KR20140013566A - Indoor cooling and heating pipe module having simple and easy assembly-disassembly and construction features, and construction method thereof - Google Patents

Abstract

The present invention includes a pair of main pipes facing each other by being separated and a plurality of connection pipes connecting a pair of the main pipes. A pair of the main pipes has a plurality of holes separated at constant intervals along a longitudinal end on the surface facing each other, and the connection pipes are fixed to the holes of the main pipes so that the cooling and heating pipe module moving hot water or cold water towards an outlet. Single pieces of the cooling and heating pipe module are constructed in a building, a structure, or a facility.

Description

{INDOOR COOLING AND HEATING PIPE MODULE HAVING SIMPLE AND EASY ASSEMBLY-DISASSEMBLY AND CONSTRUCTION FEATURES, AND CONSTRUCTION METHOD THEREOF}

The present invention relates to a structure for heating or cooling an interior of a building or structure or facility, and more particularly, a cooling / heating pipe module that is easy to assemble, dismantle and install for the purpose of cooling or heating a building or structure or facility. And the construction method thereof.

An example of traditional indoor heating in Korea is a heating method using a hot water pipe. In the normal heating method using a hot water pipe, heat dissipation means in which a hot water pipe having a heating function is arranged in a flat zigzag on the indoor floor, hot water heating means for intensively heating a predetermined amount of hot water, and hot water is circulated and supplied to the hot water pipe. It consists of a combination of supply means.

The hot water heating means includes various types of boiler apparatuses equipped with electric heaters or oil burners, fuel supply and injection mechanisms, blowers, etc., and the hot water supply means includes circulation pumps, supply pipes, return pipes, and various valve mechanisms. In addition, water tank, expansion tank and temperature control mechanism are included.

In the hot water heating method through such a configuration, after intensively heating a large amount of water at a specific place by the heating means, the heated hot water is circulated and supplied to the heat radiating means by a supply means to radiate heat, and in this process, The hot water is refluxed to the heating means again to repeatedly perform heating while forcibly circulating between the heating means and the heat radiating means.

However, such a heating method is generally installed by zigzag laying the hot water pipe on the indoor floor, which is a form of heating similar in principle to the traditional ondol room, and the above configuration cannot be applied to indoor cooling.

In addition, the above configuration is difficult to install on the wall or ceiling surface, but not the floor in the case of heating, it could not be applied to the facilities that require cooling and heating, such as a plastic house.

The present invention was developed to solve the above problems, and an object of the present invention is to provide a cooling and heating pipe module and a construction method that is easy to assemble, dismantle, and construction for cooling and heating of buildings, structures or facilities.

In order to achieve the above object, the present invention provides a pair of main pipes and the pair of main pipes spaced apart from each other so as to inject, distribute, and discharge hot or cold water supplied from a boiler or a refrigerator. A plurality of connecting pipes, the pair of main pipes having a plurality of holes spaced apart from each other along a lengthwise end on corresponding surfaces thereof, the plurality of connecting pipes being connected to and fixed to the holes on the main pipes; It provides a cooling and heating pipe module configured to flow the supplied hot water or cold water to the discharge side.

In the cooling and heating pipe module, a plurality of connection pipes connecting the pair of main pipes are fixed to one or more fixing bars, and the fixing bars are connected to each of the connection pipes at intervals corresponding to the separation distances of the connection pipes. It has a plurality of fitting grooves to be fitted to the surface of the plurality of connecting pipes are also made of pipes of smaller diameter than the main pipe, the connection of the plurality of connecting pipes and the pair of main pipe is welded or welded Or through fitting or screwing through a connector.

In order to achieve the above object, the present invention is a method for constructing a single piece of the heating and heating pipe module in a building, structure or facility, the connection between the single piece of the heating and heating pipe module on the same plane is the main It is made through the connection between the inlet side of the pipe and the outlet side of the main pipe on the other side, and the connection of the main pipe between the single pieces includes a "H" shaped connector, a "c" shaped connector, or a "-" shaped A construction method in which a connector is used; A method of constructing single pieces of cooling and heating pipe modules in buildings, structures, or facilities, between single planes of heating and heating pipe modules installed on different walls and walls, walls and ceilings, and walls and floors. Connection is made through the connection of the inlet side of the main pipe on one side and the discharge side of the main pipe on the other side, the construction method of using a "b" shaped connector for the connection of the main pipe between the single piece; And a single piece of the heating / heating pipe module in a building, a structure or a facility, wherein the inlet side of the main pipe of one side of the cooling / heating pipe module in which the initial supply of hot or cold water is made from a boiler or a freezer, and a plurality of connected parts The other side of the cooling / heating pipe module which finally discharges the hot or cold water reached after flowing along the cooling / heating pipe modules to the boiler or the freezer is connected to the boiler or the freezer by a “-” shaped connector. Provides a construction method connected to the pipe.

In addition, the present invention is a method for constructing a single piece of a heating and heating pipe module in a building, structure or facility, the "H" shaped between the heating and heating pipe module installed on the same plane wall, floor or ceiling surface Connecting using a connector, a "-" shaped connector, or a "-" shaped connector; Painting a mortar having a predetermined thickness on the coplanar wall, bottom, or ceiling, and forcing the connected cooling and heating pipe modules into mortar of the wall, bottom, or ceiling before the mortar is hardened; Connecting the “b” shaped connector between the cooling and heating pipe modules installed on the wall, floor or ceiling on different planes; The hot water or cold water reached after flowing along the inlet side of the main pipe and the plurality of connected air / heating pipe modules, which is first supplied with hot water or cold water from the boiler or the freezer, is supplied to the boiler or the freezer. Connecting the discharge side of the other main pipe of the cooling / heating pipe module to be finally discharged to the pipe of the boiler or the freezer using a “-” shaped connector; And cementing the outside of the assemblies of the cooling / heating pipe modules connected to each other while being inserted into the mortar.

In addition, the present invention is a method for constructing a single piece of a heating and heating pipe module in a building, a structure or a facility, a groove corresponding to the shape of the cooling and heating pipe module on the surface of the panel of wood, MDF, gypsum or synthetic resin Forming; Inserting a cooling / heating pipe module into the groove to form a single piece of the cooling / heating pipe module; It provides a construction method comprising the step of attaching a single piece of cooling and heating pipe module fitted to the panel on the wall, floor or ceiling surface of the building.

Cooling and heating pipe module of the present invention having the above characteristics has the advantage that the configuration is simple, easy to manufacture, cost and time is reduced, and also can be installed on the wall or ceiling, it is effective in preventing drafts and improving thermal efficiency. .

In addition, the cooling and heating pipe module of the present invention has the advantage of easy assembly, disassembly and construction in construction for cooling and heating of buildings, structures or facilities, especially when installed in a plastic house, etc. The maintenance cost can be greatly reduced.

1 is an exploded perspective view showing a schematic configuration of a cooling and heating pipe module of the present invention,
Figure 2 is a perspective view showing the assembled state of the cooling and heating pipe module according to Figure 1,
3 is a front view showing an assembled state of the cooling and heating pipe module according to FIG.
4 is a cross-sectional view showing various connection forms of the "II" part of FIG.
5 is a state diagram showing a construction method of a cooling / heating pipe module of the present invention;
Figure 6 is a cross-sectional view showing an example of the building wall surface installation of the cooling and heating pipe module of the present invention,
Figure 7 is a cross-sectional view showing a vinyl house surface installation example of the cooling and heating pipe module of the present invention.

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

1 is an exploded perspective view showing a schematic configuration of a simple cooling and heating pipe module assembly disassembly and construction of the present invention, Figures 2 and 3 show the assembled state of a single piece of cooling and heating pipe module according to FIG. 4 is a cross-sectional view showing various connection forms of the "II" part of FIG.

According to the present invention, the cooling / heating pipe module includes a pair of main pipes (10, 10 ') spaced apart from each other and a plurality of connecting pipes (11) connecting these main pipes. The main pipes 10 and 10 'serve to introduce and distribute the mainstream of hot or cold water supplied from a boiler or a freezer, and collect and discharge them again. The plurality of connecting pipes 11 are made of generally thin pipes of smaller diameter than the main pipes 10, 10 ′, which are perforated at regular intervals on the corresponding surfaces of the pair of main pipes 10, 10 ′. It is coupled to the plurality of holes 13, respectively.

The cooling and heating pipe module of the present invention configured as described above performs hot water or cold water introduced through one side of the main pipes 10 and 10 'and passes through the respective connecting pipes 11 to perform a heating or cooling function. Hot or cold water passing through the plurality of connecting pipes 11 is collected and discharged from the other side of the main pipes 10 and 10 'again.

In the present invention, a plurality of connecting pipes 11 and a pair of main pipes 10 and 10 'may be connected through various methods. For example, as shown in FIG. 4A, a welding or welding method (A: welded portion) may be used. A plurality of connection pipes 11 can be connected and fixed between the pair of main pipes 10, 10 ′. As another example, a plurality of connection pipes 11 may be connected between a pair of main pipes 10 and 10 'by using a predetermined connector C as shown in FIG. 4B. In this case, the connector C may be provided in the form of simply fitting into the plurality of holes 13 and the connecting pipe 11 or in the form of a screw that is screwed together.

Further, in the present invention, the plurality of connecting pipes 11 connecting the plurality of holes 13 of the pair of corresponding main pipes 10, 10 ′ may have one or more fixing bars having a plurality of fitting grooves 14. It can be fixed by 12. The fitting grooves 14 formed in the respective fixing bars 12 are spaced apart distances of the plurality of holes 13 on the main pipes 10, 10 ′, that is, of the connecting pipes 11 connecting the holes 13. It is formed at an interval corresponding to the separation distance, and the combination of the fixing bar 12, the respective fitting grooves 14 are fitted on each connection pipe 11 to maintain a stable coupling.

From such a configuration, a single piece of the cooling / heating pipe module of the present invention is completed. The following describes a method for constructing a building or various structures or facilities using single pieces of the heating / heating pipe module of the present invention.

FIG. 5 is a view illustrating a connection form when a cooling / heating pipe module according to the present invention is constructed in a building or various structures or facilities, and connecting a plurality of single-piece heating / heating pipe modules shown in FIGS. 2 and 3. Install it.

Each of the cooling and heating pipe modules, which are a single piece, receives hot water or cold water through one end of one of the pair of main pipes 10 and 10 'and receives one end of the other pipe 10'. The introduced hot water or cold water is discharged through.

The connection of the heating and heating pipe modules, which are one-piece on the same plane, can be made through the connection between the discharge side of the other main pipe 10 'and the inlet side of the main pipe 10 between the respective modules. An H "shaped connector 17 is used, and a" c "shaped connector 19 or a"-"shaped connector 16 is generally used at the end of the same plane.

In addition, the connection between the different planes, for example, the walls and walls of the building, the walls and the ceiling of the building, and the heating and heating pipe modules installed on the walls and the floor of the building is generally a "b" shaped connector ( 18).

In addition, the hot water or cold water reached after flowing along the inlet side of the main pipe 10 on one side of the cooling / heating pipe module in which the initial supply of hot water or cold water is made from the boiler or the freezer, and a plurality of connected cooling / heating pipe modules. The discharge side of the main pipe 10 'of the other side of the cooling / heating pipe module which is finally discharged to the boiler or the freezer is generally connected to the pipe (not shown) of the boiler or the freezer by using a connector 16 having a "-" shape. Can be connected.

As such, the heating and heating pipe module single pieces are generally constructed using a connector (16) (17) (18) (19) shaped like "-", "H", "b" and "c". Connections can be made on walls, ceilings and floors of structures or facilities.

On the other hand, the main pipes (10, 10 ') in each of the cooling and heating pipe modules, except for the portion that is connected to each other as shown in Figure 5 cap (15) is preferably sealed Do.

Figure 6 shows an example of the building wall surface installation using the cooling and heating pipe module of the present invention, the method of installing the cooling and heating pipe module of the present invention on the building wall, first, the same plane of the wall surface, floor surface or ceiling surface A connector "16" having a substantially "-" shape, a connector "17" having a substantially "H" shape, and a connector "19" having a substantially "c" shape are connected between the cooling and heating pipe modules.

Thereafter, a mortar (W) having a predetermined thickness is applied to the wall, floor, or ceiling surface of the cooling / heating pipe module of the present invention, and the connected cooling / heating pipe modules are wall, floor or Push into each mortar (W) of the ceiling.

In this state, the cooling and heating pipe modules on different planes, that is, on the wall, floor or ceiling, are connected by a connector 18 having a generally "b" shape. In addition, the first cooling / heating pipe module into which hot water or cold water is introduced and the last cooling / heating pipe module from which hot water or cold water is recovered and discharged are generally used by using a connector (16) shaped to form a boiler or a refrigerator. Connect with pipe.

Thereafter, the exterior of the cooling / heating pipe module assemblies inserted into the mortar in the interconnected state is cemented and embedded (Y: plaster) to complete the construction of the cooling / heating pipe module according to the present invention.

The hot water or cold water supplied from the boiler or the freezer by the assembly of the cooling / heating pipe modules of the present invention constructed as described above returns to the boiler or the freezer by returning to the wall, floor or ceiling of the building and repeating the building. Internal heating or cooling is performed.

Although not shown in the drawings, the cooling and heating pipe module of the present invention may be provided in a state of being accommodated in a panel made of general wood, MDF, gypsum or synthetic resin. In this case, first, grooves are formed on the surface of the panel of wood, MDF, gypsum or synthetic resin in the shape of the cooling / heating pipe module of FIGS. 2 and 3, and then the cooling / heating pipe module is inserted into the groove. do. Cooling and heating pipe module configured in this way can be used to attach to the wall, floor or ceiling surface of the building.

Figure 7 shows an example of installation in the plastic house of the heating and heating pipe module of the present invention, in the case of a structure such as a vinyl house, since the wall and the ceiling surface is usually rounded structure, such a wall surface and the ceiling surface In order to be installed in the cooling and heating pipe module of the present invention is preferably provided in a predetermined rounded form.

As described above, the connection of the rounded type cooling / heating pipe module is generally performed by the “-” shaped connector 16 and the “H” shaped connector between the coplanar cooling and heating pipe modules. (17) and the generally "c" shaped connector 19, and connected between different planes, i.e., the wall and the wall, and the cooling and heating pipe modules of the wall and the ceiling, with a generally "b" shaped connector. do.

The hot water or cold water reached after flowing along the inlet side of the main pipe and the plurality of connected air / heating pipe modules, which is first supplied with hot water or cold water from the boiler or the freezer, is supplied to the boiler or the freezer. The discharge side of the main pipe on the other side of the cooling / heating pipe module finally discharged may be connected to the boiler or the freezer by using a connector “16” having a generally “-” shape.

The hot or cold water supplied from the boiler or the freezer by the assembly of the cooling / heating pipe modules of the present invention constructed as described above returns to the wall or ceiling of the vinyl house and is repeatedly recovered by the boiler or the freezer. Heating or cooling of the house, and during heavy snow in winter to melt the snow accumulated on the roof of the plastic house to prevent the collapse of the plastic house.

On the other hand, although not shown in the drawings, when installing the cooling and heating pipe module in the plastic house as described above, the raw water pipe (not shown) for the raw water inlet and discharge of hot water or cold water connected to the boiler or freezer and the bottom of the plastic house and Each may be provided at the top. In addition, the raw water pipe may be provided in the form of connecting the top and bottom of the plastic house at regular intervals.

In the arrangement of the raw water pipes, the assembly of the cooling / heating pipe modules of FIG. 5 has an inlet side of the main pipe 10 of the cooling / heating pipe module to which hot water or cold water first flows into one side of the raw water pipe, preferably raw water. It is connected to the inlet side of the pipe, and the discharge side of the other main pipe 10 'of the cooling / heating pipe module from which the hot water or cold water finally collected is discharged is connected to the other side of the raw water pipe, preferably the discharge side of the raw water pipe. . As another form, a construction method in which each single piece of the cooling / heating pipe module is directly connected to the raw water pipe is also possible.

Claims (8)

A pair of opposed main pipes spaced apart from each other to introduce, distribute, and discharge hot or cold water supplied from a boiler or a freezer;
A plurality of connecting pipes connecting the pair of main pipes,
The pair of main pipes have a plurality of holes spaced apart from each other along a length end on corresponding surfaces thereof,
The plurality of connection pipes are connected and fixed to the holes on the main pipe cooling and heating pipe module, characterized in that for flowing the supplied hot water or cold water to the discharge side. The method of claim 1,
A plurality of connecting pipes connecting the pair of main pipes are connected and fixed to one or more fixing bars, and the fixing bars are fitted into the surfaces of the respective connecting pipes at intervals corresponding to the separation distances of the connecting pipes. Cooling and heating pipe module having a groove. The method of claim 1,
The plurality of connecting pipes are made of pipes smaller in diameter than the main pipe, and the connection between the plurality of connecting pipes and the pair of main pipes is by welding or welding, or through fitting or screwing through a connector. Cooling and heating pipe module, characterized in that. As a method of constructing a single piece of the heating and heating pipe module according to claim 1 in a building, structure or facility,
The connection between the single piece of the cooling and heating pipe module on the same plane is made through the connection between the inlet side of the main pipe on one side and the outlet side of the main pipe on the other side, and the "H" shape for the main pipe connection between the single pieces. A connector, a "-" shaped connector or a "-" shaped connector is used. As a method of constructing a single piece of the heating and heating pipe module according to claim 1 in a building, structure or facility,
The connection between the walls and walls on different planes, the walls and ceilings, and the single piece of air-conditioning pipe module installed on the walls and floors is a connection between the inlet of one main pipe and the outlet of the other main pipe. It is made through, the construction method, characterized in that the "b" shaped connector is used to connect the main pipe between the single piece. As a method of constructing a single piece of the heating and heating pipe module according to claim 1 in a building, structure or facility,
The hot water or cold water reached after flowing along the inlet side of the main pipe and the plurality of connected air / heating pipe modules of the cooling / heating pipe module in which the initial supply of hot or cold water from the boiler or freezer is made is The discharge side of the other main pipe of the cooling / heating pipe module finally discharged is connected to the piping of a boiler or a freezer by the "-" shaped connector. As a method of constructing a single piece of the heating and heating pipe module according to claim 1 in a building, structure or facility,
Connecting between an H-shaped connector, a "c" shaped connector, or a "-" shaped connector between cooling and heating pipe modules installed on the same plane wall, floor or ceiling surface;
Painting a mortar having a predetermined thickness on the coplanar wall, bottom, or ceiling, and forcing the connected cooling and heating pipe modules into mortar of the wall, bottom, or ceiling before the mortar is hardened;
Connecting the “b” shaped connector between the cooling and heating pipe modules installed on the wall, floor or ceiling on different planes;
The hot water or cold water reached after flowing along the inlet side of the main pipe and the plurality of connected air / heating pipe modules of the cooling / heating pipe module in which the hot water or cold water is first supplied from the boiler or the freezer is supplied to the boiler or the freezer. Connecting the discharge side of the other main pipe of the cooling / heating pipe module to be finally discharged to the pipe of the boiler or the freezer using a “-” shaped connector; And
And cementing the outside of the assemblies of the cooling and heating pipe modules connected to each other in a state of being inserted into the mortar. As a method of constructing a single piece of the heating and heating pipe module according to claim 1 in a building, structure or facility,
Forming a groove corresponding to the shape of the cooling / heating pipe module on a panel surface made of wood, MDF, plaster, or synthetic resin;
Inserting a cooling / heating pipe module into the groove to form a single piece of the cooling / heating pipe module;
And attaching a single piece of the cooling / heating pipe module fitted to the panel to a wall, floor, or ceiling of the building.

Images