KR20220058329A - Device for heating pipe with dry ondol floor - Google Patents

Abstract

The present invention relates to a heating pipe device of a dry Korean heater floor structure, which can significantly increase heating efficiency, comprising: a plurality of pipe panels; a guide protrusion; a heat conduction plate; a heating pipe for circulating hot water or steam; and a mounting boss mounted on a support leg via a buffer member.

Description

Heating piping device with dry ondol floor structure {Device for heating pipe with dry ondol floor}

The present invention relates to a heating piping device having a dry ondol floor structure, and more particularly, in a state in which a plurality of panels are connected to each other in all directions with respect to the floor surface of an indoor space of a multi-family house or building such as an apartment, and the heating pipe conducts heat It is possible to greatly improve the workability by inserting and bonding along a predetermined path through the plate, and to greatly increase the heating efficiency by allowing the heat generated from the heating pipe to be evenly transmitted in all directions through the heat conduction plate. , It relates to a heating piping device of a dry ondol floor structure that can greatly reduce noise between floors by absorbing and dispersing the impact force applied to the floor and wall surfaces of the indoor space after construction.

In general, for apartment houses or multi-family dwellings, apartment buildings are used for floor heating by pouring foam concrete on the base floor constructed by inter-floor framing construction, filling the heating material with hot water and then plastering the floor. In the case of apartment houses in Korea, most of them are constructed using the ondol method.

That is, most of the conventional ondol structures use a wet method to pour lightweight foam concrete on a concrete slab, install a wire mesh on it, fix the heating material for ondol with the wire mesh, and then pour concrete mortar to finish. , there is a problem in that the problem of these is very vulnerable to the impact of inter-floor noise and vibration.

In addition, the weight of the concrete is heavy and the self-load is very high because the concrete has to be laid over a certain thickness in order to embed the heating material. There is a problem that construction in winter is impossible.

In addition, it is very difficult to find the leak point and maintenance is difficult because it is necessary to tear off the poured concrete for inspection in the event of a defect such as a leak in the heating material.

Therefore, recently, in order to improve this, a dry type floor construction structure in which a heating pipe is supported by using a module panel for heating pipe is being developed. , Patent No. 10-1267516 has been proposed.

However, in the prior art, in order to make the panel itself lightweight, it is made of a material such as foam. When this occurs, problems such as partial subsidence of the floor or crushing of heating pipes occur.

In addition, since the entire panel does not have uniform strength and the strength of the heating pipe connection part is exceptionally low, the pressure phenomenon by the upper load frequently occurs, so the pipe could not be installed freely.

On the other hand, due to the peculiarity of apartment or multi-family housing in sharing walls and floors with neighboring houses, light impact sounds, such as the sound of objects falling through the walls and floors of adjacent households or sounds accompanying furniture movement, and small children running or walking In the case of hasty walking by adults, the noise and weight impact sound generated when an object falls is transmitted to the lower layer of the concrete slab, causing serious noise pollution. There is a problem that the noise between floors cannot be reduced because there is no structure that can do it.

1. Republic of Korea Patent Publication No. 10-2009-82742. 2. Republic of Korea Patent No. 10-1267516.

The present invention is to solve the problems of the prior art, and its purpose is to provide a heating pipe with a heat conduction plate in a state in which a plurality of panels are connected to each other in all directions with respect to the floor surface of an indoor space of a multi-family house or building, such as an apartment. It is to provide a heating piping device of a new dry type ondol floor structure that can greatly improve the workability by being inserted and combined along a path determined by the medium.

Another object of the present invention is to provide a heating piping device having a new dry ondol floor structure, which can greatly increase heating efficiency by allowing heat generated from a heating pipe to be evenly transmitted in all directions through a heat conduction plate.

Another object of the present invention is to provide a new dry ondol floor heating piping device capable of greatly reducing inter-floor noise by absorbing and dispersing the impact force applied from the upper part to the floor and wall surfaces of the indoor space after construction. .

In order to achieve the above object, the present invention is connected one after another in all directions to form the same horizontal plane and is placed on the floor surface of the indoor space of a building through a support leg, and a plurality of reinforcement for preventing partial settlement due to load on the upper surface A plurality of pipe panels formed side by side in the horizontal and vertical directions while maintaining the same height and the same spacing with the protrusions; a guide protrusion formed at regular intervals on the upper surface of the pipe panel corresponding to the reinforcing protrusion; A heating pipe fitting groove having a width that can cover the upper half of both reinforcing protrusions formed in parallel, a heating pipe fitting groove of a shape recessed downward along the longitudinal center line of the upper surface is formed, and the lower part of the heating pipe fitting groove is a guide projection a heat conduction plate that is fitted between the spaced spaces therebetween; a heating pipe for circulating hot water or steam supplied from the outside while being fitted in the heating pipe fitting groove on the heat conduction plate; It is formed to protrude downward from the center of the bottom surface of the reinforcing protrusion, and is configured to include a mounting boss mounted on the support leg via a buffer member for absorbing and dispersing the impact force applied from the upper side in a state in which the screw portion is formed on the inner circumferential surface.

In the present invention, the buffer member is coupled to the upper part of the support leg, and the outer peripheral surface of the support leg casing in the shape of a barrel formed with a threaded portion screwed to the inner peripheral surface of the mounting boss that protrudes below the bottom of the reinforcing protrusion; It has elasticity that always acts upward when fitted inside the support leg casing, and is characterized by a buffer spring that absorbs and attenuates the impact force applied to the bottom surface from the top.

In the present invention, a connection hole is formed on the surface of the reinforcing protrusion located at the edge of the pipe panel; The connection hole has a feature of being configured such that the piping panels connected to each other in all directions are closely connected to each other while maintaining the same horizontal plane while the "∩"-shaped connecting pieces are fitted and coupled from the top.

In the present invention, a shock absorbing member for blocking the impact force from being applied to the wall surface is installed in the lower portion of the edge surface of the pipe panel in contact with the wall surface of the indoor space during construction.

When the present invention is applied, in a state in which a plurality of panels are connected to each other in all directions with respect to the floor surface of an indoor space of a multi-unit house such as an apartment or a building, the heating pipe is fitted along a predetermined path through a heat conduction plate and is coupled. This is greatly improved, and since heat generated from the heating pipe is evenly transmitted in all directions through the heat conduction plate, there is an advantage in that the heating efficiency per unit time is greatly improved.

In addition, since the impact force applied to the floor and wall surfaces of the indoor space from above after construction is absorbed and dispersed, noise between floors can be greatly reduced.

1 is an exploded perspective view showing a heating piping device having a dry ondol floor structure according to the present invention.
2 is a perspective view of a state in which a heat conduction plate is fitted and coupled to a piping panel applied to a heating piping device having a dry ondol floor structure according to the present invention.
3 is a perspective view showing a state in which the piping panels applied to the heating piping apparatus of the dry ondol floor structure according to the present invention are connected one after another.
4 is a cross-sectional view and a partially enlarged view of a heating piping device having a dry ondol floor structure according to the present invention.
5 is a cross-sectional view and a partially enlarged view showing a state in which a heating pipe is fitted in the heating pipe device of the dry ondol floor structure according to the present invention.
6 is a plan view showing a square-shaped piping panel applied to a heating piping device of a dry ondol floor structure according to the present invention.
7 is a plan view showing a rectangular piping panel applied to a heating piping apparatus of a dry ondol floor structure according to the present invention.
8 is a cross-sectional view and a partially enlarged view illustrating a state in which adjacent piping panels are connected one after another in a heating piping device having a dry ondol floor structure according to the present invention.
9 is a plan view and a partially enlarged view illustrating a state in which square-shaped piping panels are connected one after another in a heating piping device having a dry ondol floor structure according to the present invention.
10 is a plan view showing a state in which the heating pipe is installed via a heat conduction plate in a state in which a square pipe panel and a rectangular pipe panel are connected one after another in the heating pipe system of the dry ondol floor structure according to the present invention.
11 is a partial cross-sectional view showing a state in which the heating piping device of the dry ondol floor structure according to the present invention is constructed in contact with a wall surface.

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

1 to 11 , in the heating piping device 10 having a dry ondol floor structure according to the present invention, a plurality of pipe panels 20 are connected one after another in all directions to form the same horizontal plane and support on the floor surface of the indoor space of the building. It is configured to be placed through the leg (30).

On the upper surface of the pipe panel 20, a plurality of reinforcing protrusions 21 for preventing partial settlement due to load are formed side by side in the horizontal and vertical directions while maintaining the same spacing and the same height, and the reinforcing protrusions ( 21) on the upper surface of the pipe panel 20 corresponding to the space between the guide projections 22 are configured to be formed at regular intervals.

In addition, a heat conduction plate 40 is installed between the spaced apart spaces between the guide protrusions 22 , and the heat conduction plate 40 is the upper half of both reinforcing protrusions 21 formed side by side on the pipe panel 20 . It has a width that can cover the heating pipe fitting groove 41 of the shape recessed downward along the longitudinal center line of the upper surface is configured to be formed.

The heat conduction plate 40 is mounted with the lower portion of the heating pipe fitting groove 41 inserted into the space between the guide protrusions 22 .

In the present invention, the heating pipe fitting groove 41 on the heat conduction plate 40 is configured to be installed with a heating pipe P for circulating hot water or steam supplied from the outside.

On the other hand, in the present invention, the mounting boss 50 mounted on the support leg 30 is formed to protrude downward from the center of the bottom surface of the reinforcing protrusion 21, and the inner peripheral surface of the mounting boss 50 has a screw part 51. The buffer member 60 for absorbing and dispersing the impact force applied from the top in the formed state is configured to be installed.

In order to configure the buffer member 60 in the present invention, a supporting leg casing 61 is provided to which the upper part of the supporting leg 30 is fitted and coupled, and the supporting leg casing 61 has a cylindrical shape. It is made, and the outer peripheral surface of the reinforcing protrusion 21 is formed with a threaded portion 62 screwed to the inner peripheral surface of the mounting boss 50 that protrudes below the bottom surface.

In addition, the inside of the support leg casing 61 is configured to have elasticity that always acts upward, and a buffer spring 63 that absorbs and attenuates the impact force applied to the floor from the top is inserted and installed.

In the present invention, a connection hole 23 is formed on the surface of the reinforcing protrusion 21 positioned at the edge of the pipe panel 20 so that the plurality of pipe panels 20 are closely connected to each other while maintaining the same horizontal plane. And, the connection hole 23 is configured to be coupled to the "∩" type connecting piece 70 is fitted from the top.

By the connection action of the connecting piece 70 as described above, the plurality of pipe panels 20 are connected to each other in all directions to maintain the same horizontal plane in a connected state.

On the other hand, in the present invention, a shock absorbing member 90 for blocking the application of the impact force to the wall surface 80 is inserted under the edge surface of the pipe panel 20 in contact with the wall surface 80 of the indoor space during construction in the present invention. there is.

According to the present invention made as described above, the heating pipe (P) is a heat conduction plate (40) in a state in which a plurality of pipe panels (20) are connected to each other in all directions with respect to the floor surface of the indoor space of a multi-unit house such as an apartment or a building. The constructability is greatly improved because it is inserted and combined along a predetermined path through the

In addition, since the heat generated from the heating pipe (P) is evenly transmitted in all directions through the heat conduction plate 40, the heating efficiency per unit time is greatly improved, as well as the floor and wall surfaces of the indoor space from above after construction. Since the impact force applied to 80 is absorbed and dispersed by the cushioning member 60 and the shock absorbing member 90, the noise between floors is greatly reduced.

10: Heating piping device of dry type ondol floor structure
20: pipe panel 21: reinforcing protrusion
22: guide projection 23: connection hole
30: support leg 40: heat conduction plate
41: heating pipe fitting groove 50: mounting boss
51, 62: screw part 60: buffer member
61: support leg casing 63: buffer spring
70: connecting piece 80: wall
90: shock absorbing member P: heating pipe.

Claims (4)

They are connected one after another in all directions to form the same horizontal plane and are placed on the floor surface of the indoor space of the building via the support legs 30, and on the upper surface, a plurality of reinforcing protrusions 21 to prevent partial settlement due to load are spaced at the same distance from each other. A plurality of pipe panels 20 formed side by side in the horizontal and vertical directions while maintaining the same height as;
a guide protrusion 22 formed at regular intervals on the upper surface of the pipe panel 20 between the reinforcing protrusions 21;
A heating pipe fitting groove 41 having a width that can cover the upper half of both reinforcing protrusions 21 formed side by side and recessed downward along the longitudinal center line of the upper surface is formed, and the heating pipe fitting groove a heat conduction plate 40 having the lower portion of the 41 fitted between the spaced spaces between the guide protrusions 22 and;
a heating pipe (P) for circulating hot water or steam supplied from the outside while being fitted in the heating pipe fitting groove (41) on the heat conduction plate (40);
It is formed to protrude downward from the center of the bottom surface of the reinforcing protrusion 21, and with the screw part 51 formed on the inner circumferential surface, the cushioning member 60 for absorbing and dispersing the impact force applied from the upper side is used as a medium (30) A heating piping device of a dry ondol floor structure, characterized in that it includes a mounting boss (50) mounted on the . The method of claim 1,
The buffer member 60 is coupled to the upper part of the support leg 30 by being fitted, and the outer circumferential surface of the reinforcing protrusion 21 has a threaded portion 62 screwed to the inner circumferential surface of the mounting boss 50 protruding downward from the bottom of the barrel. (筒)-shaped support leg casing (61) and;
Dry ondol floor, characterized in that it has elasticity that always acts upward in the state that it is fitted inside the support leg casing (61) and is composed of a buffer spring (63) that absorbs and attenuates the impact force applied to the floor surface from the top. Structural heating plumbing. 2. The method of claim 1
A connection hole 23 is formed on the surface of the reinforcing protrusion 21 located at the edge of the pipe panel 20;
Dry-type ondol floor, characterized in that the piping panel 20 connected to each other in all directions while the “∩”-shaped connecting piece 70 is fitted and coupled from the top to the connecting hole 23 is closely connected to each other while maintaining the same horizontal plane Structural heating plumbing. The method of claim 1,
Dry ondol floor, characterized in that the shock absorbing member 90 for blocking the impact force from being applied to the wall surface 80 is inserted and installed under the edge surface of the pipe panel 20 in contact with the wall surface 80 of the indoor space during construction Structural heating plumbing.

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