KR101133198B1 - Structural pedestal improved adjusting slope - Google Patents

Abstract

PURPOSE: A pedestal for construction having an improved tilt adjusting function is provided to prevent the pedestal from becoming inclined and bent even if the pedestal is located at a slope. CONSTITUTION: A pedestal for construction having an improved tilt adjusting function comprises a support(10), first and second connection units(20,30), a base(40), and an angle adjusting ring(50). The support is formed in a flat plate shape. The first connection unit is rotatably coupled to the support. The second connection unit is rotatably coupled to the first connection unit. Screw threads are formed on the outer edge of the first and second connection units. The base is rotatably coupled to the second connection unit. The angle adjusting ring is rotatably coupled to the bottom end of the base and adjusts the angle of the base.

Description

Structural pedestal improved adjusting slope

The present invention relates to a building pedestal, and more particularly to a building pedestal with improved inclination adjustment that can be easily constructed to fit the bottom floor having a variety of inclinations.

Structural pedestal is constructed to support the finishing material (or flooring) with a certain distance in the vertical direction from the lower floor where the degree of inclination is not constant, and enhances the appearance of the floor and the degree of inclination It is mainly used to let.

In other words, the pedestal system is used for finishing pavement of all outdoor sections such as construction and landscaping and indoor sections such as passages and scaffoldings inside the building. By forming a space while supporting the can achieve smooth drainage and maintenance convenience.

Such a pedestal system satisfies the design, efficiency, and maintenance advantages of all paving sections of the building's ground and basement floors, and improves the building's quality. It can be installed and has the advantage that it is easy to remove and reinstall as needed.

As a height adjusting device used to install such a pedestal system or a double flooring, it was mainly used to arbitrarily adjust the height between the lower floor and the finishing material. As the conventional technology, Korean Utility Model No. 97-59269, There is a technology disclosed in the Republic of Korea Utility Model Registration No. 20-354375 and Republic of Korea Patent Publication No. 2002-24871.

However, this conventional technique was simply used to adjust the level between the bottom surface and the finish and to prevent the impact, the height can be adjusted by the rotation of the screw bolt, but the height within a very short range Not only can there be a problem, but it was not easy to adjust the horizontality between the bottom and the bottom surface having a variety of inclination, there was a problem that the height adjustment device is inclined or damaged when a large load is applied to the finish.

In addition, the Republic of Korea Patent No. 10-772555 was used as a pedestal to adjust the height.

According to the above technique, a plurality of pedestals having different maximum lift heights are prepared according to the conditions of the installation floor surface (inclination, irregularities, etc.). In order to solve the inconvenience of having to install a plurality of pedestals and arbitrarily selected, and to remove the additional expansion ring or to combine continuously to improve the height adjustment width.

However, as shown in Fig. 1, this conventional technique can easily adjust the height width between the bottom bottom and the finishing material by combining multiple extension rings, but the finishing material which is continuously loaded for a long time (floor material) Considering the characteristics of), safety accidents occur when the pedestal, which is to support the double floor structure, is tilted or bent.

That is, as shown in Figure 2, the pedestal (1) that is located exactly in the vertical direction is not inclined to support the load because there is no inclination, but the pedestal (2, 3) located on the inclined lower bottom surface has a load Because it is positioned inclined with the applied direction, there is a problem that the structural stability is not achieved, such as the pedestal is inclined or bent when the vertical load is continuously applied, the entire structure collapses or cracks occur.

In particular, the height difference between the bottom surface and the finishing material is large, the higher the height of the pedestal itself, the greater the problem of not supporting the load due to the inclination and maintaining the structure by gradually tilting or refracting.

In addition, according to the prior art, the connection of the pedestal supporting the load of the finishing material is rotatably coupled in the form of a screw, respectively, there is an advantage that the height can be adjusted according to the need, but if the continuous load is applied over time Safety accidents occurred when the wheels were rotated or distorted by the load, but they could not be maintained at the same height.

In particular, as the product ages after the construction of the product, there is a problem that the pedestal itself falls down or sinks as each thread and screw bone collapse or the boundary disappears.

In addition, according to the prior art in installing the finishing material on the upper pedestal, the upper surface is divided only in the right-angle direction of the four directions must use a square or rectangular flooring material, accordingly to finish the stone and wood, etc. When the problem was extremely monotonous.

In particular, when it is necessary to use various shapes and patterns of finishing materials such as fountains, various angles of stone and wood cannot be constructed, so the finishing can be done in accordance with the current architectural and landscape fields, which gradually emphasize aesthetics and design. There was no problem.

An object of the present invention for solving the above problems, even if the pedestal is located in accordance with the inclination of the various lower bottom surface to be able to support the finishing material always facing in the vertical direction, stably without the phenomenon of inclination or refraction It is to provide an architectural pedestal that can maintain a double floor structure.

The construction of the construction pedestal improved incline adjustment is the present invention for achieving the above object, the upper surface is made of a flat plate shape to support the position of the finishing material and the outer periphery extending toward the lower portion formed with a thread, the inner circumference Screw bone is formed along the rotatable coupled to the support and the outer periphery extending toward the lower threaded first connection portion, the screw bone is formed along the inner circumference is rotatably coupled to the first connection and downward The extended outer periphery has a threaded second connection portion, a screw bone is formed along the inner circumference and rotatably coupled to the second connection portion and the end is in close contact with the lower bottom surface is formed to support a relatively wide, Is rotatably coupled to the bottom surface of the base, one And the thickness of the tip characterized in that comprises an angle adjustment ring for adjusting the tilted angle according to the inclination of the bottom surface is formed relatively thin lower than the thickness of the other end.

In addition, the bottom surface of the base is formed with a plurality of angle adjustment grooves recessed toward the inside, the upper surface of the angle adjustment ring is formed with a plurality of angle adjustment projections protruding outward, the angle adjustment projection is the angle It is preferable that the fitting groove is made to be fixed by fitting.

In addition, the plurality of angle adjustment grooves are arranged on a concentric circle with respect to the center of the base, it is preferable that the inclination difference between one angle adjustment groove and another adjacent angle adjustment groove is formed to be 0.5%, the base More preferably, it is made to adjust the inclination of 0% to 10% due to the rotation of the angle adjustment ring.

In addition, a hollow is formed at the center of the base and a central axis protruding upward is formed at the center of the angle adjusting ring, and the central axis is preferably coupled to the hollow so as to be rotatable, and further, the inner end of the hollow. It is preferable that a locking step is formed and a locking part is formed around the upper end of the central axis to have a relatively larger diameter, and the locking step and the locking part are fixed to each other.

Effects of the present invention having the configuration as described above, because the use of the angle adjustment ring coupled to the lower portion of the pedestal to adjust the difference between the inclination between the bottom and the bottom, the pedestal is inclined even if the pedestal is installed on the inclined bottom It is possible to prevent the phenomenon of being cut or refracted, and the pedestal structure can be maintained at all times in the vertical direction with respect to the ground surface and the finish.

In addition, even when a continuous load is applied from the top of the finish, the pedestal is not tilted or bent, so that not only can withstand higher loads, but also structural stability can be achieved.

In addition, in the case of the pedestal used in the prior art, the adjustable inclination was in the range of 0% to 3%, but according to the present invention, the adjustable inclination can be adjusted in the range of 0% to 10%, so that only the slope of the general bottom surface In addition, there is an effect that can be applied by applying the present invention to the inclined surface, such as drain designed to drain water.

In addition, by subdividing the control width that can adjust the inclination by the angle adjustment ring to 0.5%, the present invention can be easily applied to the bottom surface having a variety of inclinations, and the bottom bottom surface and the pedestal of the present invention more tightly By increasing the safety can be improved.

1 is a side view showing a state in which a conventional pedestal supports between a bottom bottom surface and a finish material.
2 is an enlarged partial view of FIG.
Figure 3 is a perspective view of the building pedestal of the present invention.
Figure 4 is an exploded perspective view showing a building pedestal of the present invention.
Figure 5 is a side view showing the inventors building pedestal.
Figure 6 is a plan view showing a building pedestal of the present invention.
Figures 7 and 8 are perspective views showing one embodiment of the fixing ring used in the inventors building pedestal.
Figure 9 is a bottom perspective view of the base used in the present invention building pedestal.
Figure 10 is a cross-sectional view showing the base and the angle adjustment ring used in the inventors pedestal building.
Figure 11 is a side view showing a state in which the inventors of the building pedestal supports between the bottom and the bottom surface.
12 is a partially enlarged view of FIG.
13 and 14 is a schematic view and a plan view showing a state of constructing a square finish on the building pedestal inventors.
Figure 15 is a plan view showing a state of constructing the finishing material of various forms on the inventors pedestal building.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Building pedestal with improved inclination adjustment of the present invention is located on the top of the building pedestal, the upper end is made of a flat plate form parallel to the finishing material is placed on the top surface, the cylinder is formed on the outer periphery extending toward the bottom The support 10 of the shape, the screw bone is formed along the inner circumference is rotatably coupled with the support 10, the outer periphery extending toward the lower threaded first connection portion 20, the screw bone along the inner circumference A second connector 30 having a thread is formed on the outer periphery formed to be rotatably coupled to the first connector 20 and extending downward, and a screw bone is formed along the inner periphery to rotate with the second connector 30. Base 40 is coupled to be possible and the end 40 in close contact with the bottom bottom surface is formed to support a relatively wide and It is located at the bottom of the shaft pedestal is coupled to the bottom surface of the base 40 to be rotatable, the thickness of one end is formed relatively thinner than the thickness of the other end to adjust the inclined angle corresponding to various inclinations of the bottom bottom surface It consists of an angle adjusting ring (50) for providing a coupling so that the building pedestal is always located in the vertical direction irrespective of the inclination of the bottom of the bottom surface and orthogonal to the bottom surface of the finishing material, for the base 40 Due to the rotation of the angle adjustment ring 50 is characterized in that it is made to adjust the inclination of the bottom bottom surface of 0% to 10%.

That is, as shown in Figures 3 to 5, the upper end of the support portion 10 which is located at the top is made of a circular plate shape flat in the horizontal direction, the finishing material of various forms on the upper portion of the support (10) Flooring material) is formed to be supported.

In this case, the upper end of the support 10 in contact with the finishing material is formed relatively wide so that the weight of the finishing material itself, such as stone or wood deck, and the double flooring is installed to support the load continuously applied.

The support is extended to the lower side is formed to be coupled to the connecting portion located in the lower, the outer periphery extending toward the lower portion of the support portion 10 is formed with a screw thread formed in the first connecting portion 20 located in the lower end And is fixed by rotational coupling.

Therefore, the screw thread of the support part 10 and the screw bone of the first connection part 20 are formed to have the same diameter, and the height of the entire pedestal can be adjusted according to the rotation of the support part 10.

As described above, the upper end of the first connection portion 20 has a screw bone formed therein to be coupled with the thread of the support portion 10, and the support portion to adjust the height by the rotation of the support portion 10. It is good to form a screw bone to the inside of the first connecting portion 20 by the height of the screw thread of (10).

Threads are formed along the outer circumference of the lower part of the first connection part 20. As a result of the coupling method of the support part 10, the second connection part located below the first connection part 20 is formed. 30).

That is, the screw thread formed along the outer circumference of the first connector 20 is formed to have the same diameter as the screw bone formed along the inner circumference of the second connector 30 and is fixed by rotational coupling. The height of the pedestal can be easily adjusted according to the rotation of 20.

Similarly, the second connection part 30 may also have a screw bone formed along the inner circumference of the upper part, so that the first connection part 20 may be coupled, and a thread is formed along the outer circumference of the lower part and located at the lower part thereof. It is made to be combined with (40).

Base 40 is located at the bottom of the screw bone is formed along the inner circumference so that the second connecting portion 30 can be coupled, the bottom surface of the base 40 is in contact with the bottom bottom surface and the load and overall As the support structure is formed to have a relatively large cross-sectional area.

In the present embodiment, the thread 10 and the screw bone are formed on the support 10, the first connector 20, the second connector 30, and the base 40, respectively, to easily adjust the height of the entire pedestal by rotation. In particular, when the height of the adjustment width is large, the support 10 is made to be directly coupled to the base 40 without using the first connecting portion 20 and the second connecting portion 30, etc. It is preferable that the connection member such as the first connection part 20 is made to be additionally coupled.

Therefore, when the height difference between the lower bottom surface and the finishing material is not large, the thread of the support 10 may be directly coupled to the screw bone formed along the inner circumference of the base 40 without using an additional connection part, and the lower bottom. If the height difference between the surface and the finish material is large, the first connection portion 20 can be continuously connected to achieve the structure and load maintenance of the pedestal.

However, as the height of the pedestal is increased by using a plurality of connections as described above, it is not easy to achieve stable structure and support of load, which is more severe when the lower bottom surface is not constant.

That is, as shown in Figs. 1 and 2, the greater the inclination of the lower bottom surface, the greater the angle at which the pedestal is inclined relative to the vertical direction, thereby stably supporting the load applied from the top of the pedestal. As a result, a safety accident occurred due to failure to maintain the structure.

In the present invention, in order to solve this problem, the thickness of one end is formed relatively thinner than the thickness of the other end to adjust the angle of inclination according to the inclination of the lower bottom surface 50 of the base 40 It is characterized in that coupled to the rotatable bottom surface.

In the conventional technique, such an angle adjusting part is positioned at the top of the pedestal and maintains a right angle with the inclined bottom surface, but the pedestal is inclined and refracted while being inclined with the upper finish which is continuously loaded. This increased and was unable to maintain structural stability.

Therefore, when the angle adjusting ring 50 is positioned at the lower portion of the pedestal as opposed to the upper portion of the present invention, as shown in Figures 11 and 12, even when the pedestal is installed on the inclined lower bottom surface The upper finish and the pedestal can be kept at right angles, making it easy to maintain structural stability and support sustained loads.

In addition, as shown in Figures 9 and 10, the bottom surface of the base 40 is formed with a plurality of angle adjustment groove 43 recessed inward, the upper surface of the angle adjustment ring 50 A plurality of angle adjusting protrusions 53 protruding outward is formed, it is preferable that the angle adjusting protrusions 53 are fitted to the angle adjusting grooves 43 to be fixed.

Accordingly, while rotating the angle adjusting ring 50 according to the inclination of the position where each pedestal is constructed to adjust a suitable angle so that the pedestal is located in the vertical direction, the angle adjusting projection projecting on the angle adjusting ring 50 53 is inserted into the angle adjusting groove 43 recessed in the base 40 to keep the proper angle continuously.

In particular, the plurality of angle adjustment grooves 43 are disposed on the concentric circle with respect to the center of the base 40, the difference in the slope between one angle adjustment groove 43 and another adjacent angle adjustment groove 43 Is formed to 0.5%, by subdividing the size of the slope can be adjusted in this way can improve the adhesion between the inclined bottom surface and the pedestal, it is possible to improve the structural stability.

In addition, since the angle of the pedestal can be adjusted every 0.5% by the angle-adjusting groove 43 as described above, it is possible to protect the waterproof layer of the lower finishing surface, of course, the pedestal is in close contact with the bottom of the lower surface or slipping There is an effect that can prevent the phenomenon.

Furthermore, the pedestal according to the present invention has greatly improved the inclination adjustment width compared to the technique used in the prior art, the pedestal can maintain the vertical state due to the angle adjustment ring 50 located at the bottom of the pedestal, Since the orthogonal state can be maintained, it is possible to install the pedestal of the present invention even where the inclination of the lower bottom surface is severe.

That is, since the pedestal used in the prior art has a floor inclination of about 3% or less in a general building, the range of adjustable inclination is 0% to 3%.

However, in the case of drainage drainage (drain) in which the water escapes from the floor of the building, there is a case of having an inclination of about 3% to 10%, and the conventional pedestal cannot be installed at the same point as above, so that the finishing material is the same. There was a problem that it could not be constructed.

In the present invention is made to adjust the inclination of 0% to 10% due to the rotation of the angle adjustment ring 50 with respect to the base 40, accordingly, the level for the drainage section or each finishing section that the water is drained The present invention can install the pedestal of the present invention even in areas that are difficult to finish, so the finishing materials can be constructed in the same way as other areas, thereby improving convenience of construction and shortening the construction period.

In addition, as shown in detail in FIG. 10, a hollow 41 is formed at the center of the base 40, and a central axis 51 protruding upward is formed at the center of the angle adjusting ring 50. The base 40 and the angle control ring 50 are coupled to each other by a method in which the central shaft 51 is rotatably coupled to the hollow 41. In particular, the inner end of the hollow 41 has a locking jaw ( 42 is formed and a locking portion 52 having a larger diameter is formed around the upper end of the central shaft 51 so that the locking jaw 42 and the locking portion 52 abut each other. Is done.

Therefore, the clearance is formed on the central axis 51 of the angle adjustment ring 50, and when the angle adjustment ring 50 is rotated to adjust the angle of the pedestal, the angle adjustment ring 50 is slightly lowered. It is formed to be easy to rotate in a state, and after being set to the angle to be installed, the angle adjusting groove 43 formed on the base 40 and the angle adjusting projection 53 formed on the angle adjusting ring 50, the pedestal When a load is applied to the top of the rod, it is possible to keep the set slope without turning arbitrarily.

In addition, according to an embodiment of the present invention, even if a continuous load is applied in the pedestal formed to be rotatable in the form of a screw it can achieve the effect of preventing the phenomenon of twisting or sinking.

The upper surface is formed in the form of a flat plate to support the position of the finishing material and the outer periphery extending toward the lower portion of the support 10 is formed with a screw thread, a screw bone is formed along the inner circumference is rotatably coupled to the support 10 The outer periphery extending toward the lower portion has a threaded first connection portion 20, the screw bone is formed along the inner periphery is rotatably coupled with the first connecting portion 20 and the outer periphery extending toward the lower portion is formed The second connector 30, the screw bone is formed along the inner circumference is rotatably coupled to the second connector 30 and the base 40 in close contact with the lower bottom surface is formed relatively wide and serves to support Is rotatably coupled to the bottom surface of the base 40, the thickness of one end is formed relatively thinner than the thickness of the other end It comprises an angle adjusting ring for adjusting the inclined angle according to the inclination of the bottom surface, characterized in that the fixing ring for preventing any rotation and twisting is coupled to the portion of each screw thread and screw bone is combined do.

That is, the pedestal formed to be rotatable as in the present invention has the advantage that the height can be easily adjusted by rotating the respective connecting portion in the process of construction, on the contrary, the thread and screw bone portion by the continuous load applied from the top after construction There was a problem that it was impossible to support a stable structure, such as twisting or falling. Some safety accidents occurred, such as some pedestals sinking to the bottom.

Accordingly, in the present invention, additional fixing rings are installed at each connection part, thereby solving problems such as random rotation or twisting or sinking according to the load. Also, due to the combination of the fixing rings, the bearing capacity and strength of the entire pedestal can be improved. have.

3 to 5, when the first fixing ring 11 is rotatably coupled to the thread of the support part 10, and the support part 10 and the first connection part 20 are coupled to the first fixing ring. The bottom surface of the 11 is made to be supported in contact with the top surface of the first connecting portion (20).

When only the support portion 10 and the first connection portion 20 are coupled as in the prior art, problems such as weakening and twisting of the coupling force such as loosening or opening between the screw thread and the screw bone due to the continuous load occur, but the above problems According to the invention by the additional coupling of the first fixing ring 11, the first fixing ring 11 is in contact with the first connecting portion 20 to enable a stable coupling and support.

Similarly, when the second fixing ring 21 is rotatably coupled to the screw thread of the first connecting portion 20 and the first connecting portion 20 and the second connecting portion 30 are coupled to the second fixing ring 21. The bottom surface of the second connector 30 is made to be in contact with the top surface of the second connection portion 30, the third fixing ring 31 is rotatably coupled to the thread of the second connection portion 30 and the second connection portion 30 When the base 40 is coupled to the lower surface of the third fixing ring 31 is preferably made to be in contact with the upper surface of the base 40.

In this embodiment, the two connecting portions of the first connecting portion 20 and the second connecting portion 30 are used between the support portion 10 and the base 40, and three rotational coupling portions formed by the screw thread and the screw bone As used, the fixing ring is also illustrated to be used for each of the three rotational coupling, but the connection ring can be removed or added depending on the environment and height of the pedestal is constructed, so that the fixed ring on the rotary coupling It is obvious that fewer or more can be used.

In addition, in the present embodiment, the first fixing ring 11, the second fixing ring 21 and the third fixing ring 31 is shown as having a circular ring shape as shown in Figure 7, the coupling and In consideration of the ease of rotation, each fixing ring may be formed in a hexagonal bolt shape as shown in FIG.

Therefore, according to the present invention, by coupling the fixing ring to the rotating portion of each connecting portion, to prevent the phenomenon that each connecting portion is randomly rotated or loosened by the fixing ring, and improves the bonding strength from the construction, even when used for a long time pedestal The problem of sinking or twisting the height of the fundamental problem is solved fundamentally, there is an effect that can improve the workability during construction of the double flooring, and further improve the structural stability after finishing.

Furthermore, according to one embodiment of the present invention, as well as a certain rectangular or square shaped finishes, it is easy to construct a finish and a floor formed in various forms.

That is, referring to Figures 3 to 5, a plurality of spacers 60 are coupled to the upper surface of the support in the form of a flat plate to position and support the finishing material to partition the upper end of the support portion 10 to a predetermined width. have.

In the case of the pedestal used in the prior art in partitioning the upper surface of the support in contact with the finishing material, it was common that the four divided tabs are fixed in the form perpendicular to the vertical and horizontal directions, and thus the stone and the top of the pedestal In order to construct wood finishes, only rectangular or square finishes were required.

Therefore, when it is necessary to use a variety of shapes and patterns of finishing materials, there is a problem that can not be installed a variety of finishing materials because it is not possible to construct a variety of stone and wood.

In order to solve this problem, in the present invention, a plurality of spacers 60 are formed to partition the upper part of the support. As shown in FIGS. 3 and 6, the spacers 60 are formed to be arranged at equal intervals. .

Accordingly, as shown in FIG. 15, various types of finishing materials, such as triangle or trapezoid, can be freely constructed, and the advantages can be easily constructed using the pedestal of the present invention even where various kinds of finishing materials such as fountains are used. There is this.

In addition, the present invention, as shown in Figure 4, the upper end of the support portion 10 is formed in the same groove on the concentric circles at equal intervals, the lower end of the spacer 60, the engaging projection 61 Is formed, the coupling protrusion 61 is coupled to the coupling groove 12 to be detachable.

That is, the spacer 60 partitioning the upper end of the support part 10 is not completely fixedly coupled to the support part 10 but is configured to be detachably freely according to the needs of the contractor. A coupling groove 12 to which the spacer 60 may be coupled to a predetermined depth is previously formed at an upper end of the spacer 60, and the spacer 60 may be fixed while being coupled to the coupling groove 12. A coupling protrusion 61 protruding toward the bottom is formed at the lower end.

Therefore, the spacer 60 may be easily coupled to or removed from the support 10 according to the intention of the contractor or the user, and thus, various types of finishing materials may be selected and installed at any time, as well as design of the finishing materials. Its construction can be improved even if it needs to be changed or repair work is needed.

According to the present invention, as shown in Figure 13 and 14, the rectangular or square finish material can be constructed as in the conventional technique by removing some spacers 60, as well as spacers as needed By variously setting 60, various types of finishes as shown in FIG. 15 can also be easily constructed.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

10: support portion 11: first fixing ring
12: coupling groove 20: first connection portion
21: second fixing ring 30: second connection portion
31: third fixing ring 40: base
41: hollow 42: hanging jaw
43: angle adjustment groove 50: angle adjustment ring
51: center 52: locking part
53: angle adjusting projection 60: spacer
61: engaging projection

Claims (6)

In the construction pedestal,
Located at the top of the building pedestal, the upper end is made in the form of a flat plate parallel to the finishing material is placed on the top surface, the cylindrical support portion 10 is formed with a thread on the outer periphery extending toward the bottom;
A screw bone is formed along the inner circumference to be rotatably coupled with the support 10, and a first connection portion 20 having a screw thread formed on the outer circumference extending downward;
A screw bone is formed along the inner circumference to be rotatably coupled to the first connecting portion 20 and has a screw thread formed on the outer circumference extending toward the lower portion;
A base 40 having a screw bone formed along an inner circumference thereof so as to be rotatably coupled to the second connection part 30, and having an end in close contact with a lower bottom surface thereof to be relatively wide; And
It is located at the bottom of the building pedestal is coupled to the bottom surface of the base 40 rotatably, the thickness of one end is formed relatively thinner than the thickness of the other end to adjust the inclined angle corresponding to various inclinations of the bottom floor An angle adjustment ring 50 is provided so that the construction pedestal is always located in the vertical direction irrespective of the inclination of the bottom of the bottom surface to provide a coupling to be orthogonal to the bottom surface of the finishing material; Consisting of,
Construction pedestal with improved tilt control, characterized in that made to adjust the inclination of the bottom bottom surface of 0% to 10% due to the rotation of the angle adjustment ring (50) relative to the base (40).
The method of claim 1,
The bottom surface of the base 40 is formed with a plurality of angle adjustment grooves 43 recessed toward the inside, a plurality of angle adjustment projections 53 protruding outward on the upper surface of the angle adjustment ring 50 Is formed, the construction pedestal with improved tilt control, characterized in that the angle adjusting projection 53 is fitted and fixed to the angle adjusting groove (43).
The method of claim 2,
The plurality of angle adjustment grooves 43 are disposed on the concentric circle with respect to the center of the base 40, the difference in the inclination between one angle adjustment groove 43 and another adjacent angle adjustment groove 43 Architectural pedestal with improved tilt control, characterized in that 0.5%.
delete The method of claim 1,
A hollow 41 is formed at the center of the base 40, and a central axis 51 protruding upward is formed at the center of the angle adjustment ring 50. The central axis 51 is formed at the hollow 41. ) Is a construction pedestal with improved tilt control, characterized in that coupled to rotatable.
The method of claim 5,
A hooking jaw 42 is formed at an inner end of the hollow 41, and a hooking portion 52 is formed around the upper end of the central axis 51 to have a relatively larger diameter. Construction pedestal with improved inclination adjustment, characterized in that the engaging portion 52 is fixed to each other.

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