KR100980814B1 - Flooring execution system - Google Patents

Abstract

PURPOSE: A wooden floor system for construction using a vibration-proof jig block is provided to perform the speedy and easy construction of wooden floor by using vibration-proof jig block and to reduce manufacturing material costs. CONSTITUTION: A wooden floor system for construction using a vibration-proof jig block comprises a vibration-proof jig block(20), a height adjusting board(30), a structure floor board(40) and a finishing floor board. The vibration-proof jig block is stood in line and sets in the upper side of the concrete floor to the regular interval. The vibration-proof jig block includes a fixation pin(22). The height adjusting board is laminated on the top of the vibration-proof jig block to multi-stage. The finishing floor boards are assembled with one another on the top of the structure floor board.

Description

Flooring floor construction system using dustproof jig block {Flooring execution system}

The present invention relates to a system for constructing indoor flooring floors, including exercise facilities such as school classrooms and gymnasiums, and more specifically, simple flooring by constructing flooring floors using a dustproof jig block without the use of long-standing wood or dogwood. The present invention relates to a floor floor construction system using a dustproof jig block that enables the construction of a floor floor while enabling the floor construction system to be quickly and easily.

Most of the construction of flooring floors for indoor concrete floors is based on the use of Jangsun-mok (木 線 木) or locust wood. However, the construction method using the Jangjaeng wood as mentioned above is basically known as a Jangjaengmok, and a bruise to support it, and also the support holder to support the bruise, to adjust the level of the floor The height adjustment mechanism of the screw adjustment method is required. Therefore, in the case of the construction of the floor using a conventional wood or wood veneer, the construction structure is very complicated, and also requires a lot of time and construction time, expensive construction of the wood Because of the use of dogwood, construction costs are inevitably increased. In addition, the construction structure using long wood has a floor floor height of up to 200mm from the concrete floor due to the construction structure, so that the floor flooring is inevitable. There is a high possibility that the safety of construction can be reduced, and there is also a possibility of the occurrence of a pseudonym.

Of course, in order to solve the various problems that occur in the above-described conventional construction structure, various various construction methods have been proposed in the prior art, but since it adopts a structure for constructing the flooring floor using the Jangsun or Ruff Only local structural improvements such as changing or improving the height adjustment structure, omitting some of the installation structure, and changing the material of Jangsun or Ruffia are being made. However, through the above-mentioned local changes, there is no limit in fundamentally solving the rapid construction or safety of the floor, reducing the manufacturing cost or construction cost, and lowering the floor. Conventional examples of the above-described structure may be cited patent documents described in the following prior art document.

1. Republic of Korea Utility Model Registration Publication No. 20-0189681 2. Korean Utility Model Registration Publication No. 20-0236843 3. Republic of Korea Utility Model Registration Publication No. 20-0436079 4. Republic of Korea Utility Model Registration No. 20-0417291

Therefore, the present invention has been invented to fundamentally solve all the problems caused by the above-described conventional flooring construction, and the object of the present invention is basically to use the flooring using a dustproof jig block without using any Jangsun or Ruff By simply constructing the floor, not only can the construction materials be drastically reduced, but also the construction can be done quickly and easily, and the construction cost can be remarkably improved as well as the overall construction cost can be significantly reduced, and the floor floor can be lowered. Therefore, it is possible to greatly increase construction safety, and to provide a flooring floor construction system that can prevent occurrence of epidemics.

Technical features of the present invention for solving the above problems, the dustproof jig block is arranged on the upper surface of the concrete floor at regular intervals and four fixing pins are placed at regular intervals; A height adjusting plate formed of various thicknesses and having one or more layers stacked on top of the dustproof jig block for height adjustment, and having adjustment holes respectively fitted to the respective fixing pins of the dustproof jig block; Structural floor boards are fitted to be connected to each other by the fixing holes formed in each corner with respect to each of the fixing pins of the anti-vibration jig block exposed through the upper portion of the height adjustment plate; And a finishing floor board connected to each other on top of the structural floor board. It is sufficiently achieved by the flooring construction system using a dustproof jig block characterized in that the configuration.

According to the present invention, the height adjustment plate and the structural floor board is characterized in that the intervening fibish pad formed with a fixing hole fixed to each of the fixing pins of the anti-vibration jig block in order to prevent the friction sound and adjust the height.

According to the present invention, the anti-vibration jig block is a cushion pad in which a support step is recessed to an upper surface, and is supported on a support step of the cushion pad, and at the same time, four fixing pins are inserted into the upper surface of the metal jig plate at regular intervals. Characterized in separate configuration.

The fixing pin formed by the jig plate of the anti-vibration jig block is preferably configured to be screwed to the screw hole formed by the jig plate.

In addition, according to the present invention, the anti-vibration jig block is made of a cushion pad as a whole, at the same time characterized in that the four fixing pins arranged on the upper surface is also integrally formed of the same material.

The adjustment hole formed of the height adjustment plate and the fibish pad according to the present invention is preferably formed to penetrate to have a larger diameter than the fixing pin of the anti-vibration jig block is configured to enable fine movement control during the floor floor construction.

According to the present invention, the floor construction structure is simple because the use of the anti-vibration jig block is used in the construction of indoor floors, such as schools and gymnasiums, so that the use of conventional wood or wood veneer is unnecessary at all. Not only can it be done quickly, but also the labor cost and material cost can be reduced significantly, and the overall construction cost can be significantly lowered. There is an advantage.

1 is a plan view showing a floor construction state according to the present invention.
2 is an assembled state sectional view showing a floor construction state according to the present invention.
Figure 3 is an exploded perspective view showing the structure of the floor construction system of the first embodiment according to the present invention.
4 is an assembled cross-sectional view of FIG. 3.
5 is a plan view of the state in which the finishing floor board is removed.
Figure 6 is an exploded perspective view showing the structure of the floor construction system of the second embodiment according to the present invention.
FIG. 7 is an assembled cross-sectional view of FIG. 6.
8A and 8B are an exploded perspective view and an assembled sectional view showing an example of the structure of the anti-vibration jig block according to the present invention.
9A and 9B are exploded perspective and assembly cross-sectional views showing another embodiment of the anti-vibration jig block according to the present invention.
9 is a cross-sectional view showing the construction of the floor floor using a dust-proof jig block Figures 9a and 9b.

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

Floor floor construction system using the anti-vibration jig block according to the present invention, basically, as shown in Fig. 1 and 2, the anti-vibration jig block 20 to the upper surface of the indoor concrete floor 10, such as a school classroom or gymnasium. Arrange and arrange at regular intervals, and adjust the height by stacking the height adjusting plate or / and fibish pads in multiple stages on it, and then lay the structural floor board 40 and the finishing floor board 50 sequentially on the top to make the floor flat and solid. The floor is to be constructed.

3 to 5 will be described in more detail with respect to the embodiment of the floor construction system according to the first embodiment of the present invention.

Flooring construction system using the dust-proof jig block according to the first embodiment of the present invention,

An anti-vibration jig block 20 arranged at regular intervals on the upper surface of the concrete floor 10 and having four fixing pins 22 installed at regular intervals;

Height adjustment plate formed of various thicknesses and one or more are stacked in multiple stages to the top of the anti-vibration jig block 20 for height adjustment, the adjustment hole 32 is fitted to each of the fixing pins 22 of the anti-vibration jig block. 30;

Structural floor board 40 which is fitted with the fixing holes 42 formed at each corner with respect to each of the fixing pins 22 of the dustproof jig block 20 exposed through the upper portion of the height adjusting plate 30 is connected to each other. ; And

A finishing floor board 50 connected to and assembled with each other on an upper portion of the structural floor board 40; It consists of.

In the parquet floor construction system described above, a PE film 60 is generally laid on the concrete floor 10 to block moisture from rising.

This is a technique known in the art. Here, the PE film for preventing the rise of moisture from the concrete floor 10 will be able to use any other material to replace it.

The anti-vibration jig block 20 is for supporting the floor floor to maintain a constant height from the concrete floor 10, and is made of a rubber material having vibration and shock absorbing functions. As such a material, it is most preferable to use dustproof rubber which is widely used in flooring construction.

In addition, the height adjustment plate 30 is used to properly adjust the level of the floor floor when the concrete floor 10 is uneven, dust-preventing jig block 20 produced by each of a variety of thickness (1 ~ 5T) in advance It is desirable to select and use appropriately according to the height of this position. Here, the height control plate 30 is preferably used a steel sheet material, but can be used in addition to a variety of materials, such as reinforced plastic materials that can be substituted for this.

And the adjustment hole 32 formed of the height adjustment plate 30 is formed to penetrate to have a diameter larger than the diameter of the fixing pin 22 of the anti-vibration jig block 20 to enable fine movement control from side to side within a predetermined range during height adjustment. It is desirable to be able to adjust the height more efficiently.

On the other hand, the structural floor board 40 used in the construction of the parquet floor of the present invention, it is preferable to use a plate material that is preservative treatment is completed to increase the durability. In addition, if necessary, according to the structural floor board 40, for example, a paint or PE film may be separately attached to a portion contacting with the height adjusting plate 30. Structural floor board 40, so-called chipboard (ortid standade bode) is preferably used a plywood, but in addition to that a variety of materials can be used as a matter of course.

According to the present invention, the structural floor board 40 is preferably used by standardizing to a certain size. For example, the structural floor board used in the flooring construction of the present invention is 15t thick, standardized by 604mm in width and 299mm in length, and the fixing holes 42 formed at each corner are also dustproof jigs. The structural floor boards are formed by fitting the fixing pins 22 of the block 20 to the spaced intervals and fitting the fixing holes 42 of the structural floor boards 40 to the fixing pins 22. 40 is preferably configured so that each corner end is assembled to each other on the upper surface of the anti-vibration jig block 20.

In addition, the finishing floor board 50 is most preferably used maple, which is typically used during the construction of the floor, Nawang, beech, oak, birch, ash wood, etc. may be used.

According to the present invention, it is preferable that the dustproof jig block 20 and the height adjusting plate 30 are further formed with through holes 24 and 34 to prevent strength from being maintained and deformation.

Therefore, a description will be given of a state of constructing an indoor floorboard such as a school classroom or a gym using the floorboard construction system according to the first embodiment of the present invention configured as described above.

First, the PE film 60 for moisture proof is laid on the upper surface of the concrete floor 10, and the dustproof jig block 20 is arranged thereon at regular intervals. Here, the arrangement interval of the anti-vibration jig block refers to the arrangement interval in consideration of the horizontal and vertical sizes of the structural floor board 40 previously manufactured in the size standardized in the present invention.

Then, by adjusting the height adjustment plate 30 having various thicknesses to the top of the anti-vibration jig block 20 to adjust the level of the concrete floor (10). At this time, the height adjustment plate 30 is fixed to be supported in the state that the adjustment hole 32 formed therein is fitted to the fixing pin 22 of the anti-vibration jig block 20, which prevents any detachment or separation at the time of construction or completion of construction. will be.

Then, by fitting each of the fixing holes 42 formed at each corner of the structural floor board 40 with respect to each of the fixing pins 22 of the anti-vibration jig block 20 through which the height adjustment plate 30 is exposed. Each edge of the four structural floor boards 40 on the basis of one anti-vibration jig block 20 is supported to be connected to each other. The structure floor board 40 may be laid continuously using the anti-vibration jig block 20 in the above-described manner.

In addition, construction of the floor is completed by continuously connecting and assembling the finishing floor board 50 in the orthogonal direction with respect to the upper surface of the structural floor board 40.

Meanwhile, the finishing floor board 50 connected to the upper surface of the structural floor board 40 is integrally fixed to each other by fixing means such as a tacker pin, although not shown in the drawing, during the construction process. .

Accordingly, the flooring floor according to the present invention constructed in the above manner does not require the use of long-standing wood or bruises that are conventionally used by constructing the flooring floor using the anti-vibration jig block 20, and at the same time used for the construction of the flooring floor. By appropriately adjusting the thickness of each structural member, it is possible to construct the floor height from the concrete floor 10 to a maximum of 57 mm, thereby ensuring the construction safety of the floor floor, and the floor floor height is reduced accordingly. Therefore, there is no fear of ringing, for example, the occurrence of a trademark.

Floor floor construction system using the anti-vibration jig block according to the second embodiment according to the present invention, as compared to the system structure of the first embodiment, the height adjustment plate 30 and the structure floor, as shown in Figure 6 and 7 Interposed between the boards 40 to prevent the generation of friction sounds that can be generated between them while at the same time has a technical feature in the configuration is further provided with a fibish pad 70, the height adjustment function, the rest of the configuration and effect Is the same.

The fibrous pad 70 is provided with adjustment holes 72 fitted into the fixing pins 22 of the anti-vibration jig block 20, and a through hole 74 is formed at the center thereof.

Here, the adjustment hole 72 formed of the fibish pad 70 is formed to have a diameter larger than the diameter of the fixing pin 22 of the anti-vibration jig block 20 to allow fine movement to be adjusted left and right within a predetermined range to prevent friction sound or It is desirable to make height adjustment more efficient.

One of the fibish pads 70 is preferably used for one anti-vibration jig block 20, but more than one can be used if necessary, as well as a material for replacing the fibish (PVC) material in addition to It is possible to use as much as possible.

 On the other hand, the dustproof jig block 20 used in the floor construction system according to the first and second embodiments of the present invention may be configured as shown in Figures 8a, 8b and 9a, 9b.

First, referring to FIGS. 8A and 8B, the anti-vibration jig block 20 is inserted into and supported by a cushion pad 120 having a support step 122 recessed upward, and a support step of the cushion pad at the same time. Fixing pins 22 may be separated from each other by a jig plate 130 made of metal placed at regular intervals.

As described above, the dustproof jig block 20 is separated into the cushion pad 120 and the metal jig plate 130, so that only the jig plate 130 may be replaced when the fixing pin 22 is damaged or warped. There is also a structural advantage that can be appropriately adjusted to the stable bearing strength.

In addition, the fixing pin 22 formed of the jig plate 130 of the anti-vibration jig block 20 having the above configuration is preferably configured to be screwed to the screw hole 132 formed of the jig plate 130. . By doing so, there is an advantage in manufacturing that the fixing pin can be simply assembled and fixed without welding fixing work of the fixing pin 22 to the jig plate 130 made of metal.

The configuration of the anti-vibration jig block 20 of FIGS. 8A and 8B is well illustrated in the examples specifically illustrated in FIGS. 3 to 7.

Next, referring to FIGS. 9A and 9B, the anti-vibration jig block 20 is entirely made of the cushion pad 120, and four fixing pins 22 disposed on the upper surface thereof are also integrally formed of the same material. May be configured.

As such, the entire dustproof jig block 20 is constituted only by a cushion pad, so that the floor is constructed as shown in FIG. 10, thereby eliminating the need for a separate metal jig plate.

Of course, in the anti-vibration jig block 20 of the above-described embodiment, the cushion pad 120 is most preferably used for vibration and shock-absorbing anti-vibration rubber, and has a constant hardness to withstand the shock or vibration applied from the floor floor. It is preferably configured to.

Although the present invention has been described with reference to the accompanying drawings, it is not necessarily limited thereto, and many modifications and design changes may be made without departing from the scope of the following claims.

10: concrete floor 20: dustproof jig block
22: fixed pin 30: height adjuster
32: adjustment hole 40: structure floor board
42: fixing hole 50: finishing floor board
70: fibish pad 72: adjustment hole
120: cushion pad 130: jig board
132: screwdriver

Claims (6)

An anti-vibration jig block 20 arranged at regular intervals on the upper surface of the concrete floor 10 and having four fixing pins 22 installed at regular intervals;
Height adjustment plate formed of various thicknesses and one or more are stacked in multiple stages to the top of the anti-vibration jig block 20 for height adjustment, the adjustment hole 32 is fitted to each of the fixing pins 22 of the anti-vibration jig block. 30;
Structural floor board 40 which is fitted with the fixing holes 42 formed at each corner with respect to each of the fixing pins 22 of the dustproof jig block 20 exposed through the upper portion of the height adjusting plate 30 is connected to each other. ; And
A finishing floor board 50 connected to and assembled with each other on an upper portion of the structural floor board 40; Flooring construction system using a dustproof jig block, characterized in that configured to include. The method of claim 1,
Flooring construction system using the vibration-proof jig block is interposed between the height adjustment plate 30 and the structural floor board 40 to prevent the occurrence of friction noise that can be generated between them while at the same time height adjustment function Further comprising a 70, the floor pad construction using a dustproof jig block, characterized in that the adjustment hole 72 is fitted to each of the fixing pin 22 of the dustproof jig block 20 is formed as the fibish pad. system. The method according to claim 1 or 2,
The anti-vibration jig block 20 is supported on the cushion pad 120, the support step 122 is recessed to the upper surface, and the fixing pin 22 is inserted into the support step of the cushion pad at the same time at a predetermined interval Flooring construction system using a dust-proof jig block, characterized in that separated by a jig plate 130 of the installed metal material. The method of claim 3,
The fixing pin 22 formed of the jig plate 130 of the anti-vibration jig block 20 is a dustproof jig block, characterized in that the screw hole 132 is configured to be coupled to the screw hole 132 formed of the jig plate 130. Floor construction system The method according to claim 1 or 2,
The anti-vibration jig block 20 is made of a cushion pad 120 as a whole, and at the same time the four fixing pins 22 arranged on the upper surface is also formed using the anti-vibration jig block, characterized in that the configuration is formed integrally with the same material Parquet floor construction system.
The method according to claim 1 or 2,
The adjusting holes 32 and 72 formed of the height adjusting plate 30 and the fibish pad 70 may be penetrated to have a larger diameter than the fixing pins 22 of the anti-vibration jig block 20 to allow fine movement control. Flooring construction system using a dustproof jig block, characterized in that configured to.

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