KR102153074B1 - The injection mold for a pallet manufacturing of hexagon structure - Google Patents

Abstract

The present invention relates to a mold apparatus for manufacturing a pallet having a hexagonal structure. The mold apparatus for manufacturing a pallet of a hexagonal structure according to an embodiment of the present invention is an outer body constituting the pallet of the hexagonal structure so that a pallet of a hexagonal structure integrated with a hexagonal structure capable of constituting a low weight and high rigidity can be injection molded. A side mold disposed on each side of the side and configured to be divided to slide in a horizontal direction; A first hexagonal structure injection mold disposed above the outer body and having an upper core disposed in a hexagonal structure protruding downward so that an injection molding space corresponding to the hexagonal structure is provided; And a second hexagon structure injection mold disposed at a lower portion of the outer body by protruding upwardly from the lower core disposed in a hexagonal structure so that the hexagon structure can be injection-molded through the mold with the upper core. Therefore, it is possible to easily manufacture a pallet having a hexagonal structure, and it is possible to effectively reduce the amount of use of synthetic resin, a material required for manufacturing.

Description

Hexagon-structured pallet manufacturing mold equipment {THE INJECTION MOLD FOR A PALLET MANUFACTURING OF HEXAGON STRUCTURE}

The present invention relates to a mold apparatus for manufacturing a pallet. More specifically, it relates to a mold apparatus for injection molding a pallet used as a support for supporting and supporting a cargo when unloading a cargo.

Pallets are a kind of pedestal used for unloading work using a forklift or a handcar (bogie), and have a uniform vertical size so that they can be stacked in units of a certain quantity in order to increase the efficiency of unloading through standardization of cargo.

Such pallets are manufactured using wood or synthetic resin, but there is a problem of quarantine problems between countries and damage to products due to insect parasites in the wood, so pallets made of synthetic resin are generally

The synthetic resin pallet integrally comprises an upper panel and a lower panel with a grid-shaped space formed therein, while forming an insertion space between the upper panel and the lower panel into which the fork of the forklift or the fork is inserted. And composed.

Here, the pallet made of synthetic resin is manufactured by a method of injection molding through a mold apparatus referred to as an injection mold or a molding apparatus, and this will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a mold apparatus for manufacturing a pallet according to the prior art, in which an upper fastening plate 102 and a lower fastening plate 104 are fastened to an injection machine to form a pallet used for a forklift or a handcar, and the upper part The upper disc 106 and the lower disc 108 are fixedly installed on the fastening plate 102 and the lower fastening plate 104, respectively, the resin supply unit 110 assembled to the upper fastening plate 102, and the upper disc 106 ) And an upper core 112 and a lower core 114 fixed to the lower disc 108, respectively.

In addition, a slide connector 120 installed on the lower disk 108 and vertically elevating vertically to form an opening and a peripheral inclined surface at the bottom of the pallet, the slide connector 120 and the lower part when the slide connector 120 is elevated Insert core 130 comprising a plurality of inner sliders 220, which are horizontally slid in all directions along a guide rail formed on the disk 108, and a slide connector 120 of the insert core 130. It includes an elevating means 230 for lifting up and down and a slide core 140 installed between the upper core 112 and the lower core 114 to form a pallet.

Here, the slide core 140 is installed to be slidable to the left and right of the lower disc 108 by the first hydraulic cylinder 160 connected to the slide block 150, and is installed and operated asymmetrically on the left and right sides of the drawing. have.

Therefore, the pallet manufacturing mold according to the prior art can manufacture pallets used in forklifts or handcars in large quantities, but the pallet manufactured through such a pallet manufacturing mold device is not only heavy in its own weight, but also synthetic resin required for injection molding. There is a problem that the amount of consumption of the product itself is excessively consumed.

Korean Patent Application Publication No. 10-2011-0045336

It is an object of the present invention to provide a mold apparatus for manufacturing a pallet having a hexagonal structure that enables easy injection molding of a pallet having a hexagonal structure capable of constructing a low weight and high rigidity.

In order to solve the above problem,

The mold apparatus for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention includes a rectangular upper plate made of synthetic resin, a corner pillar integrally formed at each vertex of the upper plate and protruding downward and having a first accommodation space inside, An outer main body including an intermediate pillar disposed between the corner pillars and integrally formed with an upper plate and having a second accommodation space formed therein, and an insertion space formed between the corner pillar and the intermediate pillar;

Each of the first and second accommodation spaces is integrally formed with the outer body, and a first core formed in a hexagonal plate shape and arranged in a horizontal line, and a hexagonal upper structure are arranged by interconnecting each vertex of the first core. A first connection part to be formed, a second core formed in a hexagonal plate shape and arranged diagonally apart from the lower part of the first core, and a hexagonal lower structure by interconnecting each vertex of the second core A hexagonal structure including a second connecting portion to form, a support for connecting opposite edges of the first and second cores in a diagonal direction, and a third connecting portion for connecting the first and second connecting portions to each other;

As a mold apparatus for injection molding a pallet of a hexagonal structure comprising a,

A side mold disposed on each side of the outer body and configured to be divided to slide in a horizontal direction;

A first hexagonal structure injection mold disposed above the outer body and having an upper core disposed in a hexagonal structure protruding downward so that an injection molding space corresponding to the hexagonal structure is provided; And

A second hexagonal structure injection mold disposed under the outer body by protruding upwardly from the lower core disposed in a hexagonal structure so that the hexagonal structure can be injection-molded through the upper core;

It may include.

In addition, in the mold apparatus for manufacturing a pallet having a hexagon structure according to an embodiment of the present invention, the pallet having a hexagon structure has a first inner space formed inside the upper plate, and a second inner space corresponding to the first inner space A lower plate formed inside the upper plate and integrally formed with the upper plate through the corner pillar and the middle pillar; And

An inner body disposed at the center of the first and second inner spaces and including a central pillar having a third receiving space formed therein, and a connection panel connecting the central pillar and each of the intermediate pillars;

It further includes,

A hexagonal structure is formed in the first inner space and the third receiving space through the first and second hexagonal structure injection molds, so that it may be integrated with a pallet having a hexagonal structure.

In addition, in the mold apparatus for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention, the side mold is divided and disposed on each side of the outer body, and the pin is made to slide in the horizontal direction through the angular pin. Holes can be formed.

In addition, in the mold apparatus for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention, the side mold includes the upper plate so that the ribs and passages are alternately arranged in a grid shape on each side of the upper plate constituting the outer body. A slide core protruding at equal intervals toward and may be formed on one side facing the side of the upper plate.

In addition, in the mold apparatus for manufacturing a pallet having a hexagonal structure according to an exemplary embodiment of the present invention, the side mold may have a tapered molding portion formed at a lower portion of one side on which the slide core is formed.

This solution will become more apparent from the detailed contents for carrying out the following invention based on the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary meaning, and the inventor should appropriately define the concept of terms in order to explain his own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be.

According to an embodiment of the present invention, a hexagonal structure is integrally configured in each space of a pallet made of synthetic resin, so that a pallet having a low weight and high rigidity hexagonal structure can be easily manufactured, as well as the injection molding of the pallet. It can effectively reduce the amount of synthetic resin used.

1 is a cross-sectional view showing a mold apparatus for manufacturing a pallet according to the prior art.
Figure 2 is a perspective view showing a mold apparatus for manufacturing a pallet having a hexagon structure according to an embodiment of the present invention.
3 is a perspective view showing an enlarged main part of the mold apparatus for manufacturing a pallet having a hexagon structure according to FIG. 2.
4A and 4B are cross-sectional views showing an enlarged main part of the mold apparatus for manufacturing a pallet having a hexagon structure according to FIG. 2.
5 to 6 are perspective views showing a pallet of a hexagonal structure manufactured through a mold apparatus for manufacturing a pallet of a hexagonal structure according to an embodiment of the present invention.
FIG. 7 is a perspective view showing a partially removed hexagonal structure from the pallet of the hexagonal structure according to FIG. 6.
8 is a plan view showing the pallet of the hexagonal structure according to FIG. 6 when viewed from above.
9 is a perspective view showing the pallet of the hexagonal structure according to FIG. 8 cut along the line A-A'.
10 is an enlarged perspective view showing a main part of a mold apparatus for manufacturing a pallet having a hexagon structure according to an embodiment of the present invention.
11 is a cross-sectional view showing a mold apparatus for manufacturing a pallet having a hexagonal structure according to FIG. 10.
12 is a perspective view showing a pallet of a hexagonal structure manufactured through a mold apparatus for manufacturing a pallet of a hexagonal structure as viewed from below according to an embodiment of the present invention.
13 is a perspective view showing the pallet of the hexagonal structure according to FIG. 8 cut along the line B-B'.

Specific aspects and specific technical features of the present invention will become more apparent from the following specific content and one embodiment associated with the accompanying drawings. In the present specification, in adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, in describing the constituent elements of the present invention, terms such as first, second, A, B, (a), (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected or connected to that other component, but another component between each component It should be understood that elements may be “connected”, “coupled” or “connected”.

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

2 is a perspective view showing a mold apparatus 2 for manufacturing a pallet having a hexagon structure according to an embodiment of the present invention, in which a side mold 3 is dividedly disposed on the side of the pallet 1 having a hexagon structure, and the hexagon It shows a coupling relationship in which the first and second hexagonal structure injection molds 5 and 6 are arranged at the upper and lower portions of the pallet 1 of the structure.

FIG. 3 is an enlarged perspective view showing a main part of the mold apparatus 2 for manufacturing a pallet having a hexagon structure according to FIG. 2, and a first hexagon structure injection mold in which an upper core 5b disposed in a hexagon structure protrudes downward. (5) It shows a second hexagonal structure injection mold 6 in which the lower core 6b arranged in a hexagonal structure corresponding to the upper core 5b protrudes upward.

4A and 4B are enlarged and cross-sectional views of the main portions of the mold apparatus 2 for manufacturing a pallet having a hexagon structure according to FIG. 2, and the first and second hexagonal structure injection molds 5 )(6) and the hexagon structure 30 injection-molded through the first and second hexagon structure injection molds 5 and 6 are shown by opening the first and second hexagon structure injection molds 5 and 6 have.

5 to 6 are perspective views showing a pallet 1 of a hexagonal structure manufactured through a mold apparatus 2 for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention, as shown in a perspective view, with a corner column 12 and a middle column ( 13) shows a pallet 1 of a hexagonal structure in which a hexagonal structure 30 is integrally formed in each space of the outer body 10 and the inner body 20 formed integrally so that the insertion space 15 is formed. .

7 is a perspective view showing a perspective view of a hexagonal structure partially removed from the pallet 1 of the hexagonal structure according to FIG. 6, and the first internal space 11a and the first, second, and third receiving spaces 12a, 13a) ( In 21a), the hexagon structure 30 is removed to show the internal structure.

FIG. 8 is a plan view showing the pallet 1 of the hexagonal structure according to FIG. 6 when viewed from above, the first inner space 11a and the first, second, and third receiving spaces 12a ( 13a) shows the outer body 10 in which the hexagonal structure 30 is disposed in (21a).

9 is a perspective view showing a pallet 1 having a hexagonal structure according to FIG. 8 cut along the line A-A', and a first core 31 in a hexagonal plate shape arranged in a horizontal line through a first connection part 33 After connecting each vertex of and connecting each vertex of the hexagonal plate-shaped second core 34 arranged in a horizontal line through the second connection part 36, the first and second cores 31 It shows that the hexagonal structure 30 formed by connecting the) 34 in the diagonal direction is formed in the second accommodation space 13a.

As shown in Figs. 2 to 4, the mold apparatus 2 for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention is disposed on each side of the pallet 1 having a hexagonal structure, and is horizontally through, for example, an angular pin 4 Side mold (3) configured to be slidable in the direction and disposed on the upper and lower sides of the hexagonal pallet (1), respectively, and when injection molding of the hexagonal pallet (1), the hexagonal structure (30) is integrally injected It includes the first and second hexagonal structure injection molds 5 and 6 to be molded.

Here, before describing in detail the mold apparatus 2 for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention, a pallet 1 having a hexagonal structure in order to facilitate understanding and at the same time explain an embodiment of the present invention in detail. ) Will be explained first.

As shown in Figs. 5 to 9, the pallet 1 having a hexagonal structure includes an outer body 10. The outer body 10 is injection-molded through a conventional mold apparatus widely known in the art, including a mold apparatus for manufacturing a pallet (see FIG. 1) specifically disclosed in the technology behind the invention.

Specifically, the configuration is described, the outer body 10 is formed integrally with the top plate 11 formed of synthetic resin, each vertex of the top plate 11, is formed to protrude downward, and receives a first inside. It includes a corner pillar 12 in which the space 12a is formed and an intermediate pillar 13 formed between the corner pillars 12.

The upper plate 11 is formed to have a thickness sufficient to support and support the cargo, for example, as a square plate having the same width and length, and a first internal space 11a may be formed inside.

Here, the side of the top plate 11 is a grid-shaped reinforcement structure with ribs and passages 11b composed of a so-called private structure (see Fig. 5) or formed through a slide core (see Fig. 6). It can be composed of.

That is, the upper plate 11 including the ribs 11c and the passages 11b may have a supporting force to support and support the cargo through a grid-type reinforcing structure. Instead of the grid-type reinforcing structure, the upper plate 11 A reinforcement structure for supporting and supporting the cargo can be configured by forming the hexagonal structure 30 in ).

The corner pillar 12 is formed integrally with each vertex of the upper plate 11 by forming a first receiving space 12a formed in, for example, a circular or rectangular cross section, and protruding downward. Here, in an embodiment of the present invention, it will be described in advance that the description is based on the square corner pillars 12.

The middle pillar 13 formed between the corner pillars 12 is formed integrally with the upper plate 11 by forming a second accommodation space 13a inside, and the corner pillar 12 and the middle pillar 13 In between, for example, an insertion space 15 into which a fork of a forklift is inserted is formed.

That is, the outer body 10 according to an embodiment of the present invention has four corner pillars 12 and four intermediate pillars 13 integrally formed on the upper plate 11, and the corner pillar 12 and the intermediate pillar (13) It is composed of an aspect in which eight insertion spaces 15 are formed, and the lower portion of the insertion space 15 may be finished (see FIG. 5).

Here, the outer main body 10 is disposed between the corner pillars 12 and formed integrally with the upper plate 11, and the middle pillar 13 and the middle pillar 13 having a second receiving space 13a formed inside And a lower plate 14 formed integrally with the upper plate 11 through the corner pillar 12 and having a second inner space 14a corresponding to the first inner space 11a formed therein.

Like the upper plate 11, the lower plate 14 is, for example, a square plate having the same width and length, but the lower plate 14 may be added or deleted according to the configuration of the pallet 1 having a hexagonal structure. This is optional.

In addition, the pallet 1 having a hexagonal structure according to an embodiment of the present invention is integrally formed, and an insertion space 15 into which, for example, a fork of a forklift or a body of a handcar is inserted between the outer body 10 It may include an inner body 20 to form a.

The inner body 20 is a component disposed in the center of the first and second inner spaces 11a and 14a and integrally connected to the four intermediate pillars 13, wherein the first and second inner spaces 11a It includes a central pillar 21 disposed in the center of (14a) and a connection panel 22 connecting the central pillar 21 to the intermediate pillar 13.

The central pillar 21 has, for example, a third receiving space 21a having a circular or square cross section formed inside. Here, in an embodiment of the present invention, it will be described in advance that the description is based on the square central pillar 21.

The connection panel 22 connects the central pillar 21 and the intermediate pillar 13 so that the inner main body 20 is integrally formed when the outer main body 10 is manufactured. This connection panel 22 may be implemented by a method of connecting the upper and lower portions of the central pillar 21 and the middle pillar 13 in order to reduce the amount of material used, and for this purpose, the upper connection panel 22a and the lower connection panel It can be configured separately as (22b).

That is, the inner body 20 according to an embodiment of the present invention is configured in an aspect in which four or eight connection panels 22 are arranged in a cross shape on one central pillar 21.

Therefore, according to an embodiment of the present invention, the use of synthetic resin as a material can be reduced while securing the structural rigidity of the hexagonal pallet 1 through the outer body 10 and the inner body 20 formed integrally. Effective in terms of savings.

Meanwhile, the pallet 1 having a hexagonal structure according to an embodiment of the present invention includes a hexagonal structure 30 integrally formed in each space formed in the outer body 10 and the inner body 20.

The hexagonal structure 30 is formed integrally with each of the first, second, and third receiving spaces 12a, 13a, 21a and the first inner space 11a of the outer main body 10, for example, so that the outer main body ( 10) and the inner body 20, respectively, by being integrated, the pallet 1 having a low weight and high rigidity hexagonal structure is constituted.

The hexagonal structure 30 is formed in the shape of a hexagonal plate and arranged in a hexagonal upper structure 32 by interconnecting the first core 31 arranged in a horizontal line and the vertices of the first core 31. It includes 1 connection part 33.

In addition, the second core 34, which is disposed diagonally apart from the lower part of the first core 31 and is formed in a hexagonal plate shape and arranged in a horizontal line, and each vertex of the second core 34 are interconnected to each other to form a hexagonal shape. And a second connection part 36 for arranging and forming the lower structure 35 and a support 37 for connecting opposite edges of the first and second cores 31 and 34 in a diagonal direction.

The first and second cores 31 and 34 are formed to have substantially the same shape, are spaced apart vertically, and disposed in a diagonal direction. In addition, the first and second connecting portions 33 and 36 formed at each vertex are connected to the vertices of the other cores arranged in a horizontal line.

Therefore, the hexagonal structure 30 according to an embodiment of the present invention is a basic structure of the hexagonal structure 30 through the first and second cores 31 and 34 and the first and second connection parts 33 and 36. The hexagonal upper structure 32 and the lower structure 35 are configured, and the hexagonal structure 30 is configured by arranging the upper structure 32 and the lower structure 35 on a horizontal plane, respectively.

Here, the upper structure 32 and the lower structure 35 form a weight reduction space that reduces the weight of the pallet 1 having a hexagonal structure. Explaining this based on the upper structure 32, the upper structure 32 has a total of 6 weight reduction spaces formed through the first connection part 33, and thus, the hexagonal structure 30 is integrally formed. There is an effect of reducing the overall weight of the pallet 1 of the structure.

The support 37 connecting the upper structure 32 and the lower structure 35 to each other generates a support force for supporting the cargo loaded on the upper part of the outer body 10 and at the same time induces a reduction in weight. have.

That is, the support 37 connects the edges of the first and second cores 31 and 34 facing each other, for example, the lower edge of the first core 31 and the upper edge of the second core 34 in a diagonal direction. Thus, from the side, by being formed in a triangular pyramid shape, it is possible to generate a supporting force to support the cargo while reducing the amount of synthetic resin used as a material.

In addition, the hexagonal structure 30 according to an embodiment of the present invention includes a third connecting portion 38 for interconnecting the first and second connecting portions 33 and 36.

That is, the third connecting portion 38 is formed in a vertical direction, and both ends thereof are connected to the first and second connecting portions 33 and 36, respectively, so that the support force for supporting the cargo can be effectively increased. In addition, the third connection part 38 eliminates the undercut in the mold apparatus, and prevents undercut that causes difficulty in ejecting the hexagon structure 30 from the mold apparatus and improves the flow of the resin. Is composed.

Here, the hexagonal structure 30 is integrated by being connected to the outer body 10 and the inner body 20 respectively through the first and second cores 31 and 34 or the first and second connection parts 33 and 36, Through this, for example, it can be manufactured by injection molding using a mold device, and in order to improve the flow of the resin during injection molding, and to easily take out the injection-molded hexagonal structure 30 from the mold device, the third connection part 38 ) Is composed.

Therefore, according to an embodiment of the present invention, the first, second, and third receiving spaces 12a, 13a, 21a and the first inner space 11a are provided with the hexagonal structure 30 that has rigidity while reducing the weight. Each is integrally formed in the outer body 10 and the inner body 20, respectively, thereby providing a pallet 1 having a low weight and high rigidity hexagonal structure.

As shown in FIGS. 2 to 7, the hexagonal structure 30 according to an embodiment of the present invention is injection-molded through a mold apparatus 2 including the first and second hexagonal structure injection molds 5 and 6 , It is injection-molded simultaneously with the injection molding of the pallet 1 of the hexagonal structure, and is integrated with the pallet 1 of the hexagonal structure.

To this end, the first and second hexagonal structure injection molds 5 and 6 are the upper structure 32 and the lower structure 35 constituting the hexagonal structure 30 so as to correspond to the hexagonal structure 30, and the upper structure An injection molding space (Cavity) formed substantially the same as the structure of the support 37 and the third connection part 38 interconnecting the 32 and the lower structure 35 is provided and provided, and constitutes the injection molding space. The upper core 5b and the lower core 6b are protruded to face each other and provided.

This will be described with reference to the first accommodation space 12a formed in the corner pillar 12 on the right side of the drawing as follows.

However, this is limited for ease of explanation and understanding, as well as the first accommodation space 12a formed inside each corner post 12 through the first and second hexagonal structure injection molds 5 and 6 , A second receiving space 13a formed inside the middle pillar 13, a third receiving space 21a formed inside the center pillar 21, and a first internal space formed inside the upper plate 11 It should be noted in advance that it is not excluded that the hexagonal structure 30 is integrally formed in (11a).

That is, by providing the first and second hexagonal structure injection molds 5 and 6 in a shape corresponding to each of the second and third receiving spaces 13a and 21a and the first inner space 11a, the second and 3 In the receiving space (13a) (21a) and the first inner space (11a) it is possible to integrally injection-form the hexagonal structure (30).

In addition, as described above, the hexagonal structure 30 may be integrally formed on the top plate 11 in place of the grid-shaped reinforcement structure composed of the ribs 11c and the passage 11b, and the connection panel 22 The hexagonal structure 30 may be applied.

However, since all these are described in detail only in the same language repetition, the following detailed description will be described based on the first accommodation space 12a formed in the right corner pillar 12 in the drawing. In addition, it should be noted in advance that the injection molding space is hereinafter referred to as a first injection molding space 5a and a second injection molding space 6a.

When the first hexagonal structure injection mold 5 is protruding downward, each side surface is made of a diagonal direction, a linear direction, and a combination thereof, and an upper core 5b having a polygonal cross section is viewed from below. It is arranged in a hexagonal structure with a triangle as a basic unit, and a first injection molding space (5a) corresponding to the hexagonal structure 30 is provided between the upper cores 5b and can be lifted on the upper part of the pallet 1 of the hexagonal structure. Arranged in a way.

That is, the first hexagonal structure injection mold 5 is filled with a molten resin in the first injection molding space 5a provided between the upper core 5b, so that the upper structure 32 and the lower structure 35, and the upper structure The upper core 5b is processed and placed in a hexagonal structure so that the hexagonal structure 30 composed of the support 37 and the third connection 38 that interconnects the 32 and the lower structure 35 can be injection molded. When the injection molding of the hexagonal structure 30 is completed through mold opening, it is installed in the mold apparatus 2 to be separated from the pallet 1 of the hexagonal structure through mold opening.

The second hexagonal structure injection mold 6 is formed to protrude upward, and is made of a diagonal direction, a linear direction, and a combination thereof so that each side surface corresponds to the upper core 5b, and the cross section is made of a polygon. When viewed from above, the core 6b, which injection-molds the hexagonal structure 30 through the matching with (5b), is arranged in a hexagonal structure with a triangle as a basic unit. In addition, a second injection molding space 6a corresponding to the hexagonal structure 30 is provided between the lower cores 6b and is disposed to be elevating under the pallet 1 having a hexagonal structure.

That is, in the second hexagonal structure injection mold 6, when the molten resin is molded with the first hexagonal structure injection mold 5, the molten resin is filled in the second injection molding space 6a provided between the lower core 6b and the upper structure ( 32) and the lower structure (35), the upper structure (32) and the lower structure (35) to mutually connect the support 37 and the third connection part 38 composed of the hexagonal structure 30 to be injection-molded. The core 6b is processed and placed in a hexagonal structure.

Here, the second hexagonal structure injection mold 6 is also separated from the hexagonal pallet 1 when the injection molding of the hexagonal structure 30 is completed and the mold device 2 is opened. ) Is installed.

Therefore, according to an embodiment of the present invention, when the first and second hexagonal structure injection molds 5 and 6 are installed in the mold apparatus 2, when injection molding the pallet 1 of the hexagonal structure, a low weight and high rigidity hexagon By allowing the structure 30 to be injection-molded together, the hexagonal structure 30 and the pallet 1 of the hexagonal structure can be easily integrally formed, and the amount of synthetic resin required for injection molding can be effectively reduced.

10 is an enlarged perspective view showing a main part of a mold apparatus for manufacturing a pallet having a hexagonal structure according to an embodiment of the present invention, in which a pin hole 3a is formed for fastening of the angular pin 4, and is formed on one side thereof. The side mold 3 in which the slide core 3b is formed is shown.

FIG. 11 is a cross-sectional view showing the mold apparatus for manufacturing a pallet having a hexagonal structure according to FIG. 10, and shows a configuration in which a tapered molding part 3c is formed at the lower end of one side of the side mold 3 in which the slide core 3b is formed. Is showing.

FIG. 12 is a perspective view showing a pallet 1 of a hexagonal structure manufactured through a mold apparatus for manufacturing a pallet of a hexagonal structure according to an embodiment of the present invention as viewed from below, which constitutes the outer body 10 It shows a pallet 1 of a hexagonal structure in which the hexagonal structure 30 is integrally formed in the first inner space 11a and the first, second, and third receiving spaces 12a, 13a, and 21a formed inside each column. Is showing.

13 is a perspective view showing a pallet 1 having a hexagonal structure according to FIG. 8 by cutting a line B-B', and a first core 31 in the shape of a hexagonal plate arranged in a horizontal line through the first connection part 33 ) By connecting each vertex of the hexagonal upper structure 32 is formed, and connecting each vertex of the hexagonal plate-shaped second core 34 arranged in a horizontal line through the second connection part 36 to the lower side of the hexagon It is shown that the hexagonal structure 30 in which the structures 35 are arranged is formed in the first inner space 11a.

As shown in Figs. 10 to 13, the pallet 1 of a hexagonal structure manufactured through a mold apparatus for manufacturing a pallet of a hexagonal structure according to an embodiment of the present invention has a grid-shaped reinforcement structure for constituting low weight and high rigidity. Can be provided.

To this end, the outer body 10 constituting the pallet 1 of the hexagonal structure may be alternately formed with ribs 11c and passages 11b on the upper plate 11. That is, it is possible to provide a grid-like reinforcement structure on the upper plate 11 of a so-called private structure (see FIG. 5) without the ribs 11c and the passage 11b.

The passage (11b) and the rib (11c) is a configuration for reinforcing the rigidity of the outer frame body 10, and through the ribs (11c), it is possible to improve the support power to support and support the cargo, as well as to improve the durability Can be extended.

To this end, the side mold 3 is divided and disposed on each side of the outer body 10, and a pin hole 3a is formed so as to slide in the horizontal direction through the angular pin 4. Slide cores 3b are formed to protrude at equal intervals on the upper left side and are installed in the mold apparatus 2.

That is, the side mold 3 is made to slide through the angular pin 4 and the pin hole 3a, and the outer body 10 is injection-molded. In the drawing, the slide core 3b formed on the upper left side of the drawing The hexagon-structured pallet 1 is injection-molded in a state inserted into the outer body 10, so that when the injection molding is completed, the passage 11b and the rib 11c alternately Is formed.

The outer body 10 having a reinforcing structure on the upper plate 11 through the side mold 3 forms a round shape at each vertex, and a taper is formed on each lower edge in contact with the wheel of the handcar. While significantly reducing the amount of phosphorus synthetic resin, it is possible to effectively reduce the degree of damage or damage, for example, in unexpected contact with cargo or surrounding objects.

Particularly, by taper forming the lower outer and inner corners of the outer body 10 in contact with the wheel of the hand car, it is possible to easily enter the wheel of the hand car during the unloading operation through the hand car, so that the pallet 1 of the hexagonal structure is damaged. It is possible to facilitate the unloading operation of the cargo while preventing it.

To this end, in the side mold 3, a tapered portion 3c is formed on the lower left side of the drawing on which the slide core 3b is formed, so that each corner of the lower part contacting the wheel of the handcar is tapered. Here, the taper should be interpreted as including a straight line as well as a round close to a straight line.

Accordingly, according to an embodiment of the present invention, a reinforcing structure can be easily formed on the pallet 1 having a hexagonal structure through the side mold 3, as well as a lower structure in which the unloading operation through a handcar can be easily performed. As it can be configured, it is effective in terms of improving convenience.

Although the present invention has been described in detail through an embodiment, this is for describing the present invention in detail, and the mold apparatus for manufacturing a pallet having a hexagonal structure according to the present invention is not limited thereto. And the terms such as "include", "consist of", or "have" described above mean that the corresponding component can be included unless otherwise stated, so excluding other components It should be construed as that it may further include other components, and all terms including technical or scientific terms are generally understood by those of ordinary skill in the technical field to which the present invention belongs, unless otherwise defined. It has the same meaning as being.

In addition, the above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains can various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the exemplary embodiments disclosed in the present disclosure are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present disclosure is not limited by this exemplary embodiment. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

1: Hexagon structure pallet 2: Molding device
3: side mold 3a: pin hole
3b: slide core 3c: tapered portion
4: Angular pin 5: First hexagonal structure injection mold
5a: first injection molding space 5b: upper core
6: Second hexagonal structure injection mold 6a: Second injection molding space
6b: Hacore 10: Outer body
11: upper plate 11a: first internal space
11b: passage 11c: rib
12: corner pillar 12a: first accommodation space
13: middle pillar 13a: second accommodation space
14: lower plate 14a: second inner space
15: insertion space 20: inner body
21: central pillar 21a: third accommodation space
22: connection panel 22a: upper connection panel
22b: lower connection panel 30: hexagonal structure
31: first core 32: upper structure
33: first connection portion 34: second core
35: lower structure 36: second connection
37: support 38: third connection

Claims (5)

A rectangular upper plate made of synthetic resin, a corner pillar integrally formed at each vertex of the upper plate and protruding downwardly and having a first accommodation space inside, and formed integrally with the upper plate by being disposed between the corner pillars, 2 an outer body including an intermediate column having an accommodation space and an insertion space formed between the corner column and the intermediate column;
Each of the first and second accommodation spaces is integrally formed with the outer body, and a first core formed in a hexagonal plate shape and arranged in a horizontal line, and a hexagonal upper structure are arranged by interconnecting each vertex of the first core. A first connection part to be formed, a second core formed in a hexagonal plate shape and arranged diagonally apart from the lower part of the first core, and a hexagonal lower structure by interconnecting each vertex of the second core A hexagonal structure including a second connecting portion to form, a support for connecting opposite edges of the first and second cores in a diagonal direction, and a third connecting portion for connecting the first and second connecting portions to each other;
As a mold apparatus for injection molding a pallet of a hexagonal structure comprising a,
A side mold disposed on each side of the outer body and configured to be divided to slide in a horizontal direction;
A first hexagonal structure injection mold disposed above the outer body and having an upper core disposed in a hexagonal structure protruding downward so that an injection molding space corresponding to the hexagonal structure is provided; And
A second hexagonal structure injection mold disposed under the outer body by protruding upwardly from the lower core disposed in a hexagonal structure so that the hexagonal structure can be injection-molded through the upper core;
A mold apparatus for manufacturing a pallet of a hexagon structure comprising a.
The method of claim 1.
In the hexagonal pallet, a first inner space is formed inside the upper plate, and a second inner space corresponding to the first inner space is formed inside, and the lower plate is integrally formed with the upper plate through a corner pillar and an intermediate pillar. ; And
An inner body disposed at the center of the first and second inner spaces and including a central pillar having a third receiving space formed therein, and a connection panel connecting the central pillar and each of the intermediate pillars;
It further includes,
A mold apparatus for manufacturing a pallet of a hexagon structure, characterized in that a hexagon structure is formed in the first inner space and the third receiving space through the first and second hexagonal structure injection molds to be integrated with the hexagonal pallet.
The method according to claim 1,
The side mold is divided and disposed on each side of the outer body, and a pin hole is formed so as to slide in a horizontal direction through an angular pin.
The method of claim 3,
The side mold is characterized in that a slide core protruding toward the upper plate at equal intervals is formed on one side facing the side of the upper plate so that ribs and passages are alternately arranged in a grid shape on each side of the upper plate constituting the outer body. Hexagon-structured pallet manufacturing mold device.
The method of claim 4,
The side mold is a mold apparatus for manufacturing a pallet having a hexagonal structure, characterized in that a tapered molding part is formed on a lower side of one side on which the slide core is formed.

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