame (10) of the present invention has a central support plate (14) between outer support plates (15) in both sides of a longitudinal direction while liquid glue fills a solid glue container (1) through holes (12) penetrated so that the solid glue container (1) is connected to a connection hole (13) in the lower surface of a glue accommodation unit (11) recessed in the center with a synthetic resin material and then, the solid glue container (1) filled with the liquid glue moves along a guide rail (2). Both side walls of the glue accommodation unit (11) are formed with the upper parts of an inner wall (21) and an outer wall (22) closed and thus, a heat dissipation hole (23) is formed to be open toward a bottom unit therebetween. The outer wall (22) is formed to be concave toward the inside from the outer support plate (15) so that a gap unit (24) is formed therebetween when moving along the guide rail (2) in a connected manner.

Description

Mold for making solid glue {Mold for making stick glue}

The present invention relates to a mold for producing a solid pool, and more particularly, even if the heat and cooling is repeated, there is no fear of size deformation or torsion, thereby prolonging the product life semipermanently. It is invented to prevent the case in which the mold is bonded to each other to cause an operation error of the device.

Solid glue is used to inject solid glue into the case and the user rotates the rotary operation part to adjust the protruding length of the glue. .

Solid pools use a mold that is moved along an automated process for mass production.

That is, as shown in FIG. 1, each of the empty solid pool containers is inserted into the bottom of the molding mold having a plurality of holes vertically and horizontally formed from the synthetic resin material, and a high temperature liquid pool raw material in which a plurality of pool components are mixed is formed in the following process. It will be put in the upper part of the frame.

Then, the mold is moved along the rail filled with cooling water to transform the liquid paste into a solid state, and the glue remaining on the upper surface of the mold is removed by a cutter, and then the containers are separated from the mold. The cover is covered, and the manufacturing is completed by packing in boxes according to the desired number.

Conventionally, the mold 10 is made of a synthetic resin material in a rectangular frame shape as a whole to concave the pool receiving portion 11 concave in the upper portion so that the liquid pool can be accommodated.

In addition, the hollow receiving pools 1 are connected to the pool accommodating part 11 so that the holes 12 are vertically and horizontally drilled to produce a plurality of solid pools at the same time. Each of the fitting grooves can be molded.

In addition, the outer support plate 15 is formed at both ends and the central support plate 14 is integrally formed at both ends so that the outer side of the pool accommodating part 11 can be caught by a robot mechanism when moving to the next step. do.

On the other hand, both side walls surrounding the pool accommodating portion 11 was used to be made to be connected in a straight line from each corner of the entire molding frame when viewed in a planar cross section (see Figs. 1 and 2).

Patent Document: Domestic Patent Registration No. 10-1878964 (Registration Date July 10, 2018) Domestic Utility Model Registration No. 20-0477835 (Registration Date July 21, 2015)

Such a conventional solid pool molding mold, so that a plurality of the continuous pool in contact with each other to move along the manufacturing line and the hot liquid pool is supplied to the inside of the pool container connected to the bottom portion in the state filled with the pool receiving portion (11) Then, the process of passing through the cooling water tank for cooling it is repeated. (See FIG. 2).

Therefore, the solid pool molding mold has a problem that frequently needs to be replaced with a new one by twisting due to heat deformation in the process of repeated heating and cooling.

That is, the longitudinal wall surrounding the pool receiving portion 11 has almost no thermal deformation since the three outer support plates 15 and the central support plate 14 are connected at the center and both ends.

However, since both sidewalls are molded only with a certain thickness of flesh as shown in the cross-sectional view of FIG. 3, heat deformation and torsion are severely caused during repeated heating and cooling.

In addition, the mold 10 is in the manufacturing process to be moved, the grass overflow, or the outer surface of the side wall can not but be buried.

Conventionally, the mold 10 is formed in a straight line on both side walls, the plurality of mold 10 is moved in the process of moving the plurality of molds 10 by the guide rail 2, so there is no gap between the side portions without the contact each other by the pool Bonding often occurs.

When the mold 10 is bonded by the glue component, an error occurs in the process of holding the support plates 14 and 15 using a robot mechanism or the like to move to the next process, so that the entire machine must be stopped and restarted after repair. There were problems such as decreased work efficiency and a lot of economic losses.

The present invention is to solve such a problem, to provide a solid pool molding frame excellent in durability and commercial properties by preventing the distortion caused by thermal deformation.

Another object of the present invention is to provide a solid pool mold to prevent the occurrence of errors and to improve productivity by providing an economic benefit by blocking in advance the case of being bonded to each other by the pool ingredients in the process of moving along the manufacturing line There is.

In order to achieve this object, the configuration of the present invention is a hole which is drilled so as to communicate with the connection hole 13 to which the solid pool container 1 is connected to the bottom of the pool accommodating portion 11 which is recessed in the central portion with a synthetic resin material. Filling of the liquid pool into the solid pool container (1) through the (12) and is moved along the guide rail (2), the molding frame each provided with a central support plate 14 between the outer support plate 15 on both sides in the longitudinal direction ( 10),

Both sidewalls of the pool accommodating part 11 form a heat discharging hole 23 extending toward the bottom part between the inner wall 21 and the upper part of the outer wall 22 while being blocked.

The outer wall 22 is formed so as to be formed concavely inwardly from the outer support plate 15 to form a gap 24 therebetween when it is connected and moved along the guide rail 2.

According to the present invention, both side walls surrounding the pool accommodating portion 11 is formed into a double cross-sectional structure of the inner wall 21 and the outer wall 22, while the heat discharge hole 23 is provided therebetween, increasing the cross-sectional coefficient. Due to the strength is reinforced.

In addition, when hot liquid pool is supplied, the area of contact with the outside air is increased while discharging the heat, thereby preventing torsional damage due to thermal deformation.

In addition, in the manufacturing process, the case of being bonded by the pool between the side walls in the process of moving along the guide rail 2 to prevent the time-economic loss due to the operation error.

Therefore, durability and marketability can be significantly improved, and there is an effect of providing economic benefits.

1 is a perspective view showing the configuration of a conventional solid pool mold.
Figure 2 is a plan view showing a state in which the conventional mold is moved along the guide rail.
Figure 3 is a cross-sectional view of a conventional mold.
Figure 4 is a perspective view showing the configuration of a solid pool mold of the present invention.
Figure 5 is a plan view showing a state in which the molding die of the present invention is moved along the guide rail.
Figure 6 is a longitudinal cross-sectional view showing a state in which the solid pool containers are connected to the molding die of the present invention.
Figure 7 is a cross-sectional view showing a state in which the solid pool container is connected to the molding die of the present invention.
8 is a bottom view of the present invention.

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

As shown in the figure, the solid pool mold 10 of the present invention is moved along an automated process for mass production of solid pool, and is molded into a substantially rectangular frame shape with synthetic resin material.

The pool receiving portion 11 is recessed in the center upper portion of the mold 10, and the holes 12 are spaced vertically and horizontally by the outer tooth of the pool receiving portion 11, and the connection hole is formed from the bottom surface. (13) are drilled in the same position as the holes (12) to be in communication.

And, the central support plate 14 is provided between the outer support plates 15 on both sides in the longitudinal direction, respectively, so that the robot mechanism can hold the position of the support plates 14 and 15 to move to the next desired process.

When the mold 10 is supplied with a liquid pool heated at a high temperature to the pool accommodating portion 11 in a state where the hollow solid pool container 1 connected to the connection holes 13 is connected, Through the 12 and the connection hole 13, the pool is gradually filled into the solid pool container 1.

This pool component maintains a liquid state at high temperature and a solid state at room temperature.

Therefore, in the next step of supplying the high-temperature liquid pool, the molds 10 are moved along the guide rails 2 in a state where the cooling tanks are filled with cooling water for cooling.

In the cooling process, a plurality of water tanks filled with cooling water in the longitudinal direction are installed such that the water surface is maintained so that the solid pool container 1 is locked between the guide rails 2 and connected to the bottom of the forming mold 10. The solid pool containers 1 are slowly moved in the state of being contained in the water tank to be transformed into solid pools.

In the following process, the upper surface of the pool receiving portion 11 of the mold 10 is scraped by using a cutter so that the solid paste is filled in the container 1 at a constant height, and then the containers 1 are removed from the mold 10. It is common to separate, cover and then wrap with wrapping paper to complete the manufacture.

The present invention prevents torsional damage caused by heat deformation during the process of repeating heating and cooling by contacting the high temperature liquid pool with repeated forming molds 10, and when the side portion is moved along the guide rail 2, It is to prevent the operation error of the automation device by preventing the glue from sticking to each other.

That is, the heat discharging hole 23 is opened so that both sidewalls of the pool accommodating part 11 are opened in a double cross-sectional structure of the inner wall 21 and the outer wall 22 so that the upper part is blocked and opened toward the bottom part therebetween. Molding. (Figure 7)

Thus, since the side wall has a double cross-sectional structure with the inner side wall 21 and the outer side wall 22 having a "cross-section" cross-sectional shape, a cross-sectional coefficient is greatly improved and strength is excellent.

Since the heat discharging hole 23 is opened between the inner wall 21 and the outer wall 22, the heat is discharged to the outside when the hot liquid pool is supplied and heated.

In addition, by greatly improving the area in contact with the outside air in addition to the heat discharge, it is possible to cool the heat more quickly, there is an effect of improving the product life due to heat deformation prevention.

On the other hand, the outer wall 22 on both sides formed in the mold 10 of the present invention is formed to be concave with a constant width toward the inner side from the outer support plate 15.

Therefore, as shown in FIG. 5, when the molds 10 are moved along the guide rails 2 in a connected state, a gap 24 is formed between the molds 10 on both sides so that the grass overflows during the manufacturing process. Therefore, even if the glue is in contact with the outer surface of the outer wall 22, it is possible to prevent the mold 10 is bonded to each other.

When the two molds 10 connected to each other are bonded to each other, an error that the bonded molds 10 are all moved together when holding and moving the supporting plates 14 and 15 of one mold 10 using a robotic mechanism. Can be generated, the present invention can completely prevent the cause of the failure of such an automated device.

The present invention described above is not limited to the above-described embodiments and drawings, and various permutations, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be clear to those who have

1-solid pool container 2-guide rail
10-mold 11-pool receiving part
12-hole 13-connection hole
14-center support plate 15-outer support plate
21-inner wall 22-outer wall
23-Heat exhaust hole 24-Crevice

Claims (1)

To the solid pool container 1 through the holes 12 which are connected to the connection hole 13 to which the solid pool container 1 is connected to the bottom of the pool accommodating portion 11 which is recessed in the center portion of the synthetic resin material. In the mold 10 is filled with a liquid pool is moved along the guide rail (2), each of which is provided with a central support plate 14 between the outer support plate 15 on both sides in the longitudinal direction,
Both side walls of the pool accommodating part 11 form heat dissipation holes 23 extending toward the bottom part between the inner wall 21 and the upper part of the outer wall 22 while being blocked.
The outer wall 22 is formed in a concave shape from the outer support plate 15 to the inside to form a gap for forming a gap 24 therebetween when it is connected and moved along the guide rail (2). frame.

Images