KR20100132853A - A rod beam for a rack structure - Google Patents

Abstract

PURPOSE: A rod beam for a rack structure is provided, which can prevent constructive deformation by dispersing load of an object. CONSTITUTION: A rod beam for a rack structure comprises: a plurality of hanging holes which are inserted and hung along the length of a support pillar; a shelf in which light or heavy objects are kept; a beam(30) which is formed in order to distribute stress; and a connection support bracket(40) in which a joint hole passing through the thickness is formed. More than two hanging pieces(31a) are vertically arranged in both ends of the longitudinal surface(31).

Description

A rod beam for a rack structure

The present invention relates to a load beam for a rack structure, and in particular, it is possible to secure an auxiliary support force according to the length or weight of the heavy weight, and to distribute the load of the heavy weight to prevent twisting or bending to prevent stable ground area and structural deformation It relates to a load beam for a structure.

In general, the steel shelf structure is to be able to load or easily transport things in a small space, the configuration is formed by fixing a horizontal frame to a plurality of vertical frames made of metal and mounting a shelf on the top.

Referring to Figure 1 shown in the conventional steel shelf structure is configured as described above, the steel shelf structure is a plurality of vertical frames installed in the vertical direction, at least two on the front and rear of the vertical frame and the vertical frame It is composed of a front and rear support frame that is mounted above, at least two side frames mounted on the side of the vertical frame and the vertical frame, and a shelf mounted on the top of the front and rear support frame and the side frame.

That is, the steel shelf structure is to be able to load the goods by mounting the front and rear support frame and the side frame on the same line of the vertical frame and then mounting the shelf on the top.

However, the conventional steel shelf structure has a problem that the front and rear support frame and the side frame to be mounted to the vertical frame is fastened with bolts and nuts, not only increase the work process and work time but also increase the cost.

In addition, the steel shelf structure has a problem in that the lower end and the upper end to support the load is not fixed, so that the flow and warp occurs and the deformation occurs accordingly.

In addition, there is a problem in that the torsional deformation of the beam is caused by the load or the structural deformation of the central portion is bent when the length is long.

Accordingly, the present invention has been made in view of the problems of the prior art as described above, but the overall shape is formed in a 'c' form, but the vertical deformation is formed on the upper and lower portions so as to distribute and support the load of heavy materials so that structural deformation is achieved. It is an object to provide a load beam for a rack structure that is not generated.

In addition, another object of the present invention is to form a bracket in the center of the beam so that the bending phenomenon does not occur in the center portion of the beam by the load of the heavy material.

In addition, another object of the present invention is to provide a stable support is achieved by distributing the load by connecting the beam to the support bar when the rack is a large structure.

In order to achieve the above object, the present invention is a fixed or removable that is installed facing each other so that the shelf to hold the light / weight of several tons to hundreds of tons of hook holes formed along the length of the support pillar is inserted and locked In the load beam for a rack structure, two or more engaging pieces are formed in a vertical arrangement by punching and bending so as to have a 'b' shape inwardly at both ends of the vertical surface, and the upper ends of the vertical surfaces face inward. Horizontally bent to form a settled surface, and a horizontal settled end is formed horizontally bent so that the end of the upper vertical end formed for the stress dispersion formed by vertical bending in the settled face inward, the lower portion of the vertical surface The ends are horizontally bent to face inward and then vertically bent upwards to form a beam with a lower vertical end that is formed for stress distribution. Insert the connecting support bracket formed with a fastening hole therebetween into the upright state between the horizontal center end and the lower vertical end of the beam length, and then fix the horizontal support end, the lower vertical end and the vertical surface so as to be integral with the upper vertical end. And a lower vertical end and the connecting support bracket are configured such that the center of the beam is not bent or twisted due to heavy loads distributing the load.

As described above, the present invention has the effect of forming the overall shape in a 'c' form, but by forming vertical ends at the top and bottom to distribute and support the load of heavy materials so that structural deformation does not occur.

And, by forming a bracket in the center of the beam there is an effect that the bending phenomenon does not occur in the center portion of the beam by the load of the heavy material.

In addition, when the rack has a large structure, there is an effect of stably supporting the load by distributing the load by connecting the beam with the support bar.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in Figures 1 to 4, the load beam for the rack structure of the present invention is a shelf for holding the light / heavy loads are placed in the locking hole 11 is formed by inserting a plurality of hanging holes along the length of the support pillar (10) (20) is used for a fixed or removable rack structure that is installed facing each other to be raised, protrudes by partially punching bent so as to be in a 'b' shape inwardly at both ends of the vertical surface 31 made of a metal plate Two or more locking pieces 31a are formed in a vertical arrangement.

Then, the upper end of the vertical surface 31 is bent horizontally toward the inner side to form the settled surface 32.

The horizontal settlement end 34 is bent horizontally bent so that the end of the upper vertical end 33 formed for the stress dispersion is formed by vertical bending in the settled surface 32 toward the inside.

As shown in Figures 5 and 6, the settled surface 32 and the horizontal set end 34 is configured to hold the shelf 20, the horizontal settled when the shelf 20 is a general plate shape Whereas formed to be mounted on the end 34, the shelf 20 used when placed on the settled surface 32 and the horizontal settled end 34 is the end settled surface 32 and the horizontal settled end 34 It is configured by bending to settle and hang on.

The lower end of the vertical surface 31 is horizontally bent to face inward and then vertically bent upwards to form a beam 30 with the lower vertical end 35 formed for stress distribution.

That is, the beam 30 has a length of the settled surface 32, the upper vertical end 33, the horizontal settled end 34, the lower vertical end 35 is shorter than the longitudinal surface 31, the vertical surface 31 The locking piece 31a is configured to be exposed at an end portion at which both ends protrude from both sides.

Then, the connecting support bracket 40 having the fastening hole 41 penetrating through the thickness is inserted in the upright state between the horizontal center end 34 and the lower vertical end 35 of the length 30 of the beam 30 in the upright state. It is fixed by the welding method so as to be integral with the settled end 34, the lower vertical end 35 and the longitudinal surface 31.

In addition, the support pillar 10 has two locking grooves 11 are formed side by side in the horizontal direction so that two beams 30 are installed on one support pillar 10 on an extension line.

As shown in FIG. 7, the connection support bracket 40 is configured by one or more according to the length of the beam 30. When the length of the beam 30 is short, the connection support bracket 40 is installed at the center portion of the beam 30. If the length is long, the load beam 100 is configured by installing at even intervals, such as intervals.

In addition, the connection support bracket 40 is configured so that the support bar 50, which is detachable by bolting, can be selectively connected according to the weight of the heavy material.

At this time, the support bar 50 is a hole (not shown in the figure) is formed at the end and the cross-section is configured in the shape of a rectangular bar will be available in other forms.

That is, the load beam 100 is the upper vertical end 34, the lower vertical end 35 and the connection support bracket 40 so that the weight of the load is distributed so that the center of the beam 30 is not bent or twisted To construct.

Referring to the operation and effects of the present invention configured as described above are as follows.

As shown in Figures 1 to 8, the load beam 100 is a fixed rack that does not move, a wheel (roller) is formed so as to move along the rail is a mobile rack, movable to move along the rail with the user's manpower It is a rack-like structure that is used for an automatic rack that moves wheels by using a motor.

First, when the length of the beam 30 is long, the connecting support bracket 40 is erected between the upper vertical end 34 and the lower vertical end 35 so that bending deformation is not generated in the center portion due to the load of the heavy material. After inserting and inserting in contact with the vertical surface 31 in a state, each welding is firmly fixed.

Thereafter, the locking piece 31a of the beam 30 is inserted into the locking groove 11 of the support pillar 10, and then the entirety of the beam 30 is pulled downward to stop the locking piece 31a of the locking groove 11. Tighten so that it is located at the bottom and is not separated.

That is, the support pillars 10 are formed in four to fasten the beams 30 to be connected to the pair of support pillars 10, and the beams 30 are horizontally positioned ends 35 facing each other. And installed, according to the size of the weight of the beam 30 disposed up / down is adjusted freely installed.

Next, the rack structure is completed by placing the shelf 20 that is placed and locked on the mounting surface 32 and the horizontal mounting end 34 of the opposite beam 30.

That is, the shelf settled together on the settled surface 32 and the horizontal settled end 34 is formed by bending the end, and the shelf placed only on the horizontal settled end 34 uses a rectangular plate shape.

In addition, when the weight is heavy, the support bar 50 is fastened to the connection support bracket 40 formed on the beam 30 facing each other by using a bolt and a nut so that the distribution of load and the support force are secured.

Thus, when the heavy load is placed on the shelf 20, the weight of the heavy load is mainly acting on the vertical surface 31 of the beam 30 when the support bar 40 is not used, but the upper / lower vertical ends 33 ( 35 and the support bracket 40 to prevent the stress from being concentrated to prevent the lower portion of the beam 30 is twisted to the outside and at the same time to prevent the center portion of the length bent.

In addition, when the shelf 20 is settled together on the settled surface 32 and the horizontal settled end 34 or placed on the horizontal settled end 34, the shelf 20 slides in a place where a lot of flow force such as a ship is generated. It does not move or deviate and lose stable support.

In addition, when the length of the beam 30 of the load beam 100 is long, the connection support bracket 40 of the beam 30 facing the connection support bracket 40 formed in plural numbers is connected to the support bar 40. By distributing and supporting the load of the heavy material, it is possible to prevent structural deformation.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

1 is an exploded perspective view in which a load beam for a rack structure according to the present invention is installed on a support pillar;

2 is a rear perspective view of the load beam for the rack structure,

3 is a front perspective view of the load beam for the rack structure,

Figure 4 is a longitudinal cross-sectional view of the load beam for the rack structure is installed on the support pillar,

5 and 6 are side views showing a state supported by the load beam according to the shape of the shelf,

7 is a perspective view of one or more connecting support brackets formed on a long length beam structure for a rack structure;

8 is a diagram illustrating a use state of a rack in which a load beam for a rack structure is installed on a support pillar.

<Description of Symbols for Main Parts of Drawings>

10: support pillar 20: shelf

30: beam 31: vertical surface

32: If not placed 33: Upper vertical end

34: horizontal set end 35: lower vertical end

40: support bracket 50: support bar

100: road beam

Claims (3)

Fixed or removable rack installed facing each other so that the shelf 20 for storing several tons to hundreds of tons of light / heavy goods is installed so that the locking holes 11 formed in plural along the length of the support pillar 10 are inserted and locked. In a road beam for a structure, At least two locking pieces 31a are formed in a vertical arrangement at both ends of the vertical surface 31 to be partially punched and protruded so as to be in a 'b' shape inwardly. The upper end of the vertical surface 31 is bent horizontally to form an inner surface 32 is bent toward the inner side, the upper vertical end 33 is formed for the stress dispersion is formed by vertical bending in the settlement surface (32) A horizontal settlement end 34 is formed so that the end of the horizontal bending toward the inside, The lower end of the vertical surface 31 is horizontally bent to the inside and then vertically bent upwards to form a beam 30 with the lower vertical end 35 formed for stress dispersion, Insert the connection support bracket 40 having the fastening hole 41 penetrating the thickness between the horizontal center end 34 and the lower vertical end 35 of the length of the beam 30 in the upright state and then the horizontal end end. The upper vertical end 34 and the lower vertical end 35 and the connecting support bracket 40 are fixed so as to be integral with the lower vertical end 35 and the vertical surface 31 so as to distribute the load. Rod beam for the rack structure, characterized in that configured so that the center of the beam 30 is not bent or twisted. The load beam for the rack structure according to claim 1, wherein the connection support bracket (40) comprises one or more along the length of the beam (30). The rod for the rack structure according to claim 1, wherein the connection support bracket (40) is configured such that the support bar (50) detachable by a bolt and nut coupling method can be selectively connected and used according to the weight of the heavy material. beam.

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