KR20160131494A - Structure For Assembling Of Dieboard - Google Patents

Abstract

The present invention relates to a structure for assembling a wood mold which transversely joins boards for a wood mold having a limited area to properly handle an object to be cut, arrange the object to be cut by various methods, and cut the object to be cut even if the object to be cut has a wide area. The wood mold comprises a support board and a blade fixed and installed perpendicularly to the support board. The support board comprises: a first unit support board; a second unit support board; and a support board connection means to transversely connect the first and the second unit support board to extend an area of the support board. The support board connection means comprises a bidirectional bolt simultaneously mounted on a first and a second nut board when a middle portion thereof is held and axially rotated like a turn buckle to press the first and the second unit support board in directions in which the first and the second unit support board are tightly attached to each other, wherein one end thereof is inserted into a first transverse hole of the first unit support board to be mounted on the first nut board, and the other end thereof is inserted into a second transverse hole of the second unit support board to be mounted on the second nut board.

Description

Structure for Assembling of Dieboard "

The present invention relates to an assembling structure of a neck of a neck, and more specifically, by joining a wooden plate for a neck having a limited width laterally, even if the area of the body to be cut is wide, it can cope with it appropriately, And also to cut the metal mold.

A dieboard is a tool for cutting a wide area of thin material and cutting it into a desired shape and width, also referred to as a wooden, Thomson wooden or knife die. The neck mold usually includes a support plate in the form of a wide plate and a cutting blade fixedly installed at a right angle to the plane direction on the support plate. The support plate is made of iron, wood or synthetic resin.

Such a neck mold has been used in a variety of fields such as tributary, printing, or clothing, but recently it has also been used to manufacture display panels for televisions. For example, LCD films, polarizing films, and protective films.

Meanwhile, since the size of the display panel is not so large in the related art, it is possible to cut all the products using one support plate. However, due to the development of display technology, the size of the product has become larger and larger, so that it can not be supported by the conventional neck type. Consequently, in order to widen the area of the neck mold, it is inevitable to use a method of widening the area by connecting the supporting plates of the neck mold to each other in the lateral direction.

Korean Utility Model Registration Application No. 20-2009-0001380 Korean Utility Model Registration Application No. 20-2005-0031466

SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide an assembling structure of a neck mold capable of machining a workpiece having a large area by widening the area by connecting the support plates of the neck mold having a limited area in the lateral direction. It is a specific object of the present invention to provide a neck mold assembly structure which has a structure that can be disassembled and newly assembled by eliminating the problem of twisting, loosening and wobbling by providing a strong coupling structure.

The above object is achieved by a wood mold comprising a support plate and a blade fixed at right angles to the support plate, the support plate comprising:

 A first unit support plate; And a support plate connecting means for connecting the second unit support plate and the first and second unit support plates laterally to enlarge an area of the support plate; The support plate connecting means comprises:

The first unit support plate and the second unit support plate are provided at a boundary portion where the first unit support plate and the second unit support plate are joined,

A first horizontal hole provided on a side surface of the first unit support plate; A second horizontal hole provided on the side surface of the second unit support plate by drilling so as to be positioned on the straight line with the first transverse hole;

A first nut plate inserted into the first unit support plate so as to cross at right angles to the first horizontal hole; A second nut plate inserted into the second unit support plate so as to cross at right angles to the second horizontal hole; And the other end is fitted in the second horizontal hole and is fastened to the second nut plate. When the middle portion is caught by the turn buckle and the shaft is rotated, the first and second nuts And a bi-directional bolt fastened to the first and second unit support plates in a direction in which the first and second unit support plates are closely contacted with each other.

According to an embodiment of the present invention, the first and second horizontal holes, the first and second nut plates may be provided along a boundary line between the first unit support plate and the second unit support plate.

According to an aspect of the present invention, the joint interface between the first unit support plate and the second unit support plate may be entirely or partially formed as an uneven surface, and may be coupled to each other in a customized manner.

According to the above configuration, it is possible to enlarge the area by connecting the unit support plates of the neck mold having the limited area in the lateral direction. This makes it possible to process a workpiece having a large area, and the workpiece can be cut in a state in which the workpiece is freely arranged according to the needs of the customer.

According to the present invention, since the unit support plate has a strong coupling structure, it is excellent in durability and there is no problem that the support plate having a large area is swung or twisted at the time of processing, thereby ensuring the quality of the product.

1 is a perspective view of a neck mold according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA of Fig.
3 is a cross-sectional view taken along line BB in Fig.
Fig. 4 is a plan view of a neck mold according to an embodiment of the present invention, and Fig. 5 is a bottom view.
6 is an exploded perspective view of a neck mold according to an embodiment of the present invention.

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

The neck mold of the present invention is used for cutting or cutting various sheets or films into a desired form, and has the same uses as a general wood mold. However, in the present invention, the unit supporting plates 10, 20 and 30 are connected in the lateral direction to widen the area, thereby making it possible to arrange the workpiece in various forms and cut it, or to use it for cutting a large- . In particular, the present invention proposes a constitution in which unit support plates (10, 20, 30) are connected or joined in the lateral direction. The unit support plates 10, 20 and 30 are based on plywood, but are not necessarily limited thereto.

According to the drawings, three unit support plates 10, 20 and 30 are transversely connected to form a single support plate 1. Since the connection methods of the unit support plates 10, 20 and 30 are the same, the connection structure of the first and second unit support plates 10 and 20 will be described below. The blade 3 is fixed to the support plate 1 at right angles to the surface of the support plate 1. The installation structure of the blade 3 is the same as that of the conventional art.

According to the present invention, the first unit support plate 10 and the second unit support plate 20 are laterally connected to each other to extend the area of the support plate 1.

Hereinafter, the support plate connecting means will be described. The support plate connecting means is provided at a boundary portion where the first unit support plate 10 and the second unit support plate 20 are joined.

The first horizontal hole 11 is provided at a predetermined depth on the side surface of the first unit support plate 10. The first horizontal hole 11 may be provided by drilling. A second horizontal hole 21 is provided by drilling at a position corresponding to the first horizontal hole 11 on the side surface of the second unit support plate 20 so as to be positioned on the straight line with the first horizontal hole 11.

The first nut plate 13 is inserted into the first unit support plate 20 so as to intersect the first horizontal hole 11 at right angles. A first nut plate insertion groove 12 having a slit shape is provided in a direction perpendicular to the first horizontal hole 11 in order to insert (or press-fit) the first nut plate 13.

The second nut plate 23 is inserted into the second unit support plate 20 such that the second nut plate 23 intersects the second horizontal hole 21 at right angles. A second nut plate insertion groove 22 in the form of a slit is provided in a direction perpendicular to the second horizontal hole 21 in order to insert (or press-fit) the second nut plate 23.

A bidirectional bolt (40) is fitted in the first and second horizontal holes (11, 21). One end of the bi-directional bolt 40 is inserted into one horizontal hole 11 and is fastened to the first nut plate 13 and the other end is fitted to the second horizontal hole 21 and fastened to the second nut plate 23.

The bidirectional bolt 40 and the first and second nut plates 13 and 23 act in the same manner as a known turnbuckle. The bi-directional bolt 40 is provided at both ends 41 and 42 with threaded portions (left and right threads) in different directions.

As a result, the bidirectional bolt 40 and the first and second nut plates 13 and 23 are simultaneously fastened when the middle portion 43 of the bidirectional bolt 40 is held and rotated in one direction like a turnbuckle. With this configuration, the first and second unit support plates 10 and 20 can be pressed or bonded in a direction in which they are in close contact with each other. The intermediate portion 43 of the bidirectional bolt 40 is provided with a hook hole 44 for allowing a flat screwdriver or the like to be inserted and rotated.

The first and second horizontal holes 11 and 21, the first and second nut plates 13 and 23 and the bi-directional bolt 40 are integrally formed with the first unit support plate 10 and the second unit support plate 20 A plurality of lines may be provided. That is, the first and second unit support plates 10 and 20 can be fastened with a plurality of bidirectional bolts 40. The number of the unit support plates 10 and 20 can be adjusted by adjusting the length of the first and second unit support plates 10 and 20, Will be determined accordingly.

According to another embodiment of the present invention, the bonding interface between the first unit support plate 10 and the second unit support plate 20 comprises a combination of a convex portion 15 and a concave portion 25 And can be coupled to each other in a customized manner. In particular, the first and second unit support plates 10 and 20 are coupled to each other in a dove-tail manner. However, this is merely an example, and the first and second unit support plates 10 and 20 may be unevenly coupled (or coupled) in various ways. The concave and convex portions 15 and 25 may be provided entirely along the bonding interface between the first unit support plate 10 and the second unit support plate 20 or may be partially provided. An adhesive is added to the bonding interface between the first unit support plate 10 and the second unit support plate 20, thereby enhancing the bonding force.

In particular, according to the illustrated structure, the bidirectional bolt 40 is inserted into the first horizontal hole 11 of the first unit support plate 10, and then the first and second unit support plates 10 and 20 are coupled to each other. The first and second unit support plates 10 and 20 must be assembled in such a manner that the first and second nut plates 40 and 40 are screwed to the first and second nut plates 13 and 23 by inserting and rotating the second unit plate 40 and the second horizontal hole 23.

The avoidance groove 14 is formed at one or more of the first unit support plate 10 or the second unit support plate 20 so that the bidirectional bolt 40 can be inserted into the first and second horizontal holes 11 and 21 and then rotated. As shown in FIG. And is provided on the convex portion of the first unit support plate. In particular, the avoidance grooves 14 are provided on the bottom surface of the first unit support plate 10. According to this construction, the upper surface of the support plate 1 that has been assembled is smoothly maintained without any traces caused by the provision of the support plate connecting means. You can.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: support plate 3: blade
10, 20, 30: first, second and third unit support plates
11, 21: first and second horizontal holes 13, 23: first and second nut plates
14: avoiding groove 15: convex portion
25: concave portion 40: bi-directional bolt
44: Hanging ball

Claims (3)

A support plate; and a blade fixed at right angles to the support plate, wherein the support plate comprises:
A first unit support plate; And a support plate connecting means for connecting the second unit support plate and the first and second unit support plates laterally to enlarge an area of the support plate; The support plate connecting means comprises:
The first unit support plate and the second unit support plate are provided at a boundary portion where the first unit support plate and the second unit support plate are joined,
A first horizontal hole provided on a side surface of the first unit support plate; A second horizontal hole provided on the side surface of the second unit support plate by drilling so as to be positioned on the straight line with the first transverse hole;
A first nut plate inserted into the first unit support plate so as to cross at right angles to the first horizontal hole; A second nut plate inserted into the second unit support plate so as to cross at right angles to the second horizontal hole; And the other end is fitted in the second horizontal hole and is fastened to the second nut plate. When the middle portion is caught by the turn buckle and the shaft is rotated, the first and second nuts And a bi-directional bolt fastened to the first and second unit support plates in a direction in which the first and second unit support plates are closely contacted with each other.
The method according to claim 1,
Wherein the first and second transverse holes, the first and second nut plates, and the bi-directional bolt are provided along a boundary line between the first unit support plate and the second unit support plate.
The method according to claim 1,
Wherein the joint interface between the first unit support plate and the second unit support plate is partially or entirely an uneven surface and is coupled to each other in a customized manner.

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