KR200384393Y1 - Jack support pipe for construction - Google Patents

Abstract

The present invention relates to a building support, and the support for supporting the lower part is generally used until the concrete is laid and cured in a civil engineering or construction site. It is about heavy load support for building used in the receiving area.

Conventional high load support is heavy with its own weight of 70-80Kg and requires 2 ~ 3 workers per support, and the adjustment of the installation height is also limited to 30cm or less, which is usually the length of the screw (14), to meet the site floor height. There was a problem in that a large amount of support of various lengths should be provided.

Therefore, the present invention is designed to be easily installed and dismantled by one worker, and importantly, it is configured to be installed universally regardless of the height of the construction site.

Description

Jack support pipe for construction

The present invention relates to a building support, and the support for supporting the lower part is generally used until the concrete is laid and cured in a civil engineering or construction site. It is about heavy load support for building used in the receiving area.

If local compressive load occurs due to excessive load and vibration of the top plate structure under construction, it is feared that the structure will be cracked and collapsed, so the high load support is used to absorb and distribute the high load in advance.

1 and 2 show a conventional high load support for construction, the adjustment jack 10 installed on the floor slab is a height adjustment sphere 12 mounted on the base plate 11 and the screw 14 and the screw 14. Consisting of, the supporting plate 11 and the screw 14 is connected by a welding method, and the handle 13 is formed on the outer circumferential surface of the height adjustment opening (12).

In addition, the pipe support 20 for supporting the ceiling slab has a hollow shape and the receiving plate 30 is connected to the tip.

The control jack 10 and the pipe support 20 are integrally connected so that the length of the pipe support 20 can be installed according to the floor height conditions of the installation site.

The installation procedure of the conventional high load support for building first checks the height of the installation site, and then selects a support suitable for the identified height from various high load supports having various lengths.

When the selection of the high load support is finished, the support is placed horizontally on the ground to rotate the height adjustment opening (12) of the adjustment jack 10 to adjust the installation interval to facilitate entry.

Finally, after setting up the high load support vertically, by further rotating the height adjuster 12 to minimize the gap between the ceiling slab and the receiving plate 30 is to complete the installation.

However, such a conventional high load support is heavy as its own weight is 70 ~ 80Kg requires 2 to 3 people per support, and the adjustment of the installation height is also limited to 30 ~ 50cm or less, which is usually the length of the screw 14 There was a problem in that a large amount of support having a variety of lengths to meet the site floor.

The present invention was devised to solve the above problems, for the purpose of stably supporting the high loads of buildings without risk of collapse, as well as the installation of the floor according to various site conditions, as well as one worker In order to provide a high load support easy to install and dismantle.

High load support for building according to the present invention to achieve the above object is inserted into the control jack 10, the external support 21 connected to the control jack 10, which is placed on the floor slab, the external support 21 The inner tube support 22 supporting the ceiling slab and the fixing pins 40 and 40a to prevent the inner tube support 22 from moving downward. On the outer circumferential surface of the exterior support 21 and the inner tube support 22, the through holes 1 41 and the through holes 2 41a into which the fixing pins 40 and 40a are inserted are alternately formed at regular intervals along the axial direction. do.

Hereinafter, with reference to the accompanying drawings the technical configuration and effects of a preferred embodiment that can achieve the object of the present invention is as follows.

First, the support for building heavy loads is generally used to support the lower part of the concrete until it is laid and cured in civil engineering or construction sites. There is a risk of collapse due to high loads caused by local loads during casting, and minimizing such collapse risks, stably absorbing and dispersing high loads, and supporting the construction of high-precision structures are supported. to be.

3 and 4 is a perspective view of the separation and coupling of the heavy load support for construction of the present invention, the adjustment jack 10 installed in the floor slab is a height adjustment sphere mounted to the support plate 11 and the screw 14 and screw 14 It consists of a (12), the support plate 11 and the screw 14 is connected by a method such as welding, the handle 13 is formed on the outer circumferential surface of the height adjustment sphere 12, the angle of formation of the handle 13 is As shown in FIG. 3, the front end of the handle 13 is configured to be upward, so that the worker can rotate the height adjusting opening 12 in a comfortable posture by fitting the pipe 50.

The external support 21 formed integrally with the control jack 10 on the upper part of the control jack 10 has a hollow shape, and penetrates the external support 21 through one side of the external support 21 in the axial direction. Through holes 1 (41) are formed at regular intervals, and through holes 2 (41a) penetrating as orthogonal to the through holes 1 (41) when viewed from above are formed on the other side in the axial direction. The through holes 41 and 41a are formed at regular intervals while being staggered with each other along the axial direction.

On the other hand, the inner tube support 22 is inserted into the external support 21 is connected to the receiving plate 30, the front end of which supports the ceiling slab, and fixed with fixing pins 40, 40a together with the external support 21 The through hole 1 (41) is formed at a predetermined interval on one side of the inner tube support 22 in the axial direction so that the through hole 2 (41a) penetrates as if orthogonal to the through hole 1 (41) when viewed from above. It is formed on the other side of the direction.

The through holes 41 and 41a formed in the inner tube support 22 are also formed at regular intervals while being staggered from each other along the axial direction in the same manner as the positions of the through holes 41 and 41a formed in the outer support 21.

As described above, the inner tube support 22 is inserted into the outer support 21, and as shown in FIG. 4, the fixing pin 1 40 is fitted into the through hole 1 41 and then mounted on the upper end of the outer support 21. The inner tube support 22 is prevented from moving downward.

In addition, the inner tube support 22 is inserted into the outer support 21 and overlaps a predetermined portion. As shown in FIG. 4, the through-hole 1 (41) and the portion of the fixing pin 1 (40) and the fixing pin 2 (40a) overlap with each other. It is inserted into the through hole 2 (41a) to stably disperse and absorb the high compression load.

The fixing pin 1 (40) and the fixing pin 2 (40a) is fixed in a cross shape when viewed from the top of the inner tube support 22 and the outer support 21 inserted there may be a phenomenon that the support bending occurs It is also a configuration that prevents this in advance.

4 and 5 is a view installed the building support of the present invention as described above, the construction of the high load support for the construction between the floor slab and the ceiling slab but the inner tube support 22 to extend the support plate 30 to the ceiling slab appropriate Positioned at the site, the fixing pins 40 and 40a are inserted into the through holes 41 and 41a, and then the pipe 50 is inserted into the handle 13 formed upward in the height adjusting opening 12. Easily rotated), the external support 21 and the inner tube support 22 are raised to be firmly installed on the ceiling slab.

As described above, if the high load support for construction of the present invention is installed in the place where high loads are generated, it is possible to stably support the load of concrete, and the weight of the high load support is about 20 ~ 25Kg. Not only is the installation and dismantling easy by the operator, but the inner tube support can be extended, so that it can be installed universally regardless of the height of the floor of the construction site.

1 is a perspective view of a conventional high load support for construction

2 is a front view of a conventional high load support for construction

3 is an exploded perspective view of the high load support for construction of the present invention

4 is a combined perspective view of the high load support for construction of the present invention

5 is a front view of the high load support for construction of the present invention

<Description of the symbols for the main parts of the drawings>

10: adjustment jack

11: support plate

12: height adjustment

13: handle

14: screw

20: pipe support

21: appearance support

22: Inner tube support

30: receiving plate

40: fixing pin 1

40a: holding pin 2

41: through hole 1

41a: through hole 2

50: pipe

Claims (2)

In the heavy load support for building supporting the ceiling slab which a high load is generated, The through pins 1 (41) and the through holes 2 (41a), which are inserted while the fixing pins 1 (40) and the fixing pins 2 (40a) are staggered from each other, are formed at regular intervals on the side surfaces of the inner tube support (22). (22) is inserted into the exterior support 21 connected to the control jack 10 for adjusting the fine spacing, the fixing pin 1 (40) and the fixing pin 2 (40a) is inserted into the side of the exterior support (21) The through-hole 1 (41) and through-hole 2 (41a) that can be formed at regular intervals, high load support for construction, characterized in that it is possible to support the high load while adjusting the height regardless of the floor height. The method according to claim 1, The height adjustment opening (12) for adjusting the fine spacing of the control jack 10 to form a handle 13 so that the tip is upward and the height adjustment opening (12) by inserting a pipe 50 to the handle (13) High load support for construction characterized in that adjustment of height was easy as we rotated.