KR101602787B1 - Pallet using synthetic wood - Google Patents

Abstract

The present invention relates to a pallet capable of loading a load on an upper portion thereof and moving a load using equipment such as a forklift. More particularly, the present invention relates to a pallet having a plate-like synthetic neck such as a plywood as a main material, And the lower reinforcement member are coupled to each other by a plurality of vertical column members to constitute a vertical column module and a pair of outer vertical plate members are fastened to both ends of the vertical column module, The pallet being constructed.
Further, since the present invention is manufactured using a synthetic wood such as a plywood, it is possible to obtain an effect that a worker can handle easily because the weight is much lighter than a pallet made of general synthetic resin or wood or the like. It is possible to obtain an effect of securing excellent strength even though a synthetic wood such as a plywood having low cost of materials is used as compared with a synthetic resin or a wood; The connecting portion or the fastening portion of each structure is not loosened even when the pallet is frequently used, as compared with the pallet of the fitting type structure, and the excellent strength of the pallet can be secured even in continuous use.

Description

{Pallet using synthetic wood}

The present invention relates to a pallet capable of loading a load on an upper portion thereof and moving a load using equipment such as a forklift. More particularly, the present invention relates to a pallet having a plate-like synthetic neck such as a plywood as a main material, And the lower reinforcement member are coupled to each other by a plurality of vertical column members to constitute a vertical column module and a pair of outer vertical plate members are fastened to both ends of the vertical column module, The pallet being constructed.

The pallet is a pedestal for loading various kinds of loads used when a load is carried by a forklift or the like, and is generally formed in the shape of a rectangular plate, and is made of a metal material such as wood, synthetic resin or aluminum.

In addition, synthetic resin pallets are expensive because of the high price of synthetic resin as a raw material, and since injection molds must be manufactured in accordance with specifications, there is a great economic burden to cope with specification changes, and recycling is difficult.

As an alternative to such a problem, a metal pallet using aluminum or the like is being used. However, such an aluminum pallet is expensive to manufacture due to a high cost of raw materials, excessive processing and assembling work, and thus the cost of manufacturing is high, resulting in an economical burden on the consumer, which makes it difficult to use the aluminum pallet .

In addition, irrespective of the adoption of the above-mentioned materials, when the pallet is designed to be light in weight, the overall strength of the pallet is lowered. If the pallet is intensified in strength, the cost of raw materials is increased There is a problem that the price competitiveness of the product is deteriorated.

The following is a representative prior art for a pallet.

Korean Registered Utility Model No. 20-0476627 relates to a two-way pallet comprising a top plate on which a load is placed, a support for supporting the top plate, and a reinforcing member for reinforcing the strength of the support in combination with the support. A two-way pallet is disclosed. That is, the pallet is constructed to be combined with the upper plate after the corrugated support members and the reinforcing members are coupled with each other in a fitting manner, so that the pallet is easily manufactured and the supporting member for supporting the upper plate of the pallet is reinforced by the reinforcing member So that a stronger supporting force can be exerted even between the bonding portions between the supports.

However, when the pallet according to the related art is used many times, there is a problem that the fitting portion is loosened and the strength of the pallet is lowered. Therefore, there is a need for continuous research and development for solving the problem.

1. Registered Utility Model No. 20-0476627 of the Republic of Korea (May 20, 2015) 2. Korean Registered Patent No. 10-1253996 (Apr. 3. Korean Registered Patent No. 10-1249281 (Mar. 23, 2013) 4. Korean Utility Model Publication No. 20-1995-0008453 (October 20, 1994)

The present invention has been devised to solve the problems of the prior art of the pallet. The conventional pallet has been made of a material having high strength such as synthetic resin or wood to secure a certain physical strength, but the pallet is heavy, A difficult problem has arisen;

The material of the material which can secure an excellent strength has a problem that the cost of manufacturing the pallet relatively increases;

In the case of a pallet composed of a fitting structure, when the pallet is used a plurality of times, the fitting portion is loosened and the strength of the pallet is lowered. Therefore, the main object is to provide a solution to this problem.

The present invention has been made to solve the above-

An upper reinforcing member forming a length in a lateral direction of the pallet and forming an upper plate; A lower reinforcement member forming a length of the pallet in a lateral direction and forming a lower plate portion; A plurality of vertical column members including an upper portion fastened to the upper reinforcing member, a lower portion fastened to the lower reinforcing member, and a plurality of vertical pillars fastened to the upper reinforcing member and the lower reinforcing member in the longitudinal direction, ;

And an outer vertical plate member module for separating the plurality of vertical column modules from each other in a longitudinal direction between a pair of outer vertical plate members forming a length in the longitudinal direction of the pallet, do.

Since the pallet using the synthetic neck according to the present invention as described above is manufactured using synthetic wood such as plywood, the weight of the pallet is much lighter than that of a pallet made of general synthetic resin or wood, An effect can be obtained;

It is possible to obtain an effect of securing excellent strength even though a synthetic wood such as a plywood having low cost of materials is used as compared with a synthetic resin or a wood;

The connecting portion or the fastening portion of each structure is not loosened even when the pallet is frequently used, as compared with the pallet of the fitting type structure, and the excellent strength of the pallet can be secured even in continuous use.

1 is a perspective view showing a pallet using a synthetic neck according to a preferred embodiment of the present invention.
2 (a) and 2 (b) are a plan view and a front view showing a pallet using a synthetic neck according to a preferred embodiment of the present invention.
3 is a fragmentary perspective view illustrating a pallet using a synthetic neck according to a preferred embodiment of the present invention.
4 is a perspective view illustrating a pallet using a synthetic neck according to another preferred embodiment of the present invention.
5 is a perspective view showing a case where a lower reinforcement member of a pallet using a synthetic neck according to a preferred embodiment of the present invention is formed in a plate shape.
6 is a perspective view showing a conventional plate-shaped composite neck.

The present invention relates to a pallet capable of loading a load on an upper part and moving a load using equipment such as a forklift, comprising: an upper reinforcing member (11) forming a length in a lateral direction of the pallet and forming an upper plate; A lower reinforcement member 12 forming a length in the transverse direction of the pallet and forming a lower plate portion; The upper reinforcing member 11 and the lower reinforcing member 12 are fastened to each other and the upper and lower reinforcing members 11 and 12 are fastened to each other by a plurality of vertical pillar members A plurality of vertical column modules (10) comprising a plurality of vertical column modules (13); And an outer vertical plate member module (20) for separating the plurality of vertical column modules (10) in a longitudinal direction between a pair of outer vertical plate members (21) forming a length in the longitudinal direction of the pallet The present invention relates to a pallet using a synthetic neck.

First, the pallet according to the present invention comprises a vertical column module 10 and an outer vertical plate member module 20. At this time, the outer vertical plate member module 20 is provided on both sides of the vertical column module 10 to support the vertical column module 10. [

The vertical plate member module includes an upper reinforcing member 11 forming a pallet upper plate, a lower reinforcing member 12 forming a lower plate portion of the pallet, and a pallet height. The upper and lower reinforcing members 11, And a vertical pillar member (13) interconnecting the pillar (12).

The pallet according to the present invention can load a load on the upper plate portion and is a space formed between the upper reinforcing member 11 and the lower reinforcing member 12 fastened to the upper and lower portions of the vertical column member 13, So that the pallet can be lifted using a forklift truck.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

Specifically, the upper reinforcing member 11 forms a length in the transverse direction of the pallet and forms an upper plate portion. The lower reinforcing member 12 forms a length in a lateral direction of the pallet and forms a lower plate portion .

That is, the upper reinforcing member 11 has a configuration in which the upper plate portion of the pallet on which the load is directly placed is formed, and a plurality of the vertical column modules 10 including the upper reinforcing member 11 are spaced apart from each other Thereby forming a top plate.

At this time, the upper reinforcing member 11 is formed by cutting a plate-shaped synthetic neck made to have a certain width a, length b and thickness c, The upper reinforcing member 11 can be formed by laminating the plate-like synthetic wood to the transverse length (a) or the longitudinal length (b), since the plate- It is preferable to use the one cut in the direction of the length b so that the direction of the width a or length b forms the height b 'of the upper reinforcing member 11.

That is, the thickness c of the plate-like synthetic neck before cutting is equal to the width c 'of the upper reinforcing member 11, and the width a of the cut composite neck is equal to the length of the upper reinforcing member 11 (b ') of the upper reinforcing member (11), and the longitudinal length (b) of the cut synthetic neck is formed to form a height (b') of the upper reinforcing member (11).

The lower reinforcement member 12 has the same structure as the upper reinforcement member 11 and is connected to the lower portion of the vertical column member 13 around the vertical column member 13 to form a lower plate portion of the pallet. Or on top of other loads.

Hereinafter, a concrete description of the structure of the upper reinforcing member 11 is applied to the detailed description of the lower reinforcing member 12, and the case where the upper reinforcing member 11 is different from the upper reinforcing member 11 will be described separately.

The vertical column member 13 is fixed to the upper reinforcing member 11 and the lower portion is fastened to the lower reinforcing member 12 so that the vertical reinforcing member 11 and the lower reinforcing member 12 are aligned in the longitudinal direction And the height C of the pallet is formed.

Specifically, the vertical column member 13 has a bar-shaped configuration having a predetermined horizontal area and height, and a plurality of pieces of composite synthetic wood formed by cutting a plate-shaped synthetic wood are laminated to form a predetermined height And the vertical column member 13 may be made of a hardwood.

That is, the vertical column member 13 is configured to support the vertical stress applied to the upper reinforcing member 11 when a load is loaded on the pallet. Since the vertical strut member 13 receives the largest vertical stress among the plurality of members provided on the pallet, If it is difficult to construct a synthetic tree according to the judgment of a person skilled in the art, a log may be used.

The vertical pillar members 13 may be formed in various numbers depending on the lengths of the upper reinforcing member 11 and the lower reinforcing member 12. The vertical pillar members 13 may be formed on the upper plate portion of the pallet depending on the type and size of the pallets It may be constituted in part more in the middle or outer portion of the pallet in order to appropriately disperse the applied vertical stress or further strengthen the portion where the normal stress is applied.

The height of the vertical column member 13 forms the height C of the pallet as shown in Figure 1. At this time, the upper reinforcement member 11 or the lower reinforcement member 12 is fastened to the side portion of the vertical column member 13 The height of the vertical pillar member 13 obtained by subtracting the height of the upper reinforcing member 11 or the lower reinforcing member 12 forms a space through which the lift of the forklift can be drawn.

When the lift of the forklift is drawn into the empty space of the pallet (a space formed between the upper reinforcing member 11 and the lower reinforcing member 12), the plurality of vertical pillar members 13, as described above, It is preferable that the plurality of vertical column modules 10 are provided so as to form a row of empty spaces so as not to be caught by the vertical column modules 13. [

The upper reinforcing member 11 or the lower reinforcing member 12 is formed to be longer than the width in the vertical direction and is provided on each of both sides of the vertical pillar member 13 can do.

Specifically, the upper reinforcing member 11 or the lower reinforcing member 12 is formed by cutting a plate-shaped synthetic neck in the transverse length direction (a), wherein the longitudinal length (b) (B ') in the vertical direction of the lower reinforcement member (11) or the lower reinforcement member (12). At this time, the thickness c of the plate-like synthetic neck before cutting is set to the width c 'of the upper reinforcement member 11 or the lower reinforcement member 12 in the horizontal direction.

That is, since the upper reinforcing member 11 or the lower reinforcing member 12 having the above-described structure has a long length in the vertical direction and forms a height b ', it has a longer length in the horizontal direction, A stronger strength against stress can be secured.

At this time, when a pair of the upper reinforcing member 11 or the lower reinforcing member 12 having the height b 'that is longer than the width c' in the horizontal direction is provided on both sides of the vertical pillar member 13 The upper reinforcing member 11 or the lower reinforcing member 12 is increased in number and the vertical stress on the load placed on the pallet can be increased and the upper reinforcing member 11 or the lower reinforcing member 12, The vertical stress exerted on the vertical column member 13 in a single direction can be dispersed to both sides of the vertical column member 13. [

The lower reinforcing member 12 is formed to be longer than the height b 'in which the width c' in the horizontal direction is vertical and the lower portion of the vertical pillar member 13 is located on the upper surface, To support the member (13).

That is, the lower reinforcing member 12 of the above-described configuration is formed such that the thickness c of the plate-like synthetic neck corresponds directly to the height b 'of the lower reinforcing member 12, And has a configuration corresponding to the width c 'of the reinforcing member 12, and is fastened to the lower portion of the vertical pillar member 13 in a plate-like shape in the horizontal direction as shown in Fig.

In this case, since the lower reinforcement member 12 is formed in a plate-like shape forming a predetermined area in the horizontal direction, the pallet is placed on the roller type conveyor in a state where the load is loaded on the pallet according to the present invention, So that the lower part of the pallet can be stably conveyed without being caught by the roller of the conveyor.

The outer vertical plate member module 20 includes a plurality of vertical column modules 10 spaced apart in the longitudinal direction between a pair of outer vertical plate members 21 forming a length in the longitudinal direction B of the pallet A plurality of vertical column modules 10 are fastened in a state in which they are spaced apart from each other at regular intervals to secure a supporting force of the entire pallet.

That is, the upper and lower reinforcing members 11 and 12 of the vertical column module 10 form a length in the lateral direction A of the pallet as shown in FIG. 1, and the plurality of vertical column modules 10 The length is formed in the same direction as the upper reinforcing member 11 and the lower reinforcing member 12, and the length is formed in the transverse direction A of the pallet.

At this time, the pair of outer vertical plate members 21 are spaced apart from each other by the length of the vertical column module 10, and one of the outer vertical plate members 21 is provided with an upper reinforcing member One end of the upper reinforcing member 11 and the lower reinforcing member 12 of the vertical column module 10 are fixedly coupled to one another and the other vertical plate member 21 is fixed to the other end of the upper reinforcing member 11 and the lower reinforcing member 12. [ Respectively.

The vertical column member 13 located at one end and the other end of the upper reinforcement member 11 and the lower reinforcement member 12 of the vertical column member 13 of the vertical column module 10 is connected to the pair of outer vertical plates 13, Can be fastened to each of the members (21).

In addition, the height of each of the pair of outer vertical plate members 21 preferably has a length corresponding to the height of the vertical column member 13 so that the entire outer periphery of the pallet has the same height.

If the height of the upper reinforcing member 11, the height of the vertical plate member or the height of the plurality of ones of the height of the lower reinforcing member 12 together constitute the height of the pallet, the pair of outer vertical plate members 21 should be equal to the sum of the height of the vertical plate member or the height of the plurality of ones of the height of the lower reinforcement member 12. [

The outer vertical plate member 21 is preferably configured to cut the plate-like synthetic wood in the lateral direction or the vertical direction to form the height of the pallet. In this case, the thickness of the cut synthetic wood is determined by the outer vertical plate member 21 In the horizontal direction.

The pallet according to the present invention has a length in the same direction as that of the outer vertical plate member 21 and is fixed to the side of one of the vertical columns 13 by the upper and lower reinforcing members 11, And at least one inner vertical plate member (30) sandwiched between the inner vertical plate members (12).

That is, since the inner vertical plate member 30 is formed in the same direction as the outer vertical plate member 21, the vertical reinforcement member 11 and the lower reinforcing member 12 are vertically long As shown in Fig. 1, the inner vertical plate member 30 is formed in a lattice form with respect to the upper reinforcing member 11 and the lower reinforcing member 12. [

Since the inner vertical plate member 30 is sandwiched between the upper reinforcing member 11 and the lower reinforcing member 12 so that the upper portion supports the lower portion of the upper reinforcing member 11, And is supported on the upper portion of the lower reinforcing member 12. The vertical stress applied to the upper reinforcing member 11 by the load is dispersed in the lower reinforcing member 12. [

The inner vertical plate member 30 is configured to be sandwiched between the upper reinforcing member 11 and the lower reinforcing member 12 in a state of being fastened to the side of one or more vertical pillar members 13, The inner vertical plate member 30 is prevented from falling sideways when vertical stress is applied to the inner vertical vertical plate member 30 which is vertically formed and formed and a part of the normal stress applied to the inner vertical vertical plate member 30 The vertical column member 13 can be dispersed.

A plurality of upper reinforcement members 11 are seated on the upper portion of the inner vertical plate member 30 and a plurality of lower reinforcement members 12 are disposed on the lower portion thereof to support the inner vertical plate member 30 It is obvious that it can be done.

In addition, a plurality of inner vertical plate members 30 are spaced apart from each other with respect to the longitudinal direction of the vertical column module 10 to receive vertical stress due to the load applied to the pallet from the upper reinforcing member 11, It can be uniformly dispersed in the member 12. At this time, it is apparent that the number of the inner vertical plate members 30 and the distance between the inner vertical plate members 30 can be variously adjusted according to the use of the pallet.

The fastening between the structures of the upper reinforcing member 11, the lower reinforcing member 12, the vertical pillar member 13, the inner vertical plate member 30 and the outer vertical plate member 21 according to the present invention can be performed by using an adhesive, It will be apparent that the present invention can be processed by a fixture such as a nail, a screw or a tackifier.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

10: vertical column module 11: upper reinforcing member
12: lower reinforcement member 13: vertical column member
20: outer vertical plate member module 21: outer vertical plate member
30: Inner vertical plate member

Claims (5)

An upper reinforcing member (11) forming a length in a lateral direction of the pallet and forming an upper plate portion; A lower reinforcement member 12 forming a length in the transverse direction of the pallet and forming a lower plate portion; The upper reinforcing member 11 and the lower reinforcing member 12 are fastened to each other and the upper and lower reinforcing members 11 and 12 are fastened to each other by a plurality of vertical pillar members A plurality of vertical column modules (10) comprising a plurality of vertical column modules (13);
And an outer vertical plate member module (20) for separating the plurality of vertical column modules (10) in a longitudinal direction between a pair of outer vertical plate members (21) forming a length in the longitudinal direction of the pallet Configured;
The upper reinforcing member 11 or the lower reinforcing member 12 is formed to be longer than the width in the vertical direction and is provided on each of both side portions of the vertical pillar member 13 ;
The pallet is formed in a length in the same direction as the outer vertical plate member 21 and is fixed to the side of one of the vertical columns 13 by the upper and lower reinforcing members 11, And at least one inner vertical plate member (30) sandwiched between the inner vertical plate members (30);
Wherein the vertical column member (13) is made of a wood.
delete The method according to claim 1,
The upper reinforcing member (11) or the lower reinforcing member (12)
Wherein a height of the vertical column member is longer than a horizontal width of the vertical column member and is formed on both sides of the vertical column member.

The method according to claim 1,
The lower reinforcement member (12)
Wherein a width in a horizontal direction is longer than a height in a vertical direction and a lower portion of the vertical column member (13) is located on an upper surface to support the vertical column member (13).
delete

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