KR20130011388A - A supporting structure - Google Patents

Abstract

PURPOSE: A supporting beam structure capable of extending a distance between columns and decreasing a ceiling height is provided to extend the distance, thereby improving the utilization rate of space. CONSTITUTION: Plural reinforcing plates(2) are inserted between the upper and the lower horizontal supporting surfaces(11,12) of a H-beam(1). An extended and protruded portion(21) is formed on the side plane of the reinforcing plate(2). The plural reinforcing plates(2) are installed at regular distances. An inclined plate(3) is fixed on the inclined surface(22) of the lower portion of the extended and protruded portion(21). A deck(4) is installed on the upper portion of the extended and protruded portion(21). A concrete layer(5) fills the upper portion of the inclined plate(3) and the upper portion of the deck(4).

Description

Supporting beam structure that can reduce the span length and ceiling height {A supporting structure}

The present invention relates to a support beam structure capable of reducing the distance extension and ceiling height of the span, and more specifically, to increase the utilization efficiency of the building by extending the span, which is the distance between the pillar and the pillar of the building, It is possible to reduce the height constituting the ceiling of the building, thereby increasing the number of floors of the building within the limits of the floor area of the designated area, thereby reducing the construction cost of the building, or increasing the ceiling height of the building available in the same floor. The space utilization can be maximized, and if the number of floors of the building is increased, the rental area is increased, so that the rent can be paid as much as the increased area. Span extension that can reduce material cost and building cost The present invention relates to a support beam structure capable of reducing the ceiling height.

In general, as the architecture develops, structures that have been supported by pillars or walls, such as housing, go beyond the dimensions of houses, public halls, automated factories, automated warehouses, animal gardens, exhibition halls, hangars, gymnasiums, leisure facilities, etc. A variety of buildings have been built and these buildings are needed.

Accordingly, in order to create a better environmental space, we have been steadily researching and developing in various fields such as advanced construction methods and technologies in the field of architectural civil engineering as well as structural foundation concrete materials.

The advantage of such a large space without pillars is to bring the maximization of space utilization efficiency. If there is a pillar in the middle of the space, the space utilization is limited by the space between the pillars. Some spaces around the columns become difficult to utilize.

However, the pillarless space can use the entire interior of the building as an effective space. In addition, it is excellent in adaptation to environmental changes. If there is a pillar in the existing space when the change of the internal facilities is required in accordance with the change of the management environment, the layout of the partition wall is severely restricted. However, without the columns, the partition wall can be arranged freely and can be adapted to any use change.

Therefore, the owners of general buildings require long-span constructions with wide distances between the pillars. However, these long span buildings have increased thickness of the supporting beams that make up the frame of the building as the length of the span increases, so that the part occupying the height of the ceiling increases, so that the building height of the building increases exponentially. There is a problem of increasing, and in the area where the height of the building is limited, it is impossible to fill the desired number of floors of the building, so that the rental income is drastically reduced, but on the contrary, there is an unreasonable problem that the building cost of the building is increased.

As shown in FIG. 1, in a modern building, a support beam 91 is disposed between upright support pillars 90 that are standing upright, and generally a duct 92 or an electrical installation is provided at a lower end of the support beam 91. If 93 is passed and the required span is large, a stronger and higher support beam 91 should be used and a separate space be provided at the bottom through which the duct 92 or the electrical installation 93 passes. Since the ceiling finish surface 94 must be installed at the bottom, the required thickness of the ceiling of the building is widened. Therefore, a problem arises in that the height of the building needs to be increased. Such problems have already been described above. This overlaps with the problem of significantly reducing this.

An object of the present invention is to increase the space utilization by extending the distance between the pillars and pillars of the building to increase the utilization of the building, while reducing the height of the H beam installed between the pillars and the pillars. The construction cost can be reduced, and on the other hand, the duct or electric equipment can be installed between the H beams, so that the ceiling finish surface is installed just below the H beam. It is possible to install it, so that the height of the building can be lowered, so that it is possible to build more floors, or to increase the height of floors in the same floor, so that the support beam structure can be extended and the ceiling height can be reduced. To provide.

This object of the present invention, the H-beam extending in the longitudinal direction, the reinforcement plate is inserted between the horizontal support surface of the upper and lower portions of the H beam, the reinforcement plate is formed on the side and the deck is disposed, the extension projection of the reinforcement plate Span according to the present invention comprising an inclined plate is fixed to the inclined slope of the lower portion, a deck is installed on top of the extension protrusion of the reinforcement plate, and a concrete layer filled in the deck is installed on the extension protrusion of the side of the reinforcement plate It is achieved by the supporting beam structure, which makes it possible to reduce the distance extension and the ceiling height of the beam.

The support beam structure and installation method which can reduce the distance extension and ceiling height of the span according to the present invention can increase the space utilization rate by extending the span, which is the distance between the pillar and the pillar of the building, while increasing the utilization of the building. By reducing the height of the H beam installed between the pillar and the pillar, construction cost can be reduced, and on the other hand, the duct or electric equipment can be installed between the interior of the H beam. It is possible to install at the bottom of the building can lower the height of the building, it is possible to build more floors, and the same floor can increase the height of the floor will have an excellent effect that can be used comfortably.

1 is a schematic longitudinal sectional view of a conventional support beam structure;
2 is a perspective view of a support beam structure according to a first embodiment of the present invention;
3 is an exploded perspective view of a support beam structure according to a first embodiment of the present invention;
4 is a longitudinal sectional view of the support beam structure according to the first embodiment of the present invention;
5 is a longitudinal sectional view showing a state where the duct of the support beam structure according to the first embodiment of the present invention is installed;
6 is a longitudinal sectional view of a support beam structure according to a second embodiment of the present invention;
7 is a longitudinal sectional view of a support beam structure according to a third embodiment of the present invention;

As shown in FIG. 2, the support beam structure A capable of reducing the distance extension and the ceiling height of the span according to the first embodiment of the present invention includes an H beam 1 extending in the longitudinal direction and having a wide surface disposed thereon. And a plurality of reinforcement plates inserted and fixed between the horizontal supporting surfaces 11 and 12 of the upper and lower portions of the H beam 1, and having side protrusions having an extension protrusion 21 disposed thereon and spaced at regular intervals. 2) and the inclined plate 3 fixed to the inclined inclined surface 22 at the lower part of the extension protrusion 21 of the reinforcing plate 2, and installed on the upper part of the extension protrusion 21 of the reinforcement plate 2 The deck 4 and the concrete layer 5 to be filled on the deck (4) provided in the extension projection 21 of the side of the reinforcing plate (2).

The height of the H beam 1 according to the first embodiment of the present invention has a height of about 300 mm when the distance between the spans is 10 m, which is when the height of the conventionally used H beam 1 is about 650 to 680 mm. In contrast, almost half the height of the H-beam can be used.

The reason is not to use only the H beam 1, but the H beams are provided by a plurality of reinforcing plates 2 provided at 2m intervals fixed between the horizontal supporting surfaces 11 and 12 of the upper and lower portions of the H beam 1. Since the strength of (1) is increased and the concrete layer 5 is hardened on the upper part of the inclined plate 3, the strength of the overall support beam structure A is increased, so that the distance between the spans is increased to 10 m. The height of the H beam 1 can be greatly reduced.

Although the spacing of the reinforcing plate 2 is described in the present embodiment as 2m, the spacing of the reinforcing plate 2 may be wider or less if necessary.

In the present embodiment, the reinforcing plate 2 is used that the thickness (t) of 5mm, one side inserted into the H beam 1 is the horizontal support surface 11, 12 of the upper and lower parts of the H beam (1) The other side of the deck (4) is arranged to have a flat quadrangular cross-section inserted and fixed therebetween is protruded so that the extension protrusion 21 is installed, the lower portion extending to the extension protrusion 21 is an inclined slope 22 It is formed, the fixing of the reinforcing plate 2 to the H beam (1) is fixed by inserting and fixing to be hit by a hitting means such as a hammer is very easy to fix. It is also possible to use the fixed reinforcement plate 2 as it is and to fix the reinforcing plate 2 and the end portions of the upper and lower horizontal supporting surfaces 11 and 12 of the H beam 1 fixed in the welded state. something to do.

When the inclined plate 3 made of plywood or tin is fixed on the inclined surface 22 of the reinforcement plate 2 having such a structure, and the deck 4 is disposed on the extension protrusion 21 of the reinforcement plate 2. The whole stage of concrete pouring is completed.

In this state, when the concrete is placed on the deck 4 and the inclined plate 3 and the concrete is hardened to form the concrete layer 5, the supporting beam structure capable of reducing the distance extension and the ceiling height according to the present invention. Installation of (A) will be completed.

The support beam structure (A) capable of reducing the distance extension and the ceiling height according to the present invention installed as described above can increase the space utilization by extending the distance, which is the distance between the pillar and the pillar of the building, thereby increasing the utilization of the building. It is possible to reduce the height of the H-beam installed between the pillar and the pillar on the one hand and to reduce the construction cost, and on the other hand, as shown in FIG. ) And electrical equipment piping (7) can be installed so that the ceiling finishing surface (8) can be installed just below the H beam (1) to lower the height of the building to build more floors It is possible to increase the height in the same number of floors.

In the present embodiment, the reinforcing plate 2 is exemplified only by the extension protrusion 21 and the inclined surface 22 formed on one side, but is not limited thereto, as shown in FIG. 6, the reinforcing plate 2 A through hole 23 through which reinforcing bars and concrete pass may be formed at the center thereof, and as shown in FIG. 7, it is fixed by welding on the lower horizontal support surface 12 of the H beam 1. The upper part may be a structure in which the deck 4 is disposed so as to be inserted into the spaced space spaced apart from the upper horizontal ground surface 12 by a predetermined distance so that the inclination plate 3 is not required.

The support beam structure and installation method which can reduce the distance extension and the ceiling height according to the present invention are manufactured by cutting and purchasing H beam or steel sheet manufactured in a general manufacturing plant, and can repeatedly manufacture such a production. Therefore, it will be said that the invention is industrially applicable.

1. H beam 2. Reinforcement plate 3. Slope plate
4. Deck 5. Concrete Floor 6. Duct
7. Electrical equipment piping

Claims (4)

In the support beam structure (A) which can reduce the distance extension and the ceiling height,
The support load structure (A), and the H beam (1) extending in the longitudinal direction,
A plurality of reinforcement plates 2 are inserted and fixed between the horizontal supporting surfaces 11 and 12 of the upper and lower portions of the H beam 1, and side extension protrusions 21 are formed on the side and spaced apart at regular intervals. ,
An inclined plate 3 fixed to an inclined inclined surface 22 at the lower part of the extension protrusion 21 of the reinforcing plate 2,
A deck 4 installed on an upper part of the extension protrusion 21 of the reinforcing plate 2,
The support beam structure, characterized in that it comprises a concrete layer (5) is filled on the top of the inclined plate (3) and the deck (4).
The method of claim 1,
The reinforcing plate 2, one side of which is inserted into the H beam 1 is formed in a flat quadrangular shape so as to be inserted and fixed between the upper and lower horizontal supporting surfaces 11 and 12 of the H beam 1, 4) the other side of the support beam structure, characterized in that the extension protruding portion 21 is installed so as to protrude and the lower portion extending to the protruding portion 21 is inclined inclined surface (22).
The method according to claim 1 or 2,
Support beam structure, characterized in that the through hole 23 is formed in the center of the reinforcing plate (2) through which the reinforcing bar and concrete pass.
In the support beam structure (A) which can reduce the distance extension and the ceiling height,
The support load structure (A), and the H beam (1) extending in the longitudinal direction,
The H beam 1 is fixed by welding on the lower horizontal support surface 12 of the H beam 1, and the upper part is spaced apart from the upper horizontal support surface 12 by a predetermined distance to form a space. A plurality of reinforcing plates (2) formed with extension protrusions (21) on which decks are arranged and spaced apart at regular intervals,
A deck 4 installed on an upper part of the extension protrusion 21 of the reinforcing plate 2,
Support beam structure, characterized in that it comprises a concrete layer (5) is filled on top of the deck (4).

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