KR200407077Y1 - join structure between crossbeams - Google Patents

Abstract

The present invention relates to a joining structure, a modular frame in which four angled steel pipe columns (21), four steel bottom beams (22), and four steel ceiling beams (23) are box-bonded together. In a bone structure constructed by joining units up, front, back, left, and right, between the floor beams and the ceiling beams with two floor beams placed against each other and two ceiling beams placed against each other. The floor beams 22 and 22 and the ceiling beams 23 and 23 are fixed to each other by a plurality of high tension bolts B with a reinforcing plate 25 interposed therebetween. One floor beam of the two floor beams is a component of one skeleton unit constituting an upper part, and the other floor beams are a component of another skeleton unit constituting an upper part. cloth A component of a frame unit constituting the lower layer portion of the viewing a ceiling of the beam, is that a component of the other of the frame unit constituting the lower layer part of the watch and one of the ceiling.

Ceiling beams, Floor beams, High tension bold, Frame unit, Frame structure

Description

Join structure between crossbeams

1 is a schematic diagram showing a skeleton unit and a bone structure,

Figure 2 is a schematic perspective view of the skeleton unit,

Figure 3 is a schematic diagram showing a conventional connection state between the beams of the skeleton units forming a conventional lower layer portion,

Figure 4 is a schematic diagram showing a conventional bonding state between the beams of the frame units constituting the conventional lower layer portion and the upper layer portion,

Figure 5 is a schematic diagram showing a conventional bonding state between the beams of the skeleton units constituting the lower and upper parts of the present invention,

The present invention relates to a joint structure between beams constituting the frame, and more specifically, to the adjacent beams or ceiling between the frame units to be bonded next to each other when constructing a single framework by joining modular frame units It relates to a joint structure between beams.

In general, the framework is constructed by installing a frame unit adjacent to the column, floor beams and ceiling beams in a box shape.

This bone condition is indicated as 10 in FIG. 1. As shown in FIG. 1, the bone conditioner 10 transports a plurality of frame units 11 modularized and produced at a factory to a construction site, and the plurality of frame units 11 are installed in a horizontal and vertical direction on a base 13 that is installed in advance. The skeleton units of the adjacent installation is constructed as a lower portion (10a), the upper portion (10b).

As shown in FIG. 2, the frame unit 11 includes four angled steel pipe columns 21, four steel bottom beams 22, and four steel ceiling beams 23. It is a modular framework structure bonded together. The frame unit 11 connects the bottom beams 22 that intersect with each other at the four corners, and the ceiling beams 23 that intersect with each other are connected to the lower ends of the columns 21 by the joint pieces 22a. It is comprised by joining to the upper end part of the pillar 21 by 23a.

The framework 10 is a lower layer portion 10a, as shown in Figure 3, the edges of one of the corners of each of the four frame units (11) are arranged butt, adjacent floor beams ( 22) fixed to each other by the high tension bolt (B) and the ceiling beams (23) between the high tension bolt (B) by fixing the integrated lower layer portion is completed as a frame.

Then, the framework 10 is the upper portion (10b), as shown in Figure 4, one of the corners of each of the corners of each of the other four frame units (11) are arranged butt, The butt arrangement portion of the portion and the butt arrangement portion of the upper layer portion is arranged in a straight line, fixing the bottom beams 22 adjacent to each other by the high tension boat and the ceiling beams 23 between the high tension bolt (B). After the upper part is fixed as a frame to be completed as a frame, the lower beams ceilings 23 and the lower beams of the upper part are fixed by a high tension bolt B, and the upper part and the lower part are integrated. Will be completed.

Columns, ceiling beams, floor beams, and the like, which are components of the frame unit 11 of the conventional bone conditioner 10, are applied to the internal space size of the bone conditioner 10 and the load placed on the bone conditioner 10. In consideration of this, the detailed dimensions are determined.

For example, in order to withstand the load B while creating the interior space of A cubic meter, the beams must be 300mm high, 100mm wide, 6000mm long and 6mm thick. It is determined by.

When the modular frame unit 11 is made with the beams having the channel beams, and the frame unit 11 is fixed up and side by side to form a single bone conditioner 10, the area occupied by the beams is increased. The outer size of the bone structure is increased, and thus the exterior material takes a lot of interior materials, but there is a disadvantage that the cost of the beams to withstand the load is high, thereby increasing the production cost of the bone structure.

The present invention has been made to solve the above problems, the frame units made by using the beams having a lower standard than the design standard of the beams that can withstand a certain load while creating a certain internal space up and to the side It is an object to provide a joint structure between beams that allows the construction of a single framework that can withstand a certain load.

In order to achieve the above object, the present invention combines four angled steel pipe columns, four steel floor beams, and four frame steel beams in a box-shaped modular frame unit to join up, front, back, left, and right. In the bone structure constructed by using a structure, two floor beams are disposed with their backs disposed, and two ceiling beams are disposed with their backs interposed therebetween with the reinforcing plates between the floor beams and the ceiling beams. The floor beams and the ceiling beams are fixed to each other by a plurality of high tension bolts, wherein one floor beam of one of the two floor beams is a component of one frame unit forming an upper portion. And the other floor beams are components of the other framing unit constituting the upper part, and the ceilings of one of the two ceiling beams. Is a component of a frame unit constituting the lower layer portion, with another one of the components of the other one of the frame units constituting the lower layer portion to see the ceiling, there is a bonding structure between the beam configuration.

Hereinafter, an embodiment according to the present invention will be described with reference to FIG. 5.

FIG. 5 illustrates a joint structure between beams of the present embodiment, and a joint structure between beams of four frame units disposed adjacent to each other is shown as a cross-sectional view.

In FIG. 5, four beams are shown. The beams arranged at the bottom left are ceiling beams 23 which are components of one frame unit forming the lower part, and the beams arranged at the lower right part are formed at the other part of the lower part. The beams 23, which are components of one frame unit, are beams arranged on the upper left side, and the beams 22, which are components of one frame unit, which form an upper part, and the beams, arranged on the upper right side, It is the floor beams 22 which are components of the other skeleton unit.

 A plurality of beams in the state between the floor beams and the ceiling beams between the two beams in a state that the two floor beams are arranged with the back to each other and the two ceiling beams with the back. The support beams 22 and 22 and the ceiling beams 23 and 23 are fixed to each other by a high tension bolt B.

By this fixing structure, the side adjacent frame units are fixed to each other and the up and down adjacent frame units are fixed to each other.

This coupling structure is that four beams 22, 22, 23, 23 are integrally fixed to the reinforcement plate 25, so that one beam can support a load larger than the load it can support. It is possible to increase the length of the one beam, thereby increasing the internal space of one frame unit is made by combining a plurality of the beams.

Contrary to this, a frame unit is made by using beams having a lower design strength than a beam having a design strength that can withstand a certain load while forming a constant internal space, and the frame units are connected to the joints between the beams. By adopting the structure, it is possible to make a bone structure that can withstand a certain load while stably forming a constant internal space, and has low design strength beams which are relatively inexpensive than those with the above strength. Due to the relatively low production cost of the bone condition.

In addition, because the beams with low design strength are naturally smaller in size than the beams with high design strength in the same material condition, the beams become lightweight so that the bone structures made of these low design strength beams are also lightweight. In addition, while providing the same internal space provided by the bone structure made by the beams having a high design strength, the outer size of the bone structure is reduced.

According to the joint structure according to the present invention, the frame units made by using beams having a lower specification than the design specifications of the beams that can withstand a certain load while creating a certain internal space up and to the side, It is possible to build a single bone conditioner that can withstand, making it possible to lower the manufacturing cost of the modular bone conditioner.

Claims (2)

Boxed joints of four angled steel pipe columns (21), four steel floor beams (22), and four steel ceiling beams (23) in a box shape are joined together up and down, left and right. In the constructed bone structure A plurality of high-strength bolts are disposed between the bottom beams and the ceiling beams with the reinforcing plate 25 interposed therebetween, with the two beams arranged against each other and the two ceiling beams disposed against each other. (B) the floor beams (22, 22) between and the ceiling beams (23, 23) between the fixed, Here, one of the two floor beams is a component of one frame unit constituting the upper layer, the other floor beams are a component of the other frame unit constituting the upper layer, and The beams of one of the two ceiling beams are constituents of one frame unit constituting the lower part, and the other ceiling beams are constituents of the other frame unit constituting the lower part. Joint structure between. The joint structure of claim 1, wherein the beams are channel steels.

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