JP2011132782A - Supporting leg for floating floor, and method of laying of floating floor panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a support leg A for a floating floor which can be manufactured at a lower cost, and facilitates height adjustment after laying a panel. <P>SOLUTION: The support leg for the floating floor includes a lower support leg 10, an upper support leg 20, a receiving board 30 and a height-adjusting bolt 40. The lower support leg 10 is a hollow cylinder having a bottom plate on a bottom face thereof and an open upper face. The upper support leg 20 is a hollow cylinder, having a loading plate on an upper face thereof and an open bottom face. The upper support leg 20 can be telescopically inserted into the lower support leg 10. The loading plate 22 has a grout injecting hole 24, and a center screw hole 23. The height-adjusting bolt 40 is threadedly fitted to the screw hole 23. This simple structure enables low-cost manufacturing. By adjusting the height of the loading plate through the rotation of the height adjusting bolt 40, the height of a floating floor panel B is adjusted. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a floating floor support leg and a floating floor panel laying method. More specifically, the present invention relates to a method of laying a floating floor panel with a certain height on the existing floor, and a floating floor support leg used therefor.

Mainly on outdoor balconies and rooftops, by installing a floating floor panel with a certain height gap on the existing floor, piping can be installed in the space under the floating floor panel, By adjusting the thickness, it is possible to make it barrier-free.
The laying of floating floor panels employed are floating floor supporting legs, there is a support device described in Patent Document 1 as an example of a conventional floating floor support leg.

As shown in FIG. 8, the support device disclosed in Patent Document 1 includes a base 110, a floating floor panel support 130 formed on the base 110, and a support screw 130 via a fixing screw rod 141. And a presser plate 144 that moves downward. The base 110 is formed in a circular shape as a whole, and is the bottom roof mounting part 111, a rising cylinder part 111a formed on the roof mounting part 111, and a bottom screwed to the inner wall of the rising cylinder part 111a. The adjustment screw cylinder 113 and the upper adjustment screw cylinder 114 screwed into the inner wall cavity of the lower adjustment screw cylinder 113 are included.
Because of such a configuration, by rotating the lower adjustment screw cylinder 113 and the upper adjustment screw cylinder 114, it is possible to freely adjust the height of the cradle surface 116 and to make the floating floor panel correspond to the laying height. it can.

  However, once the floating floor panel is laid, the floating floor support leg is configured to be screwed with the large screw as described above, although it is no longer necessary to adjust the height. There is a problem that it becomes complicated and the manufacturing cost becomes high. In addition, to finely adjust the height after laying the floating floor panel, a person must enter the floor and rotate the upper adjustment screw cylinder 114 and the lower adjustment screw cylinder 113. it is impossible.

JP 2001-173204 JP

  In view of the above circumstances, an object of the present invention is to provide a floating floor support leg that can be manufactured at low cost and can be easily adjusted in height after panel laying.

A floating floor support leg according to a first aspect of the present invention includes a lower support leg, an upper support leg, a receiving plate, and a height adjustment bolt that is rotatably provided on the receiving plate, A bottom plate is provided on the bottom surface, and the top surface is a hollow cylinder having an open top surface, and the upper support leg is a hollow tube having a top surface on which a loading plate is provided and a bottom surface is opened, and the top support leg is in the bottom support leg. A floating floor characterized in that it can be inserted telescopically, and the loading plate is provided with a grout injection hole and a central screw hole, and the height adjusting bolt is screwed into the screw hole. Support legs.
A floating floor support leg according to a second aspect of the present invention is the floating floor support leg according to the first aspect, wherein an annular cushion rubber is attached to the outer periphery of the lower end of the upper support leg.
The floating floor support leg according to a third aspect of the present invention is the float according to the first or second aspect, wherein a steel bar is provided on the outer surface of the upper support leg to reduce the gap between the lower support leg and the inner surface. Floor support legs.
A floating floor support leg according to a fourth aspect of the present invention is the floating floor according to the first, second or third aspect, wherein a level adjusting bolt is screwed to the bottom plate and a mortar injection hole is provided. Support legs.
The support leg for a floating floor according to a fifth aspect of the present invention is the first, second, third, or fourth aspect, wherein the loading plate is provided with a pin that can be inserted into a fixing hole provided in the floating floor panel. Supporting feet for floating floors.
According to a sixth aspect of the present invention, in the first, second, third, fourth, or fifth invention, the loading leg is provided with a positioning bar that can be inserted into the joint of the floating floor panel. Supporting feet for floating floors.
A floating floor panel laying method according to a seventh invention is a floating floor panel laying method using the floating floor support legs according to the first invention, wherein the lower support legs are installed on the existing floor surface, The concrete is filled with concrete and solidified, and the height is roughly adjusted. A backing plate is installed on the concrete, and the upper support leg, the adjustment bolts previously screwed into the screw holes, and the lower support leg are installed. The floating floor panel is loaded on the loading plate, and the height of the floating floor panel is adjusted by rotating the height adjusting bolt, and the height of the floating floor panel is adjusted through the grout injection hole of the loading plate. Filled with grout and solidified.

According to the first invention, the lower support leg and the upper support leg are hollow cylinders and have a simple structure, and therefore can be manufactured at low cost. Therefore, the construction cost of the floating floor panel can be reduced. In addition, the upper support leg can be telescopically inserted into the lower support leg, and the height adjustment bolt is screwed into the screw hole provided in the stacking plate. By adjusting the height, the height of the floating floor panel can be adjusted. Furthermore, since there is room for the upper support leg to move in a horizontal plane even when it is inserted into the lower support leg, it is easy to align the loaded floating floor panel in the horizontal direction.
According to the second invention, since the annular cushion rubber is attached to the outer periphery of the lower end of the upper support leg, the upper support leg can be roughly positioned by friction between the upper support leg and the lower support leg. Moreover, it is a gap between the upper support leg and a lower support leg is sealed, grout to fill the upper support the leg is prevented from leaking to the outside.
According to the third aspect of the invention, since the steel bar for reducing the gap with the inner surface of the lower support leg is provided on the outer surface of the upper support leg, the upper support leg can be prevented from being largely inclined in the lower support leg.
According to the fourth invention, since the level adjustment bolt is screwed to the bottom plate, the lower support legs are installed with the bottom plate horizontal even if the existing floor has a slope or is not flat. Can do. Moreover, since the mortar injection hole is provided in the bottom plate, the weight applied to the floating floor support legs can be supported by the entire bottom plate by filling the mortar between the bottom plate and the existing floor surface and solidifying the mortar.
According to the fifth aspect, since the pin that can be inserted into the fixing hole provided in the floating floor panel is provided on the loading plate, the floating floor panel can be fixed at a predetermined position.
According to the sixth aspect of the present invention, since the positioning bar that can be inserted into the joint of the floating floor panel is provided on the loading plate, the joint width of the floating floor panel can be kept constant.
According to the seventh aspect, since the concrete is filled in the lower support legs and the receiving plate is installed on the concrete, the height of the floating floor panel can be adjusted by the concrete filling amount. Further, the height of the floating floor panel can be finely adjusted by rotating the height adjusting bolt. Furthermore, since the lower support legs and the upper support legs are filled with concrete and grout, the floating floor support legs become strong and can support a considerable weight.

It is use condition explanatory drawing of the support leg A for floating floors which concerns on one Embodiment of this invention. The lower support leg 10 of the floating leg support leg A is shown, (A) is a plan view, (B) is a side view, and (C) is a cross-sectional view taken along the line CC in FIG. The upper support leg 20 of the floating leg support leg A is shown, (A) is a plan view, (B) is a side view, and (C) is a cross-sectional view taken along line CC in FIG. It is a perspective view of the cushion rubber 28 of the support leg A for the floating floor. It is explanatory drawing of the receiving plate 30 and the height adjustment bolt 40 of the support leg A for the floating floor. It is explanatory drawing of the laying method of the floating floor panel B using the same support leg A for floating floors, (A) is lower support leg installation, (B) is concrete filling, (C) is upper support leg installation, (D ) Is a diagram showing floating floor panel loading. It is explanatory drawing of the floating floor using the support leg A for the floating floor, (A) is a top view, (B) is a side view. It is a side view of the support leg for floating floors of a prior art.

Next, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, a floating floor support leg A according to an embodiment of the present invention mainly stands on a lower support leg 10, an upper support leg 20, a receiving plate 30, and a receiving plate 30 so as to be rotatable. The height adjustment bolt 40 is provided.

  As shown in FIG. 2, the lower support leg 10 includes a hollow cylindrical portion 11 and a rectangular bottom plate 12. The bottom plate 11 is welded to one end of the cylindrical portion 11, and the bottom plate 11 is installed on the floor surface to thereby form a cylindrical portion. so that the can upright 11. The other end of the cylindrical portion 11, that is, the upper surface of the lower support leg 10 has an open shape.

Level adjustment bolts 13 are screwed into the four corners of the bottom plate 12 so that the screw tips of the level adjustment bolts 13 protrude downward from the bottom plate 12. Therefore, by adjusting the screwing degree of the leveling bolts 13, thereby making it possible to adjust the level of the bottom plate 12 when installed on the floor.
Further, the bottom plate 12 is provided with a mortar injection hole 14, and after adjusting the level of the bottom plate 12 with the level adjusting bolt 13, the mortar can be filled between the bottom plate 12 and the floor surface. Yes.

  As shown in FIG. 3, the upper support leg 20 includes a hollow cylindrical portion 21 and a rectangular loading plate 22. The loading plate 22 is welded to the upper end of the cylindrical portion 21, and the bottom end has an open shape. . The outer diameter of the cylindrical portion 21 is slightly smaller than the inner diameter of the cylindrical portion 11 of the lower support leg 10 and can be inserted into the cylindrical portion 11 in a telescopic manner. In a state where the cylindrical portion 21 is inserted into the cylindrical portion 11, the stacking plate 22 becomes the upper surface of the upper support leg 20, and the floating floor panel B can be stacked on the stacking plate 22.

  A hole is formed in the center of the loading plate 22, and a screw hole 23 is formed by welding a high nut communicating with the hole inside the cylindrical portion 21. Further, a grout injection hole 24 communicating with the inside of the cylindrical portion 21 is provided around the screw hole 23 and at the front and rear center positions of the stacking plate 22.

  Further, pins 25 protruding upward are provided at the four corners of the upper surface of the stacking plate 22. Further, a positioning bar 26 that is long toward the center and protrudes upward is provided at the front and rear center and the left and right center positions on the outer periphery of the stacking plate 22. Note that both the pin 25 and the positioning bar 26 may be provided, or both of them may be provided. Even in that case, the floating floor can be positioned. The pin 25 may be shorter.

The lower end of the cylindrical portion 21 is formed with a groove 27 which goes around the outer periphery, an annular cushion rubber 28 shown in FIG. 4 has been thus mounted in the groove 27.
The cushion rubber 28 can seal the gap between the cylindrical portion 21 of the upper support leg 20 and the cylindrical portion 11 of the lower support leg 10.

  Further, four steel bars 29 having a round cross section are welded along the longitudinal direction of the cylindrical portion 21 on the outer surface of the cylindrical portion 21, and the cylindrical portion 21 of the upper support leg 20 and the cylindrical portion 11 of the lower support leg 10. The clearance between the cylindrical portion 21 and the cylindrical portion 11 is reduced to regulate the inclination of the upper support leg 20.

As shown in FIG. 5, the receiving plate 30 includes a plate member 31 and a cylindrical member 32. The plate member 31 is sized to fit inside the cylindrical portion 21 of the upper support legs 20, the cylindrical member 32 is erected at the center of the plate member 31 is welded.
Height adjustment bolt 40 is a bolt long, the screw destination is not threaded is formed, inserted in the cylindrical member 32 is rotatable. Therefore, the height adjusting bolt 40 is erected on the receiving plate 30 so as to be freely rotatable. A hexagonal hole or the like is provided on the top surface of the head of the height adjustment bolt 40 so that it can be rotated with a tool. The shaft diameter of the height adjusting bolt 40 is sized to be screwed into the screw hole 23 provided in the stacking plate 22.

  As described above, the support leg A of the present embodiment has a simple configuration including a cylindrical member and a long bolt, and therefore can be manufactured at low cost. Therefore, the construction cost of the floating floor panel B can be reduced.

Next, a method for laying the floating floor panel B using the floating leg support leg A will be described.
(1) Lower Support Leg Installation As shown in FIG. 7A, the floating floor support leg A according to this embodiment is installed so as to support the intersection of the floating floor panel B laid in a grid pattern. Is done. Therefore, first, the lower support legs 10 are installed on the existing floor surface in accordance with the dimensions of the floating floor panel B.
As shown in FIG. 6A, when the lower support leg 10 is installed, the level adjustment bolt 13 screwed into the bottom plate 12 is adjusted so that the bottom plate 12 becomes horizontal. By doing so, the lower support leg 10 can be installed even if the existing floor has a slope or is not flat.
After the bottom plate 12 is adjusted horizontally, the mortar 51 is injected from the mortar injection hole 14 provided in the bottom plate 12, and the mortar 51 is filled between the bottom plate 12 and the existing floor surface to be solidified. Accordingly, the weight applied to the floating floor support leg A can be supported by the entire bottom plate 12.

(2) concrete filling Next, as shown in FIG. 6 (B), the concrete 52 is filled in the cylindrical portion 11 of the lower support legs 10 installed, to solidify. As will be described later, since the height of the upper support leg 20 is adjusted by the height adjustment bolt 40 with reference to the upper surface of the concrete 52, the height of the floating floor panel B is adjusted by adjusting the filling amount of the concrete 52. Coarse adjustment is possible.

(3) Installation of upper support legs Next, as shown in FIG. 6C, a receiving plate 30 is installed on the concrete 52 and screwed into the upper support legs 20 and the screw holes 23 of the upper support legs 20 in advance. The previously adjusted height adjusting bolt 40 is inserted into the cylindrical portion 11 of the lower support leg 10. At this time, the screw tip of the height adjusting bolt 40 is fitted into the cylindrical member 32 of the receiving plate 30. Note that the backing plate 30 does not need to be bonded, and may simply be placed on the concrete 52.
Since bars 29 on the outer surface of the upper support legs 20 are provided, it is possible that the upper support legs 20 to prevent the greatly inclined in the lower support legs 10.. Further, since the annular cushion rubber 28 is attached to the outer periphery of the lower end of the upper support leg 20, the upper support leg 10 can be roughly positioned by friction between the upper support leg 20 and the lower support leg 10.

(4) Floating Floor Panel Loading Next, the floating floor panel B is loaded on the loading plate 22 as shown in FIG. The floating floor panel B is previously provided with fixing holes at the four corners of the bottom surface, and the floating floor panel B is fixed at a predetermined position by inserting pins 25 provided on the stacking plate 22 into the fixing holes. be able to. Here, as shown in FIG. 7 (A), the corners of the four floating floor panels B are stacked on one floating floor support leg A, so that the four legs provided at the four corners of the stacking plate 22 are provided. Each of the pins 25 is inserted into the fixing hole of the floating floor panel B one by one. In this state, the positioning bar 26 provided on the stacking plate 22 is inserted into the joint of the floating floor panel B, so that the joint width of the floating floor panel B can be kept constant.
There is a gap between the cylindrical portion 21 of the upper support leg 20 and the cylindrical portion 11 of the lower support leg 10, and there is room for the upper support leg 20 to move in the horizontal plane even when inserted in the lower support leg 10. because, even if the installation position of the lower support legs 10 is slightly displaced, it is easy horizontal alignment of the loading the floating floor panels B is.

(5) Floating floor panel height adjustment When the floating floor panel B is loaded on the loading plate 22, the height adjustment bolt 40 screwed into the screw hole 23 provided in the center of the loading plate 22 It will be located at the intersection of B joints.
Therefore, by inserting a tool from the intersection of joints floating floor panels B, adjusting the height adjusting bolt 40 the height of the floor panel B float by rotating. Since the upper support leg 20 is telescopically inserted into the lower support leg 10, the height of the floating floor panel B is adjusted by rotating the height adjusting bolt 40 to adjust the height of the stacking plate 22 up and down. Can be adjusted.

(6) grouting Finally, as shown in FIG. 1, the grout 53 is filled into the upper support legs 20 from grout injection hole 24 provided in the stacking plate 22 and solidified. At this time, the grout 53 inserts a flexible tube from the joint of the floating floor panel B to the grout injection hole 24 and injects through this tube. Therefore, the grout injection hole 24 is provided at a position that coincides with the joint of the floating floor panel B.
Since a cushion rubber 28 is attached to the outer periphery of the lower end of the cylindrical portion 21 of the upper support leg 20, the gap between the upper support leg 20 and the lower support leg 10 is sealed, and the grout filling the upper support leg 20 is filled. 53 can be prevented from leaking out.
In this way, by filling the lower support leg 10 and the upper support leg 20 with the concrete 52 and the grout 53, the floating floor support leg A becomes strong and can support a considerable weight.

  As described above, according to the laying method of the present invention, laying can be easily performed and the height can be easily adjusted.

A Support floor for floating floor B Bloating floor panel 10 Lower support leg 11 Cylindrical part 12 Bottom plate 13 Leveling bolt 14 Mortar injection hole 20 Upper support leg 21 Cylindrical part 22 Loading plate 23 Screw hole 24 Grout injection hole 25 Pin 26 Positioning bar 27 Groove 28 Cushion rubber 30 Back plate 31 Plate member 32 Cylindrical member 40 Height adjustment bolt 51 Mortar 52 Concrete 53 Grout

Claims (7)

A lower support leg, an upper support leg, a receiving plate, and a height adjusting bolt that is rotatably provided on the receiving plate;
The lower support leg is a hollow cylinder having a bottom plate on the bottom surface and an open top surface.
The upper support leg is a hollow cylinder provided with a loading plate on the upper surface and an open bottom surface.
The upper support leg can be telescopically inserted into the lower support leg,
The loading plate is provided with a grout injection hole and a central screw hole,
A support leg for a floating floor, wherein the height adjustment bolt is screwed into the screw hole. The support leg for floating floors according to claim 1, wherein an annular cushion rubber is attached to the outer periphery of the lower end of the upper support leg. The support leg for floating floors according to claim 1 or 2, wherein a bar steel is provided on an outer surface of the upper support leg to reduce a gap with an inner surface of the lower support leg. The bottom plate has leveling bolt is screwed in, floating floor support leg according to claim 1, 2 or 3, wherein the mortar injection hole. Wherein the stacking plate, floating floor support leg according to claim 1, 2, 3 or 4 further characterized in that insertable into fixing holes provided in the floating floor panels pin is provided. Wherein the stacking plate, floating floor support leg according to claim 1, 2, 3, 4 or 5, wherein the insertable positioning bar joints floating floor panels are provided. A method for laying a floating floor panel using the floating floor support leg according to claim 1,
Install the lower support legs on the existing floor,
Fill the lower support legs with concrete and adjust the height roughly by solidifying,
Install a backing plate on the concrete,
Insert the upper support leg, the adjustment bolt that has been screwed into the screw hole in advance and the lower support leg,
A floating floor panel is loaded on the loading plate,
Adjust the height of the floating floor panel by rotating the height adjustment bolt,
A floating floor panel laying method, wherein the upper support leg is filled with a grout from a grout injection hole of the loading plate and solidified.

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