JP2016217054A - Support leg for floor of building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a support leg for a floor of a building, to be installed on a floor slab for supporting the floor while retaining a prescribed underfloor space on the floor slab, the support leg being installed readily and accurately all the times on the floor slab, so as to enable the floor to be installed at a prescribed position with high workability for ensuring stable support, thereby enabling highly accurate floor installation at a low cost.SOLUTION: A support leg for a floor includes cushioning rubber 10 seated on a floor slab S, a support bolt 30 supported by the cushioning rubber 10 and standing vertically, and an underfloor particle board 20 supported on top of the support bolt 30, to be lifted/lowered for supporting a floor F. The support bolt 30 is supported inside a support hole 14 of the cushioning rubber 10, to be rotatable around an axial line of the support bolt and swingably in a horizontal direction. The underfloor particle board 20 is lifted/lowered by rotating the support bolt 30 with a driver D.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a floor support leg in a building which is installed on a floor slab of a housing and supports a floor by opening a predetermined under-floor space on the floor slab.

  Conventionally, in a building, a floor slab is constituted by a cushion rubber that is grounded on a floor slab of a casing, a support bolt that is erected and held on the cushion rubber, and a panel receiver that is supported on the support bolt. A space below the floor is supported to support the flooring. There is no floor noise, the floor height can be adjusted, assembly is easy, and inspection and repair of the underfloor piping can be performed easily. Is known (see Non-Patent Document 1 below).

Book “Diagram Architectural Interior Construction” 1989. 8.30. Issue 12th edition Science and engineering company Floor finishing, soundproofing floor construction 69 pages

  By the way, in the conventional support leg, a floor panel receiver for receiving the floor and a cushion rubber seated on the floor slab are connected by support bolts extending in the vertical direction.

  However, since the ground contact surface of the floor slab of the building frame formed by placing concrete does not form a flat surface and has some unevenness, when the support legs are installed on the uneven floor slab, The support legs are inclined with respect to the vertical line, and the upper surface of the floor panel support on the support legs does not become a horizontal plane, making it difficult to support the floor with high accuracy, and there is a problem that it takes time to correct the work.

  Further, the conventional support leg has another problem that the level of the support leg cannot be adjusted after the base plywood is constructed on the floor panel receiver.

  The present invention has been made in view of such circumstances, and it is possible to easily and easily correct the support bolts in the vertical direction of the support legs and to enable the level adjustment of the support legs even after the base plywood is constructed. An object of the present invention is to provide a support leg for a floor in a new building which solves the above problems and enhances a sound insulation performance against a floor impact sound.

In order to achieve the above object, the invention according to claim 1 is a floor support in a building which is installed on a floor slab and supports the floor on the floor slab with a predetermined underfloor space. Legs,
A cushion rubber seated on the floor slab, a support bolt that is supported by the cushion rubber and stands upright, and an underfloor particle board that is supported by the upper portion of the support bolt so as to be movable up and down and supports the floor. The cushion rubber is fitted and supported in a support hole that is formed at the center of the cushion rubber so that the support bolt can rotate about its axis and swing in the lateral direction. A support washer fixed to the lower surface of the center part of the underfloor particle board is screwed, and an operation unit is provided at the upper end of the support bolt, which can be controlled to move up and down the underfloor particle board by rotating the support bolt with an appropriate tool. It is characterized by that.

  In order to achieve the above object, according to a second aspect of the present invention, in the first aspect of the present invention, the cushion rubber is formed in a trapezoidal shape that tapers upward, and is supported by the cushion rubber. Is characterized in that it swings and swings laterally with respect to the cushion rubber seated on the floor slab so as to be corrected and held in the vertical direction.

  In order to achieve the above object, according to a third aspect of the present invention, in the first or second aspect of the present invention, the cushion rubber is formed in a stepped shape in the vertical direction in a truncated pyramid shape. It is a feature.

  In order to achieve the above object, according to a fourth aspect of the present invention, in the first, second, or third aspect, a plurality of support ribs that are seated on a floor slab are integrally formed on the bottom surface of the cushion rubber. It is characterized by being formed.

  According to the first aspect of the present invention, it is possible to support the floor stably and accurately by opening a predetermined underfloor space on the floor slab simply by installing the support legs on the floor slab. Even if the ground surface of the slab is uneven, the floor can be supported in the desired horizontal position by holding the support bolts vertically, and the support legs can lift and lower the under-floor particle board even after installation on the floor slab. It is possible to control and easily adjust the position of the floor, and the workability of the support legs can be greatly improved.

  According to a second aspect of the present invention, the cushion rubber is formed in a trapezoidal shape that tapers upward, and the support bolt supported by the cushion rubber is cushioned and seated on the floor slab at an angle. In contrast, since the head is swung horizontally and is corrected and held in the vertical direction, the support leg can be stably supported at a predetermined position even when the ground contact surface of the floor slab is uneven.

  According to the third aspect of the present invention, the cushion rubber is formed in a truncated pyramid shape and stepped in the vertical direction, so that the grounding surface to the floor slab can be widened to stably support the support legs. In addition, the support bolt can be easily corrected in the vertical direction, and the overall capacity of the cushion rubber can be reduced to reduce the cost.

  According to the fourth aspect of the present invention, since the plurality of support ribs that are seated on the floor slab are integrally formed on the bottom surface of the cushion rubber, the cushion rubber is attached to the floor slab in order to stably support the support legs. Despite the expansion of the bottom area, the sound insulation performance can be improved by reducing the ground contact surface to the floor slab.

A perspective view of the building frame showing the support legs installed on the floor slab Enlarged view of the phantom line encircled portion in FIG. Enlarged cross-sectional view along line 3-3 in FIG. Enlarged view of the area surrounded by the phantom line in FIG. Enlarged view of the phantom line encircled portion shown in FIG. Exploded sectional view of support legs Plan view along line 7-7 in FIG. Bottom view along line 8-8 in FIG.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the accompanying drawings 1 to 8.

  As shown in FIG. 1, a plurality of support legs P according to the present invention are installed at predetermined intervals on a floor slab S of a building frame B constructed by placing concrete. A floor F is laid on the base plywood 50 above.

  Next, the structure of the support leg P according to the present invention will be described with reference to FIGS.

  The support legs P support the cushion rubber 10 installed on the floor slab S, the underfloor particle board 20 that supports the floor F, and the underfloor particle board 20 on the cushion rubber 10 with a predetermined underfloor space. It comprises a support bolt 30.

  The cushion rubber 10 is made of a natural rubber material, and is configured to maintain a durable and stable quality. The cushion rubber 10 has a trapezoidal shape, specifically, a truncated hexagonal cone shape that tapers upward. 11 and 12 are formed in a step shape in the vertical direction. On the upper surface of the cushion rubber 10, a flat support surface 13 that supports the support bolt 30 via a washer 40 is formed, and a bottomed cylindrical support hole 14 having an open upper surface is formed at the center thereof. ing. And the annular ridge part 15 which goes to a radial inside is integrally formed in the upper edge of this support hole 14 (refer FIG. 6).

  Further, a plurality of support ribs 17 on a semicircular cross section are integrally formed downward on the outer peripheral portion of the bottom surface of the cushion rubber 10 with a circumferential interval, and a plurality of radiation ribs are formed in the center portion thereof. An annular support surface 18 is integrally formed, and the cushion rubber 10 is seated and supported on the floor slab S via the support ribs 17 and the annular support surface 18.

  The support bolt 30 fitted and supported in the support hole 14 of the cushion rubber 10 includes a screw portion 31, a lower shaft portion 32, and a head portion 33 therebetween, and the shaft portion 32 is a cushion. The rubber 10 is rotatably supported in the support hole 14 of the rubber 10 via a washer 40. At this time, the annular ridge 15 on the upper edge of the support hole 14 is brought into contact with the outer peripheral surface of the shaft portion 32 (see FIG. 4, 5). The support bolt 30 can swing in the lateral direction with respect to the support hole 14 while elastically deforming the cushion rubber 10 with the upper edge of the support hole 14 as a base point. Further, an operation portion, in this embodiment, a concave groove 35 is formed at the upper end of the support bolt 10, and the edge e of the driver D is inserted into the concave groove 35 as shown in FIG. Can be rotationally controlled from the outside (see FIG. 4).

  The underfloor particle board 20 supported on the support bolt 30 is formed in a square shape from a hard synthetic resin material, and a bolt hole 21 that opens up and down is formed at the center of the underfloor particle board 20. A metallic support washer 22 is secured to the center of the lower surface with a plurality of screws 24. The female screw hole 23 of the support washer 22 communicates with the bolt hole 21. The upper portion of the screw portion 31 of the support bolt 30 is screwed into the female screw hole 23 of the support washer 22 and inserted into the bolt hole 21. Then, the underfloor particle board 20 can be raised and lowered by rotating the support bolt 30 from the outside.

  By the way, the cushion rubber 10 is formed in a trapezoidal shape that is tapered upward, that is, a truncated hexagonal pyramid shape, so that the swinging of the upper edge of the cushion rubber 10 in the lateral direction is facilitated. It is possible to facilitate the correction in the vertical direction and increase the contact surface to the floor slab S to support the support legs P stably.

  Furthermore, by forming a plurality of support ribs 17 and an annular support surface 18 on the bottom surface of the cushion rubber 10, it is possible to improve the followability to the uneven surface of the floor slab S and stably support the support legs P. In addition, although the bottom area of the cushion rubber 10 is increased, the ground contact portion to the floor slab S can be reduced to contribute to the improvement of sound insulation.

  Furthermore, the cushion rubber 10 is formed in a trapezoidal shape that is tapered upward, that is, a truncated hexagonal pyramid, so that the material of the cushion rubber 10 can be saved and the cost can be reduced.

  Further, the support leg P according to the present invention can support the floor F simply by placing it on the ground contact surface on the floor slab S, and the conventional edge joist is not required for the construction by the support leg. Therefore, the cost of floor construction can be reduced.

  Next, a process of supporting the floor F on the floor slab S by the support legs P according to the present invention will be described.

[When the support surface of the floor slab S on which the support legs P are installed is horizontal]
As shown in FIG. 4, the cushion rubber 10 is horizontally installed on the horizontal support surface of the floor slab S, and the support bolt 30 that is supported upright on the cushion rubber 10 has an axis L of the support hole 14. -L matches the vertical line V-V, and the floor support surface of the underfloor particle board 20 supported on the upper side thereof becomes a horizontal plane, and the floor F is constructed thereon via the base plywood 50. At this time, since the axis line L-L of the support bolt 30 coincides with the vertical line V-V, the floor F is supported horizontally and the construction accuracy of the floor F is improved.

  Further, even after the construction of the base plywood 50, the level of the underfloor particle board 20 can be adjusted by rotating the support bolt 30 through the through hole 51 with a tool, that is, the driver D.

[When the support surface of the floor slab S on which the support legs P are installed is not horizontal]
As shown in FIG. 5, when the support surface of the floor slab S is uneven, and the cushion rubber 10 is inclined and installed on the support surface, the axis LL of the support hole 14 of the cushion rubber 10 is vertical. The axis of the support bolt 30 that is inclined with respect to the line V-V and fitted and supported in the support hole 14 is also inclined with respect to the vertical line. At this time, the support bolt 30 is attached to the cushion rubber 10. By swinging in the lateral direction with respect to the support hole 14, the axis L-L of the support bolt 30 can be made to coincide with the vertical line V-V, and the floor F can be supported horizontally. Construction accuracy is improved.

  Even in this case, the level of the underfloor particle board 20 can be adjusted by rotating the support bolt 30 with the tool, that is, the driver D, through the through hole 51 even after the construction of the base plywood 50.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to that embodiment, Various other embodiment is possible within the scope of the present invention.

  For example, in the embodiment, the cushion rubber is formed in a truncated hexagonal pyramid shape, but may be formed in a truncated pyramid shape or a truncated cone shape other than a hexagon.

10 ... Cushion rubber 14 ... Support hole 17 ... Support rib 20 ... Underfloor particle board 22 ··· Support washer 30 ··· Support bolt 35 ··· Operation part (operation groove)
F ・ ・ ・ ・ ・ Floor D ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Driver (tool)
S: Floor slab

  The present invention relates to a floor support leg in a building which is installed on a floor slab of a housing and supports a floor by opening a predetermined under-floor space on the floor slab.

  Conventionally, in a building, a floor slab is constituted by a cushion rubber that is grounded on a floor slab of a casing, a support bolt that is erected and held on the cushion rubber, and a panel receiver that is supported on the support bolt. A space below the floor is supported to support the flooring. There is no floor noise, the floor height can be adjusted, assembly is easy, and inspection and repair of the underfloor piping can be performed easily. Is known (see Non-Patent Document 1 below).

Book “Diagram Architectural Interior Construction” 1989. 8.30. Issue 12th edition Science and engineering company Floor finishing, soundproofing floor construction 69 pages

  By the way, in the conventional support leg, a floor panel receiver for receiving the floor and a cushion rubber seated on the floor slab are connected by support bolts extending in the vertical direction.

  However, since the ground contact surface of the floor slab of the building frame formed by placing concrete does not form a flat surface and has some unevenness, when the support legs are installed on the uneven floor slab, The support legs are inclined with respect to the vertical line, and the upper surface of the floor panel support on the support legs does not become a horizontal plane, making it difficult to support the floor with high accuracy, and there is a problem that it takes time to correct the work.

  Further, the conventional support leg has another problem that the level of the support leg cannot be adjusted after the base plywood is constructed on the floor panel receiver.

  The present invention has been made in view of such circumstances, and it is possible to easily and easily correct the support bolts in the vertical direction of the support legs and to enable the level adjustment of the support legs even after the base plywood is constructed. An object of the present invention is to provide a support leg for a floor in a new building which solves the above problems and enhances a sound insulation performance against a floor impact sound.

In order to achieve the above object, the invention according to claim 1 is a floor support in a building which is installed on a floor slab and supports the floor on the floor slab with a predetermined underfloor space. Legs,
It consists of a cushion rubber seated on the floor slab, a support bolt that stands upright in the vertical direction supported by this cushion rubber, and an underfloor particle board that is supported by the upper part of this support bolt so as to be able to move up and down and supports the floor,
The cushion rubber is formed with a support hole having an open upper surface at the center thereof, and an annular ridge portion that is radially inwardly formed integrally with the upper edge of the support hole. The support bolt is fitted and supported so as to be rotatable around its axis and swingable in the lateral direction, the annular ridge is brought into contact with the outer peripheral surface of the support bolt, and the flat formed on the upper surface of the cushion rubber The support bolt is supported on a support surface, and a support washer fixed to the lower surface of the center part of the underfloor particle board is screwed onto the support bolt, and the support bolt is mounted on the upper end of the support bolt with an appropriate tool. It is characterized in that an operation unit is provided that can control the raising and lowering of the underfloor particle board by rotating.

  In order to achieve the above object, according to a second aspect of the present invention, in the first aspect of the present invention, the cushion rubber is formed in a trapezoidal shape that tapers upward, and is supported by the cushion rubber. Is characterized in that it swings and swings laterally with respect to the cushion rubber seated on the floor slab so as to be corrected and held in the vertical direction.

  In order to achieve the above object, according to a third aspect of the present invention, in the first or second aspect of the present invention, the cushion rubber is formed in a stepped shape in the vertical direction in a truncated pyramid shape. It is a feature.

  In order to achieve the above object, according to a fourth aspect of the present invention, in the first, second, or third aspect, a plurality of support ribs that are seated on a floor slab are integrally formed on the bottom surface of the cushion rubber. It is characterized by being formed.

  According to the first aspect of the present invention, it is possible to support the floor stably and accurately by opening a predetermined underfloor space on the floor slab simply by installing the support legs on the floor slab. Even if the ground surface of the slab is uneven, the floor can be supported in the desired horizontal position by holding the support bolts vertically, and the support legs can lift and lower the under-floor particle board even after installation on the floor slab. It is possible to control and easily adjust the position of the floor, and the workability of the support legs can be greatly improved.

  According to a second aspect of the present invention, the cushion rubber is formed in a trapezoidal shape that tapers upward, and the support bolt supported by the cushion rubber is cushioned and seated on the floor slab at an angle. In contrast, since the head is swung horizontally and is corrected and held in the vertical direction, the support leg can be stably supported at a predetermined position even when the ground contact surface of the floor slab is uneven.

  According to the third aspect of the present invention, the cushion rubber is formed in a truncated pyramid shape and stepped in the vertical direction, so that the grounding surface to the floor slab can be widened to stably support the support legs. In addition, the support bolt can be easily corrected in the vertical direction, and the overall capacity of the cushion rubber can be reduced to reduce the cost.

  According to the fourth aspect of the present invention, since the plurality of support ribs that are seated on the floor slab are integrally formed on the bottom surface of the cushion rubber, the cushion rubber is attached to the floor slab in order to stably support the support legs. Despite the expansion of the bottom area, the sound insulation performance can be improved by reducing the ground contact surface to the floor slab.

A perspective view of the building frame showing the support legs installed on the floor slab Enlarged view of the phantom line encircled portion in FIG. Enlarged cross-sectional view along line 3-3 in FIG. Enlarged view of the area surrounded by the phantom line in FIG. Enlarged view of the phantom line encircled portion shown in FIG. Exploded sectional view of support legs Plan view along line 7-7 in FIG. Bottom view along line 8-8 in FIG.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the accompanying drawings 1 to 8.

  As shown in FIG. 1, a plurality of support legs P according to the present invention are installed at predetermined intervals on a floor slab S of a building frame B constructed by placing concrete. A floor F is laid on the base plywood 50 above.

  Next, the structure of the support leg P according to the present invention will be described with reference to FIGS.

  The support legs P support the cushion rubber 10 installed on the floor slab S, the underfloor particle board 20 that supports the floor F, and the underfloor particle board 20 on the cushion rubber 10 with a predetermined underfloor space. It comprises a support bolt 30.

  The cushion rubber 10 is made of a natural rubber material, and is configured to maintain a durable and stable quality. The cushion rubber 10 has a trapezoidal shape, specifically, a truncated hexagonal cone shape that tapers upward. 11 and 12 are formed in a step shape in the vertical direction. On the upper surface of the cushion rubber 10, a flat support surface 13 that supports the support bolt 30 via a washer 40 is formed, and a bottomed cylindrical support hole 14 having an open upper surface is formed at the center thereof. ing. And the annular ridge part 15 which goes to a radial inside is integrally formed in the upper edge of this support hole 14 (refer FIG. 6).

  Further, a plurality of support ribs 17 on a semicircular cross section are integrally formed downward on the outer peripheral portion of the bottom surface of the cushion rubber 10 with a circumferential interval, and a plurality of radiation ribs are formed in the center portion thereof. An annular support surface 18 is integrally formed, and the cushion rubber 10 is seated and supported on the floor slab S via the support ribs 17 and the annular support surface 18.

  The support bolt 30 fitted and supported in the support hole 14 of the cushion rubber 10 includes a screw portion 31, a lower shaft portion 32, and a head portion 33 therebetween, and the shaft portion 32 is a cushion. The rubber 10 is rotatably supported in the support hole 14 of the rubber 10 via a washer 40. At this time, the annular ridge 15 on the upper edge of the support hole 14 is brought into contact with the outer peripheral surface of the shaft portion 32 (see FIG. 4, 5).

  The support bolt 30 can swing in the lateral direction with respect to the support hole 14 while elastically deforming the cushion rubber 10 with the upper edge of the support hole 14 as a base point. Further, an operation portion, in this embodiment, a concave groove 35 is formed at the upper end of the support bolt 10, and the edge e of the driver D is inserted into the concave groove 35 as shown in FIG. Can be rotationally controlled from the outside (see FIG. 4).

The underfloor particle board 20 supported on the support bolt 30 is formed in a square shape from a hard synthetic resin material, and a bolt hole 21 that opens up and down is formed at the center of the underfloor particle board 20. A metallic support washer 22 is secured to the center of the lower surface with a plurality of screws 24. The female screw hole 23 of the support washer 22 communicates with the bolt hole 21. The upper portion of the screw portion 31 of the support bolt 30 is screwed into the female screw hole 23 of the support washer 22 and inserted into the bolt hole 21. Then, by rotating the support bolt 30 from the outside, it is possible elevation control of underfloor particle board 20.

  By the way, the cushion rubber 10 is formed in a trapezoidal shape that is tapered upward, that is, a truncated hexagonal pyramid shape, so that the swinging of the upper edge of the cushion rubber 10 in the lateral direction is facilitated. It is possible to facilitate the correction in the vertical direction and increase the contact surface to the floor slab S to support the support legs P stably.

  Furthermore, by forming a plurality of support ribs 17 and an annular support surface 18 on the bottom surface of the cushion rubber 10, it is possible to improve the followability to the uneven surface of the floor slab S and stably support the support legs P. In addition, although the bottom area of the cushion rubber 10 is increased, the ground contact portion to the floor slab S can be reduced to contribute to the improvement of sound insulation.

  Furthermore, the cushion rubber 10 is formed in a trapezoidal shape that is tapered upward, that is, a truncated hexagonal pyramid, so that the material of the cushion rubber 10 can be saved and the cost can be reduced.

  Further, the support leg P according to the present invention can support the floor F simply by placing it on the ground contact surface on the floor slab S, and the conventional edge joist is not required for the construction by the support leg. Therefore, the cost of floor construction can be reduced.

  Next, a process of supporting the floor F on the floor slab S by the support legs P according to the present invention will be described.

[When the support surface of the floor slab S on which the support legs P are installed is horizontal]
As shown in FIG. 4, the cushion rubber 10 is horizontally installed on the horizontal support surface of the floor slab S, and the support bolt 30 that is supported upright on the cushion rubber 10 has an axis L of the support hole 14. -L matches the vertical line V-V, and the floor support surface of the underfloor particle board 20 supported on the upper side thereof becomes a horizontal plane, and the floor F is constructed thereon via the base plywood 50. At this time, since the axis line L-L of the support bolt 30 coincides with the vertical line V-V, the floor F is supported horizontally and the construction accuracy of the floor F is improved.

  Further, even after the construction of the base plywood 50, the level of the underfloor particle board 20 can be adjusted by rotating the support bolt 30 through the through hole 51 with a tool, that is, the driver D.

[When the support surface of the floor slab S on which the support legs P are installed is not horizontal]
As shown in FIG. 5, when the support surface of the floor slab S is uneven, and the cushion rubber 10 is inclined and installed on the support surface, the axis LL of the support hole 14 of the cushion rubber 10 is vertical. The axis of the support bolt 30 that is inclined with respect to the line V-V and fitted and supported in the support hole 14 is also inclined with respect to the vertical line. At this time, the support bolt 30 is attached to the cushion rubber 10. By swinging in the lateral direction with respect to the support hole 14, the axis L-L of the support bolt 30 can be made to coincide with the vertical line V-V, and the floor F can be supported horizontally. Construction accuracy is improved.

  Even in this case, the level of the underfloor particle board 20 can be adjusted by rotating the support bolt 30 with the tool, that is, the driver D, through the through hole 51 even after the construction of the base plywood 50.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to that embodiment, Various other embodiment is possible within the scope of the present invention.

  For example, in the embodiment, the cushion rubber is formed in a truncated hexagonal pyramid shape, but may be formed in a truncated pyramid shape or a truncated cone shape other than a hexagon.

10 ..... cushion rubber
13 ... Support surface 14 ... Support hole
15 ............ annular ridge 17 ...... support rib 20 ...... underfloor particle board 22 ............ · Support washer 30 ·········· Support bolt 35 ········ Operation part (operation groove)
F ・ ・ ・ ・ ・ Floor D ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Driver (tool)
S: Floor slab

Claims (4)

A floor support leg for a building installed on the floor slab (S) and supporting the floor (F) on the floor slab (S) with a predetermined underfloor space,
A cushion rubber (10) seated on the floor slab (S), a support bolt (30) that is supported by the cushion rubber (10) and stands upright, and can be raised and lowered above the support bolt (30). And under floor particle board (20) that supports the floor (F).
The cushion rubber (10) is fitted in a support hole (14) open at the top surface formed in the center of the cushion rubber (10) so that the support bolt (30) can rotate about its axis and can swing laterally. A support washer (22) fixed to the lower surface of the center part of the underfloor particle board (20) is screwed onto the upper part of the support bolt (30), and an appropriate tool is attached to the upper end of the support bolt (30). A floor support leg in a building, characterized in that an operation part (35) capable of rotating the support bolt (30) according to (D) and controlling the movement of the underfloor particle board (20) is provided.   The cushion rubber (10) is formed in a trapezoidal shape that tapers upward, and the support bolt (30) supported by the cushion rubber (10) is seated on the floor slab (S) in an inclined manner. The floor support leg in a building according to claim 1, characterized in that it swings and swings laterally with respect to the cushion rubber (10) and is corrected and held in the vertical direction.   The floor support leg in a building according to claim 1 or 2, wherein the cushion rubber (10) has a truncated pyramid shape and is formed in a step shape in the vertical direction.   A plurality of support ribs (17) seated on a floor slab (S) are integrally formed on the bottom surface of the cushion rubber (10). Floor support legs for the listed building.

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