KR20200022553A - Apparatus and method for installing heating pipes - Google Patents

Abstract

The present invention relates to an apparatus for installing heating pipes and a method thereof. More specifically, the apparatus includes: an insulation module which is filled with an insulation and receives and supports some of the heating pipes at an upper end; and a metal-coupling mesh capable of heat conduction formed to be coupled to the heat insulation module.

Description

Apparatus and method for installing pipes for heating plumbing {APPARATUS AND METHOD FOR INSTALLING HEATING PIPES}

The present invention relates to a pipe installation device and method for heating plumbing, and more particularly, to a pipe installation device and method for heating plumbing to be installed in a modular form so that the pipe for heating plumbing can be installed at uniform intervals.

In general, pipes or hoses for heating plumbing for heating buildings by supplying heating water of hot water boilers are provided by extrusion molding of aluminum, stainless steel, copper, rubber, and synthetic resin materials.

Such pipes or hoses for heating plumbing are generally formed in a circular pipe shape so that sensible heat is generated on the outer circumferential surface of the pipe by hot water passing through the inside of the pipe so that the heat is applied to the floor of the ondol, or the mat is heated. To be authorized.

However, in the pipe or hose as described above, the entire heat of hot water flowing inside is sensible on the outer circumferential surface of the pipe and is not transmitted to the mat upper surface or the floor of the ondol. Since there is a problem that does not achieve sufficient heat transfer effect.

In addition, in this case, the hot water boiler, etc. must be continuously operated, or the set temperature is increased, so there is a problem in that energy consumption such as power consumption is large and excessive heating costs are generated.

Therefore, there is a need to develop a pipe installation technology for heating plumbing that can be easily installed while increasing the heating efficiency.

Accordingly, the present invention has been proposed to solve the above problems, and by installing a mesh formed of a metal material such as copper having excellent thermal conductivity as a thermal conductor surrounding the heating pipe, it is possible to increase the thermal conductivity and reduce the heat loss rate. The present invention provides a pipe mounting apparatus and method for heating piping.

In addition, the present invention by installing a plurality of insulation modules to ensure that the heat radiated from the heating pipe is smoothly transferred to the surface of the floor to be heated, so that the heat is concentrated on the surface of the floor to be heated so that smooth heating is achieved. The present invention provides a pipe installation device and method for heating plumbing.

The object of the present invention is not limited to those mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

Pipe installation device for heating piping according to the present invention for achieving the above object, the insulation module is filled with a heat insulating material, the heat insulating module for receiving and supporting a portion of the heating pipe at the upper end; And a coupling network made of a metal material capable of thermal conduction formed to be coupled to the insulation module.

In addition, the pipe installation method for heating piping according to the present invention comprises a first step of providing a plurality of pipe installation device for heating piping arranged on the floor slab to have a predetermined interval; A second step of piping while the heating pipes are inserted and supported by the support portions of the plurality of heating piping pipe installation devices, respectively; A third step of installing a plurality of heating pipe installation devices for heating pipes and a metal heat transfer network capable of conducting heat on the heating pipes so as to evenly disperse heat emitted from the heating pipes; And a fourth step of pouring mortar in a state where the third step is completed.

According to the present invention, by installing a mesh formed of a metal material such as copper having excellent thermal conductivity as a thermal conductor surrounding the heating pipe, it is possible to increase the thermal conductivity and reduce the heat loss rate.

In addition, according to the present invention, by installing a plurality of insulation modules to ensure that the heat emitted from the heating pipe is smoothly transferred to the surface of the floor to be heated, the heat is concentrated on the surface of the floor to be heated to ensure smooth heating To be done.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 shows a heating pipe installed according to the prior art.
2 is a view showing a part of the cross section of the floor surface constructed in accordance with an embodiment of the present invention.
3 is a view schematically showing the configuration of a thermal insulation module according to an embodiment of the present invention.
4 is a view schematically showing a configuration of a coupling network coupled to an insulation module according to an embodiment of the present invention.
5 is a diagram illustrating an example in which a coupling net and a hose are coupled to an insulation module according to an exemplary embodiment of the present invention.
6 is a flow chart showing a pipe installation method for heating piping according to an embodiment of the present invention.

DETAILED DESCRIPTION In order to fully understand the constitution and effects of the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various forms and various changes may be made. However, the description of the embodiments is provided only to make the disclosure of the present invention complete, and to fully inform the scope of the invention to those skilled in the art. In the accompanying drawings, for convenience of description, the size of the components is shown to be larger than the actual size, and the ratio of each component may be exaggerated or reduced.

If a component is said to be "on" or "contacted" by another component, it should be understood that another component may be present in the middle, although it may be directly in contact with or connected to the other component. something to do. On the other hand, if a component is described as being "on" or "directly" to another component, it may be understood that there is no other component in between. Other expressions describing the relationship between the components, such as "between" and "directly between", may also be interpreted as well.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms may be used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

Singular expressions include plural expressions unless the context clearly indicates otherwise. The terms "comprises" or "having" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described on the specification, one or more other features or numbers, It may be interpreted that steps, actions, components, parts or combinations thereof may be added.

Unless otherwise defined, terms used in the embodiments of the present invention may be interpreted as meanings commonly known to those skilled in the art.

1 is a view showing an example of installing a heating pipe according to the prior art.

Referring to FIG. 1, conventionally, after installing a heat insulator (not shown) for heat reflection on a floor slab, a wire mesh, that is, a wire mesh 2 is installed, and a heating pipe 1 is fixed to the wire mesh. Piping. When the piping is completed in this way, the floor construction is completed by pouring and flattening mortar thereon.

2 is a view showing a part of the cross section of the floor surface constructed in accordance with an embodiment of the present invention.

2, the cross section of the bottom surface constructed in accordance with an embodiment of the present invention is the bottom slab 11, the heat insulating material 12, a plurality of heat insulation modules 13, the coupling network 14, the heating pipe 15 , A heat transfer network 17 and a mortar 19.

The bottom slab 11 is a basic floor which is formed flat on the lowest layer with a predetermined thickness.

Insulation (12) is to prevent heat loss, and insulates the heat generated from the heating pipe (15) so that it is not released to the floor slab and not to the floor to be heated.

The insulation module 13 is formed in a block shape to have a predetermined width, height, and length, and an inner space thereof is filled with an insulation material such as, for example, styrofoam. Alternatively, the heat insulation module 13 may be formed of a heat insulating material. When installing the heat insulation module 13 on the bottom slab 11, the some heat insulation module 13a-13c is arrange | positioned so that it may have a predetermined space | interval.

The coupling network 14 is coupled to the upper end of the insulation module 13, and is made of a metal material having excellent thermal conductivity such as copper. At this time, the coupling network 14 is formed to correspond to the shape of the upper end in order to be coupled to the upper end of the insulation module (13).

However, the shape of the insulation module 13 and the coupling network 14 is not limited to the shape shown in Figure 2, the design can be changed depending on the situation.

Meanwhile, the heating pipe 15 is formed to be supported by the insulation module 13 to which the coupling network 14 is coupled. That is, the heating pipe 15 is provided in a groove formed in the plurality of insulation modules 13a to 13c in a state in which the plurality of insulation modules 13a to 13c to which the coupling network 14 is coupled are disposed on the floor slab 11. Install by inserting.

The heat transfer network 17 is installed on the heating pipe 15, and is formed of copper so that the heat energy emitted from the heating pipe 15 diffuses to the bottom surface to be heated. In this case, the heat transfer network 17 may be a network having various forms such as a metal lath network, a twisted network, a perforated network, and the shape may be changed and applied according to a situation.

The mortar 19 is a mixture of sand, cement, and water, and is placed thereon after installing the heat transfer network 17 to form a final bottom surface. Specifically, after the insulation module 13, the coupling network 14, the heating pipe 15 and the heat transfer network 17 are installed, the spaces are filled and the final bottom is formed as the mortar 19 is poured thereon. It will be.

3 is a view schematically showing the configuration of a thermal insulation module according to an embodiment of the present invention.

Referring to FIG. 3, the insulation module 13 according to an embodiment of the present invention includes a housing portion 131, an insulation 133, an upper end 135, and a support 137.

The housing part 131 forms an accommodation space in which the heat insulating material 133 can be accommodated. At this time, the housing portion 131 is formed so that the width, height and length correspond to the width, height and length of the insulation module (13).

The heat insulating material 133 may be styrofoam, iso pink, urethane, glass wool, insulation, heat reflection heat insulating material, and the like, and the heat insulating material 133 is accommodated in the accommodation space formed inside the housing part 131.

However, this is only an embodiment, and as the insulating module 13 itself is formed of the insulating material 133, a separate housing part 131 may not be formed.

The upper end 135 corresponds to the upper surface of the housing 131.

Support 137 is formed in the longitudinal direction in the center of the upper end 135 to receive and support a portion of the heating pipe.

Here, as the support 137 is formed in the center of the upper end 135, the upper end 135 has an upper surface formed to correspond to the bottom surface of the housing 131 on both left and right sides with respect to the support 137.

On the other hand, in order to receive and support a portion of the curved heating pipe, the support 137 is also formed to have a curved surface corresponding to the heating pipe.

4 is a view schematically showing a configuration of a coupling network coupled to an insulation module according to an embodiment of the present invention.

Referring to FIG. 4, the coupling network 14 coupled to the thermal insulation module according to the embodiment of the present invention includes a first coupling part 143 and a second coupling part 145.

In this case, the first coupling part 143 is coupled to the upper end 133 of the thermal insulation module 13, and the second coupling portion 145 is coupled to the support 135 of the thermal insulation module 13. Specifically, the first coupling portion 143 is contact-coupled along the edges of the upper surface formed on the left and right sides of the support portion 135, the second coupling portion 145 is the edge of the curved surface formed in the center of the support portion 135 Is coupled along the contact.

5 is a diagram illustrating an example in which a coupling net and a hose are coupled to an insulation module according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the upper end portion 133 of the insulation module 13 forms a support portion 135 having a groove shape in the center thereof, and a coupling network 14 formed to correspond to the edge of the upper end portion 133 and the support portion 135. ) Is coupled above the upper end 133 and the support 135.

In addition, when the coupling network 14 is coupled to the upper end of the heat insulation module 13 to complete the pipe installation device for heating plumbing, the heating pipe is connected to the support 135 of the heat insulation module 13 in the pipe installation device for heating plumbing. As the 15 is inserted, the support 135 receives and supports the heating pipe 15.

6 is a flow chart showing a pipe installation method for heating piping according to an embodiment of the present invention.

First, a first process of arranging a plurality of thermal insulation modules 13 to which the coupling network 14 is coupled, that is, a plurality of pipe installation devices for heating piping, is arranged to have a predetermined interval on the entire floor surface to be installed (S601). .

Subsequently, a second process of piping is performed while the heating pipe is inserted into and supported by the supporting portion of each of the plurality of arranged heating pipe installation devices for heating piping (S603).

Thereafter, a third process of installing a copper heat transfer network on the piped heating pipe is performed so that the heat energy emitted from the heating pipe is evenly spread on the bottom surface to be heated (S605).

Finally, in the state in which the third process is completed, the mortar is poured to fill the space between the pipe installation devices for each heating plumbing to form a final bottom surface (S607). At this time, the mortar is poured to a height that covers the pipe mounting device for heating piping, that is, higher than the pipe mounting device for heating piping.

In the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms have been used, these are merely used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

1: heating pipe 2: wire mesh
11: floor slab 12: insulation
13: insulation module 13a: first insulation module
13b: second insulating module 13c: third insulating module
14: connection network 15: heating pipe
17: heat transfer network 19: Maltar
131: housing portion 133: heat insulating material
135: upper portion 137: support portion
143: first coupling portion 145: second coupling portion

Claims (4)

In the pipe installation device for heating plumbing,
An insulation module filled with a heat insulating material and accommodating and supporting a portion of a heating pipe at an upper end thereof; And
Heating pipe installation device, characterized in that it comprises a coupling network of a metallic material capable of heat conduction is coupled to the insulation module.
The method of claim 1,
The insulation module,
A housing part forming an accommodation space in which a heat insulating material can be accommodated;
A heat insulating material accommodated in the accommodation space of the housing part;
An upper end formed to correspond to an upper surface of the housing part; And
And a support part formed to have a predetermined width in the longitudinal direction on the upper end to receive and support a portion of the heating pipe.
The method of claim 2,
The coupling network,
Heating pipe installation device, characterized in that formed to correspond to the upper end and the support.
A first step of providing a plurality of pipe installation devices for heating plumbing according to any one of claims 1 to 3 and arranging them on the floor slab to have a predetermined interval;
A second step of piping while the heating pipes are inserted and supported by the support portions of the plurality of heating piping pipe installation devices, respectively;
A third step of installing a plurality of heating pipe installation devices and a metal heat transfer network capable of conducting heat on the heating pipes so as to evenly disperse heat emitted from the heating pipes; And
And a fourth step of pouring mortar when the third step is completed.

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