KR101479538B1 - Structure For Construction Floor Of Building Using Magnetic Member - Google Patents

Abstract

The present invention relates to a floor construction structure using magnets for a building that can prevent heat loss, improve a heating effect, and provide a health improving effect for a user. The floor construction structure includes a buffer mat (20) laid on the top surface of a base slab (S) of the building to absorb impact and intercept noise; a support frame (30) installed on the top surface of the buffer mat (20); a hot water pipe holder (40) that is a long member fixed to the top surface of the support frame (30), and has a U-shaped hot water mounting groove (40a) provided in the longitudinal direction thereof in order for a hot water pipe (P) to be fitted to the U-shaped hot water mounting groove; a magnet (80) attached to the hot water pipe holder (40) by a magnetic force; the hot water pipe (P) fitted to the hot water pipe mounting groove, through which hot water heated by a boiler flows; and a cement mortar placed on the upper portion of the buffer mat (20) to cover the hot water pipe (P).

Description

{Structure For Construction Floor Using Magnetic Member}

More particularly, the present invention relates to a floor construction structure for a building, which can prevent heat loss of a boiler and has a horizontal structure, thereby enhancing a heating effect and providing a health promoting effect. .

On the indoor floor of residential building, hot water piping is installed for heating. The hot water heated by the boiler is circulated through the hot water piping to heat the floor, thereby heating the room. In the normal case, the hot water piping is buried on the floor through the plastering work, and the hot water piping indirectly heats the air in the room by heating the concrete. Therefore, even if the boiler is operated, cooling does not immediately warm up. Even if the boiler is stopped and goes out for a long time, the heat stored in the concrete is lost, which is a wasteful factor in terms of heating costs.

On the other hand, interest in health has become very high in recent years, and floor structure with healthful elements will satisfy users in various ways.

Also, the floor worker on the floor of the building is a task that requires expertise and requires a lot of working time. It is a reality that it is difficult to supply and receive a plaster engineer and an auxiliary worker. This problem of supply and demand of personnel may cause a disruption to the construction plan and also cause a rise in the construction cost. Therefore, there is an urgent need for a floor construction structure capable of easily carrying out floor construction with a small number of manpower, and even without professional skills.

It is an object of the present invention to solve the above problem, and it is an object of the present invention to solve the above problems by providing a heating device for installing hot water piping on a floor, which can increase thermal efficiency, The present invention provides a floor construction structure for a residential building which can contribute to health improvement by using the floor construction structure.

The above-

A cushioning mat covering the upper surface of the floor slab of the building to absorb shock and block noise; A support frame installed on an upper surface of the buffer mat; A hot water tube holder made of a metal material and having a U-shaped hot water tube mounting groove formed along its longitudinal direction so that the hot water tube can be fitted as an elongated member fixedly seated on the upper surface of the support frame; A magnet body attached to the hot water pipe holder by a magnetic force; A hot water pipe fitted into the hot water tube receiving groove through which hot water heated by the boiler flows; And a cement mortar layer formed on the cushioning mat to cover the hot water pipe.

According to an aspect of the present invention, the hot water pipe holder may be provided with a wing plate parallel to the slab by bending a part or whole of the hot water pipe holder along the longitudinal direction of the hot water pipe holder.

According to another aspect of the present invention, the coma tube holder includes a side plate symmetrical to each other; The side plate may be inclined such that the upper portion of the hot water tube mounting groove is narrow and the lower portion is wide.

According to another aspect of the present invention, the hot water pipe holder is provided with a wing plate parallel to the slab in a part or entire section along the longitudinal direction of the hot water pipe holder by bending;

A heat shield sheet made of synthetic resin, wood, or paper may be adhered to the upper surface of the vane plate to prevent high heat from being directly supplied to the upper plate.

According to another aspect of the present invention, the bottom of the hot water pipe holder is directly or indirectly supported on the upper surface of the slab so that the hot water pipe holder can be installed at a predetermined height from the upper surface of the buffer mat, And may include a plurality of pedestals supported on the underside but being adjustable in length.

The pedestal includes a head plate supported on a bottom surface of a bottom plate of the hot water pipe holder; A bar-shaped upper post provided at a right angle to the bottom surface of the headboard and provided with a male screw; A rod-shaped lower post having a male thread and a lower end supported on the upper surface of the slab; An adjustment pipe threaded on one side of the upper post and screwed on the other side of the lower post; The height adjustment may be possible by rotating the adjustment pipe to adjust the interval between the lower and upper posts.

According to the above construction, since the hot water pipe transfers heat to the room air through the hot water pipe holder, it is possible to heat the room air in a shorter time, and as a result, the heat loss can be reduced. That is, heat generated in the hot water pipe can be directly transmitted to the air in the room, thereby reducing heat loss.

In addition, since the upper surface of the wing plate of the hot water pipe holder is a standard of the height at which the cement mortar is poured, it is possible to easily carry out the floor laying work for the unskilled person, so that there is no difficulty in supplying and receiving manpower and the construction cost is saved. In addition, by adjusting the height of the pedestal, it is possible to adjust the height flat throughout the floor, thereby improving the quality of the construction.

1 is an exploded perspective view of a bottom construction according to an embodiment of the present invention.
2 is a cross-sectional view of a bottom construction according to an embodiment of the present invention.
3 is an exploded perspective view of a pedestal according to an embodiment of the present invention.
4 is a perspective view of a hot water pipe holder according to another embodiment of the present invention.
5 to 7 are sectional views of a bottom construction according to another embodiment of the present invention.

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

The slab S separates the layers of the building and forms a floor of one layer. The slab S is usually made of reinforced concrete, but is not limited thereto. In the case of a steel frame structure or a wooden house, the slab S may be made of steel or wood.

A base sheet 10 made of a nonwoven fabric is first placed on the slab S. The base sheet 10 may be provided in one layer or two layers depending on its thickness, and a waterproofed foam mat may be laid in some cases. Nylon or other synthetic resin sheet may be used as the base sheet 10. A cushioning mat (20) is provided on the top surface of the base sheet (10). The cushioning mat 20 can be a compressed styrofoam and can block or absorb shock or noise. On the upper surface of the buffer mat (20), the support frames (30) are provided at regular intervals. The support frame 30 is generally used as a joist line, and may be a piece having a cross-sectional dimension of 30 mm X 30 mm.

A hot water pipe holder 40 made of a metal material is seated and fixed on the upper surface of the support frame 30 so as to be perpendicular to the support frame 30. The hot water pipe holder 40 is an elongated member bent and formed. A "U" shaped hot water tube fitting groove 40a, in which the hot water tube P can be fitted, is provided along the longitudinal direction of the hot water tube holder 40. Normally, the hot water pipe holder 40 is manufactured by bending a zinc sheet. The hot water tube holder 40 is seated and fixed to the upper surface of the support frame 30 by a nail so as to be spaced apart in parallel at regular intervals.

The hot water pipe holder 40 may have a constant cross-section along the longitudinal direction and may include a bottom plate 41 and a side plate 42. And a wing plate 43 extending from an end of the side plate 42 and partially or entirely extending along the longitudinal direction of the hot water pipe holder 40 and being parallel to the slab S by bending. The wing plate (43) provides a reference surface for laying the cement mortar (60). Therefore, if the cement mortar 60 is appropriately laid and rubbed with the trowel without a professional technique, the bottom surface of the building that forms the same surface as the upper surface of the blade 43 can be obtained.

"의 형태가 된다. 이러한 형태는 온수관(P)이 쉽게 이탈되지 못하도록 방지하는 역할을 한다. 측판(42)의 경사각(A)은 필요에 따라 조정될 수 있을 것임이 분명하다.
According to another aspect of the present invention, the hot water tube holder (40) comprises a side plate (42) symmetrical to each other; The side plate 42 can be bent obliquely so that the upper part of the hot water tube fitting groove 40a is narrow and the lower part is wide. As a result, the hot water pipe holder 40 has a cross-

This form serves to prevent the hot water pipe P from being easily detached. It is clear that the inclination angle A of the side plate 42 can be adjusted as needed.

In some cases, the heat shield sheet 70 made of synthetic resin, wood, or paper may be adhered to the upper surface of the blade plate 43 to prevent the high heat from being directly supplied to the upper surface. The temperature of the hot water pipe (P) can be as high as 80 to 90 ° C depending on the case. If the heat with this temperature reaches the floor directly, it may damage the interior floor material or cause a slight burn .

The thickness of the heat shielding sheet 70 may vary depending on the heat shielding effect, and the cement mortar 60 may be installed with reference to the upper surface of the heat shielding sheet 70.

In some cases, the cement mortar 60 may be placed higher than the upper end of the hot water pipe holder 40, that is, the hot water pipe holder 40 may be buried in the cement mortar 60, Providing a reference height remains unchanged.

The magnet body 80 is attached to the hot water tube holder 40 by a magnetic force. Therefore, magnetic force is applied to the hot water tube holder 40 along the longitudinal direction of the hot water tube holder 40 to a degree proportional to the magnetic force of the magnet body 80. The magnet body 80 may be provided along the longitudinal direction of the hot water pipe holder 40 as shown in FIG.

The shape of the magnet body 80 may be various. Although a button-shaped magnet may be used as shown, a rubber magnet may be used in some cases.

The hot water pipe (P) is inserted into the hot water tube fitting groove (40a) as a tube body through which hot water heated by the boiler flows. The hot water pipe (P) is a synthetic resin pipe commonly used as an excel pipe, and is bendable so as to be laid on the floor in a zigzag form.

When only the straight section of the hot water pipe P is fitted in the hot water pipe holder 40, the remaining part of the hot water pipe P is located outside the hot water pipe holder 40 as a bent part in a semicircular shape.

The cement mortar 60 in which cement and sand are blended at a predetermined ratio is placed on the buffer mat 20 so as to cover the hot water pipe P in the state of being kneaded in water and hardened to form a cement mortar layer.

The upper end of the hot water pipe holder 40 is directly or indirectly supported on the upper surface of the slab S so that the hot water pipe holder 40 can be installed at a constant height from the upper surface of the cushioning mat 20, And a plurality of pedestals 50 that are supported on the bottom surface of the bottom plate 41 of the holder 40 and are adjustable in length. The pedestal 50 may have the following configuration and will be described mainly with reference to FIG.

The head plate 51 is supported on the bottom surface of the bottom plate 51 of the hot water tube holder 40. The head plate 51 may include a flat plate 51a and a bent plate 51b bent upward from the edge of the flat plate so as to open upward. This is so that the hot water pipe holder 40 is fitted and seated.

A bar-shaped upper post 52 on which a male screw is provided is installed at right angles to the bottom surface of the head plate 51. And a rod-shaped lower post 54 on which a male screw is provided can be supported on the upper surface of the slab S. One side of the adjusting pipe 53 is threaded into the upper post 52 and the other side is screwed into the lower post 54. The adjusting pipe 53 is provided with a screw thread. The lower posts 54 and the upper posts 52 have opposite thread forming directions as the turnbuckles. Therefore, if the adjustment pipe 53 is inserted and rotated, the distance between the lower posts 54 and the upper posts 52 is adjusted, which means that the height of the pedestal 50 can be adjusted. A nut 53a may be provided in the middle of the adjusting pipe 53 to easily rotate the wrench or the like. The lower posts 54 may be provided with a support plate 55 parallel to the slab S by welding or the like so that the support posts 55 may be fastened to the bottom of the lower posts 54 by nails or bolts, (55a) may be provided.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. The holder frame 30 may be provided with holder holding grooves 31 on which the hot water pipe holder 40 can be mounted, as shown in FIG. According to this, the hot water pipe holder 40 can be inserted and fixed as it is. That is, the holder seating groove 31 allows the hot water tube holder 40 to be conveniently installed at regular intervals. The nail for fixing the hot water pipe holder 40 to the support frame 30 may optionally be used as needed.

According to another embodiment of the present invention, the vane plate 43 of the hot water tube holder 40 may be provided along the longitudinal direction of the hot water tube holder 40 as shown in FIG. This improves the fixing force between the hot water pipe holder 40 and the cement mortar and provides the effect of reducing the material and may provide a measure of the length measurement that can estimate the length of the hot water pipe holder 40. For example, when a wing plate 43 having a length of 1 m is installed along the longitudinal direction of the hot water pipe holder 40, the length of the hot water pipe holder 40 can be estimated by calculating the number of the wing plates. From this, the consumed length of the excel pipe will be inferred.

According to another embodiment of the present invention, the vane plate 43 of the hot water tube holder 40 may be bent in a rounded shape so as to extend toward the upper part as shown in FIG. This is to reduce the degree of protrusion on the cement mortar layer and prevent the trowel from being hung on the blade 43 during the work to prevent the work from being hindered.

Also, the side plate 42 of the hot water tube holder 40 may be bent so as to project the ship 42a so as to be convex toward the inside. This is for the purpose of allowing the hot water pipe P to be fitted and fixed in the hot water pipe holder 40 without any additional means for fixing the hot water pipe P. [

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Skilled artisans may freely select and combine all of the embodiments described above, but all combinations not listed above are also to be construed as being within the scope of the present invention.

10: base sheet 20: buffer mat
30: Support frame 31: Holder seating groove
40: hot water pipe holder 40a: hot water pipe fitting groove
41: bottom plate 42: side plate
43: wing plate 50: pedestal
51: head plate 52: upper post
53: adjusting pipe 54: lower post
60: Cement mortar 70: Heat insulating sheet
80: magnet body S: slab
P: Hot water pipe

Claims (6)

A cushioning mat covering the upper surface of the floor slab of the building to absorb shock and block noise; A support frame installed on an upper surface of the buffer mat; A hot water tube holder made of a metal material and having a U-shaped hot water tube mounting groove formed along its longitudinal direction so that the hot water tube can be fitted as an elongated member fixedly seated on the upper surface of the support frame; A magnet body attached to the hot water pipe holder by a magnetic force; A hot water pipe fitted into the hot water tube receiving groove through which hot water heated by the boiler flows; And a cement mortar layer formed on the cushioning mat so as to cover the hot water pipe.
The method according to claim 1,
Wherein the hot water pipe holder is provided with a wing plate parallel to the slab by bending a part or whole of the hot water pipe holder along the longitudinal direction of the hot water pipe holder.
The method according to claim 1,
Wherein the coma tube holder comprises a side plate symmetrical to each other;
Wherein the side plate is bent obliquely so that an upper portion of the hot water tube mounting groove is narrow and a lower portion is wide.
The method according to claim 1,
Wherein the hot water pipe holder is provided with a wing plate parallel to the slab by bending the hot water pipe holder along a longitudinal direction of the hot water pipe holder,
And a heat shielding sheet made of synthetic resin, wood, or paper is adhered to the upper surface of the vane plate to prevent high heat from being directly supplied to the upper portion.
The method according to claim 1,
The lower end of the hot water pipe holder is directly or indirectly supported on the upper surface of the slab so that the hot water pipe holder can be installed at a predetermined height from the upper surface of the cushioning mat and the upper end is supported on the bottom surface of the bottom plate of the hot water pipe holder, And a plurality of pedestals formed on the bottom surface of the magnet body.
6. The method of claim 5,
The pedestal includes a head plate supported on a bottom surface of a bottom plate of the hot water pipe holder;
A bar-shaped upper post provided at a right angle to the bottom surface of the headboard and provided with a male screw;
A rod-shaped lower post having a male thread and a lower end supported on the upper surface of the slab;
An adjustment pipe threaded on one side of the upper post and screwed on the other side of the lower post;
And the height adjustment is possible by rotating the adjustment pipe to adjust the gap between the lower and upper posts.

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