KR200384367Y1 - A support pipe for construction - Google Patents

Abstract

The present invention relates to a building support, and in detail, the support for supporting the lower part is generally used until the concrete is laid and cured in a civil engineering or construction site. The present design prevents the twisting of the formwork until the concrete is cured. In order to be able to achieve a solid construction, and also to solve the problem of the support bent due to excessive compressive load between the support pipe 50 and the support tube for adjusting the clearance of the upper support 30 and the lower support 10 It relates to a building support provided with a horizontal connecting member 60 to maintain the spacing and improve the support of the support at the same time.

Through the present invention, it is possible to stably support the load of the concrete, not only to prevent the risk of collapse but also to prevent the deformation of the concrete during curing, it is possible to cure the structure with excellent precision.

Description

A support pipe for construction

The present invention relates to a building support, and in detail, the support for supporting the lower part is generally used until the concrete is laid and cured in a civil engineering or construction site. The present design prevents the twisting of the formwork until the concrete is cured. In order to solve the problems such as bending of the support due to excessive compressive load, it is possible to maintain the gap between the support tube and the support while adjusting the clearance between the upper support and the lower support. It relates to a building support provided with a horizontal connecting member to improve.

1 and 2 show a conventional building support, the lower support 10 which is erected on the floor slab is a hollow pipe shape, and the support plate 11 is connected to one end thereof, and a male screw part (on the outer circumferential surface of the other end). 12) is formed. The upper support 30 supporting the ceiling slab is connected to a receiving plate 40 having a hole 41 formed at a hollow pipe end, and fixing pins 1 (31) on the axial side of the upper support 30. The inserted through holes 1 32 are formed at regular intervals. In addition, the lower support 10 and the upper support 30 is coupled through the height adjustment opening (20).

 Such a conventional building support is installed between the floor slab and the ceiling slab and is dismantled after curing of the concrete. In the installation process, the upper support 30 is inserted into the lower support 10 having an inner diameter larger than the outer diameter of the upper support 30, the upper support 30 is extended to the height of the ceiling slab, and then the fixing pin 1 (31). Inserted into the long hole 13 and the through hole 1 (32) formed in the male screw portion 12, and rotate the height adjustment opening (20) as the fixing pin 1 (31) is pushed up and the upper support 30 and the ceiling It is installed with minimum spacing of slabs.

However, as described above, there is a play between the lower support 10 and the upper support 30 into which the upper support 30 is inserted, and the torsion of the support including the play portion in the process of supporting the compressive load of heavy reinforced concrete for a long time. As the site occurs, not only concrete deformation occurs during the curing process, but also problems such as bending of the support itself occur.

The present invention was devised to solve the above problems, and its purpose is to prevent the torsion caused by the play of the support in advance so as to stably support the load of concrete placed in the building without the risk of collapse.

In addition, by installing a horizontal connecting member between the support and the support to further improve the bearing capacity for the concrete compressive load.

Building support according to the present invention to achieve the above object is inserted into the lower support 10, the lower support 10 placed on the floor slab, the upper support 30 for supporting the ceiling slab, the lower support 10 ) Is composed of a height adjusting device 20 coupled to the upper support 30 to adjust the fine spacing and fixing pins 31 and 31a to prevent the upper support 30 from moving downward. On the adjuster 20, the receiving tube 50 is configured to prevent the torsion caused by the play of the support.

 Hereinafter, with reference to the accompanying drawings the technical configuration and effects of a preferred embodiment which can achieve the object of the present invention will be described.

First of all, building support is to support the lower part of concrete in construction work or construction site until it is cured. It is to build an excellent structure and to prevent accidents due to concrete collapse.

3 and 4 is a perspective view of the separation and coupling of the building support of the present invention, the lower support 10 installed in the floor slab is a hollow-shaped pipe at one end is connected to the support plate 11 is supported by the floor slab On the outer circumferential surface of the other end, a male screw portion 12 is formed.

At least two, preferably four bracket holders 62 are radially formed on the outer circumferential surface of the lower support 10. The bracket holder 62 is for installing the horizontal connecting member 60 between the lower support 10 is installed at a predetermined interval, it is possible to maintain the compression load of the concrete more firmly by connecting the support to each other .

Connection of the horizontal connecting member 60 is that the connecting piece 61 is formed on the horizontal connecting member 60 as shown in the enlarged view of the circle of Figure 3 is mounted to the bracket holder 62 and then the connecting pin 63 Will be installed.

The male screw portion 12 of the lower support 10 is screwed height adjustment knob 20 having a female threaded portion 21 therein, the handle 22 is formed on the outer circumferential surface of the height adjuster 20. In addition, a height receiving tube 50 is installed on the height adjustment port 20, one end of the force receiving tube 50 is formed with a seating groove 51 seated on the fixing pin 1 (31).

Unlike the conventional building support of FIG. 1, the male screw part 12 does not form the long hole 13. This is to increase the screw fastening force of the height adjustment sphere 20 to stably support the concrete high load compression force is that the screw fastening force is increased that much because it does not perforate a portion of the male screw portion 12 as in the prior art.

Meanwhile, the upper support 30 shown in FIG. 3 is a hollow pipe, and a receiving plate 40 supporting the ceiling slab is connected to the front end thereof. As the hole 41 of the receiving plate 40, a spacing pin 70 with a thread formed on one side is coupled and fixed with a nut 71, and a lumber 80 is inserted between the spacing pins 70 as shown in FIG. To support the ceiling slabs.

Installing the support by inserting the lumber 80 between the support plate 40 and the ceiling slab of the upper support 30 is a common method, and the left and right movements of the upper support 30 in the conventional building support of FIG. It was used to minimize this. However, the method of Figure 1 was inconvenient to sew nails 42 in the box 80. In the present invention, the wooden box 80 is sandwiched between the spacing pins 70 in the field, thereby eliminating the inconvenience of field work.

On one side of the upper support 30 in the axial direction, a through hole 1 32 penetrating the upper support 30 is formed at regular intervals, and when viewed from above, a through hole 2 penetrating as perpendicular to the through hole 1 32. 32a is formed on the other side in the axial direction. The through holes 32 and 32a are installed at regular intervals while being staggered from each other along the axial direction.

The upper support 30 is inserted into the lower support 10 through the force receiving pipe 50 and the height adjustment port 20, the fixing pin 1 (31) is inserted into the through hole 1 (32) height adjustment opening It is mounted on the top of the 20 to prevent the upper support 30 is moved to the lower side.

In addition, the mounting groove 51 of the force receiving tube 50 is seated on the fixing pin 1 (31) and the fixing pin 2 (31a) is fitted in the through hole 2 (32a) and then mounted on the upper end of the force receiving tube 50 The upper support 30 is prevented from being moved downward. The length of the force receiving tube 50 is manufactured to be equal to the interval between the through hole 1 (32) and the through hole 2 (32a).

The fixing pin 1 (31) and the fixing pin 2 (31a) is fixed from the top to the upper support 30 in the form of a cross, which is the clearance between the upper support 30 and the lower support 10 is inserted into the support of It is to solve the problem that the bending phenomenon occurs.

4 and 5 is a view in which the building support of the present invention described above is installed, a building support is installed between the floor slab and the ceiling slab, but the upper support 30 is extended to pass through the fixing pins 31 and 31a. , 32a) inserted into the receiving plate 40, and then put the wooden 80, and then rotate the height adjustment opening (20) push pins (31, 31a) is pushed up and eventually the upper support (30) is raised to the ceiling It is firmly installed on the slab.

Therefore, as described above, when the building support of the present invention is used for the construction of a ceiling slab (or structure) of a civil engineering or building site, it can stably support the load of concrete, thereby preventing the risk of collapse and curing. As the deformation of the concrete is prevented, it is possible to cure a structure having excellent precision.

1 is an exploded perspective view of a conventional building support

2 is a front view of a conventional building support

3 is an exploded perspective view of the building support of the present invention

4 is a perspective view of the combination of the building support of the present invention

5 is a front view of the building support of the present invention

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

10: Lower support

11: support plate

12: male thread part

13: long

20: height adjustment

21: female thread

22: handle

30: Upper support

31: fixing pin 1

31a: Push pin 2

32: through hole 1

32a: through hole 2

40: support plate

41: hole

42: nail

50: force receiving tube

51: seating groove

60: horizontal connecting member

61: connecting piece

62: bracket holder

63: connecting pin

70: spacing pin

71: nut

80: each item

Claims (2)

In the building support for supporting the ceiling slab (or structure), A male screw portion 12 is formed at the upper end of the lower support 10 into which the upper support 30 is fitted, which is screwed with the height adjustment port 20, and a force receiving tube 50 at the upper end of the height adjustment port 20. The mounting groove 51 formed in the seat is installed while seated on the fixing pin 1 (31), In the axial direction of the upper support 30, the through-hole 1 32 and the through-hole 2 (32a) is inserted into the fixing pin 1 31 and the fixing pin 2 (31a) are staggered from each other are formed at regular intervals, At the tip of the support 30, a spacing pin 70 supporting the wood 80 is inserted into the receiving plate 40, which is fixed by the nut 71, to support the concrete load of the ceiling slab (or structure). Building support, characterized in that. The method according to claim 1, A bracket holder 62 is radially formed on the outer circumferential surface of the lower support 10, and a horizontal connecting member 60 having a connecting piece 61 formed between the gaps of the lower support 10 installed therein is connected to the bracket holder 62. Building support, characterized in that connected to the 61 to support the concrete load of the ceiling slab (or structure).