KR101296606B1 - A hot water circulation floor for heating - Google Patents

Abstract

PURPOSE: A hot water circulation floor for heating a floor is provided to shorten working hours, and to minimize a leakage outbreak danger by minimizing a hose connection part. CONSTITUTION: A hot water circulation floor for heating a floor comprises a flooring board (110), a first end cap (120), and a second end cap (130). The flooring board is supplied with a heating fluid through multiple porosity fluid paths (111) penetrated to a longitudinal direction. The first end cap is combined with one side of the flooring board. A first erasure (121a) and a second erasure (121b) connected to multiple porosity fluid paths are formed. In the first erasure and the second erasure, a space is separated and divided by a partition wall (122), and a hose connection (123) in which a pipe fitting device (124) is installed in an either side respectively is formed. The second end cap is combined in the other side of the flooring board. A third erasure (131) connected to multiple porosity fluid paths is formed. The third erasure is connected to an integrated space.

Description

Hot water circulation floor for heating

The present invention simplifies the shape of the cover portion coupled to the side of the floating board to reduce the mold cost, while making the hose connection work easy and simple, so that the working time is shortened, and the hose connection part is minimized to leak It relates to hot water circulation floor for floor heating to minimize the risk of occurrence.

In general, there are two methods of floor construction: wet construction and dry construction, in which a thermal insulation board is laid on the slab floor, a hot pipe is piped over it, a heat storage material is covered, and a concrete and cement are formed thereon. By the construction method, the heat storage performance is good and the floor is firm, but the curing time is long until the mortar is completely hardened, so the construction period is prolonged and many difficulties are needed to level the floor. In case of leakage of hot water pipe, it is necessary to destroy the cast concrete mortar layer, and because it is installed on site, it has high labor cost, harmful to health due to cement toxicity, high building load, high height and low economic efficiency. .

So recently, the construction of the floor through a dry construction has been made a lot, the dry construction is a heat insulating material, a heat radiator having a hot water supply means on the floor, such as a flattened slab, an upper finishing material, and the floor finishing The floor finishing material such as a board is laminated, but in the dry ondol structure of the structure described above, the hot water supply means forming a parallel structure while maintaining a constant interval is a circular hot water pipe maintains a constant distance from each other Due to the parallel structure, heat transfer is increased only in the local element in the floor finishing material to which the heat source is to be supplied upwards, and a cold spot is generated, or the supplied heat is lost by the upper finishing material and the floor finishing material, and the height of the floor is increased. The problem remains.

In order to solve this problem, the floor has been invented by minimizing heat loss by forming a flow path that circulates hot water in the panel itself, such as a flooring board, which is installed on the floor, to prevent the leakage of water. The connection between each panel, the connection of the flow path between each panel, and the connection between the flow path and the supply source of hot water are complicated and are not actively used.

In an effort to improve such a problem, a floor heating hot water circulation floor using a floating board of Korean Patent No. 10-712826 has been proposed.

The prior art has the form of a rectangular parallelepiped as shown in FIGS. 1 to 4, and has a floating board 10 having an upper plate 11 exposed to the outside and a lower plate 12 contacting the floor. And a flow path 13 divided into a plurality of layers by the vertical plate 14 supporting the bottom plate 12 in the longitudinal direction is formed to penetrate in the longitudinal direction, and grooves having a predetermined size are formed on both sides of the flow path 13. Insertion grooves 15 are formed, respectively, the upper plate 11 is formed in the bent portion 16 extending in parallel to both sides in the longitudinal direction bent in the vertical downward direction.

The hot water is moved to the inside of the flooring board 10 through the flow channel 13 of the plurality of layers, and the vertical partition 14 supports the pressure applied to the top plate 11 to prevent the flooring 10 from being damaged. As the bent portion 16 extends in parallel to be bent vertically downward, as shown in FIGS. 5 and 6, connection of the upper plate 11 used as a floor when connecting each hot water circulation floor 1 is performed. Finishing the site smoothly, using the '∪' shaped coupling clip (2) in the downward direction can be easily connected to the adjacent hot water circulation floor (1).

As shown in FIG. 2 and FIG. 3, the cover part 20 is a two-touch bending 21 for supplying hot water to the flow path 13 at the same size as a surface on which the flow path 13 of the floating board 10 is formed. Is formed, and has a protrusion 22 protruding at the same position as the insertion groove 15 on both sides, the thread is formed under the two-touch bending 21 is possible to fit the hose or plug by screwing method The connecting portion 23 is provided with connecting pipes 23 formed on both sides thereof, and the two-touch bending 21 and the connecting pipe 23 are connected to each other so that the projection 22 is inserted into the insertion groove 15 by floating. After the board 10 is closed with the cover part 20, the hot water circulation floor 1 is manufactured by adhering the cover parts 20 to both sides of the floating board 10 by ultrasonic welding.

By manufacturing the hot water circulation floor 1 as described above, the hot water circulation floor 1 can be easily cut in such a manner that the floorboard 10 is cut in accordance with the length of the floor, and the cover part 20 is bonded. Touch fuzzing 21 has the same size as the side of the floating board 10, the finish is clean, and the hot water is leaked from the flow path 13 by adhering the cover portion 20 to the floating board 10 by ultrasonic welding method To prevent them.

And the hot water circulation floor (1) prepared as described above is to circulate the hot water directly into the hot water circulation floor (1), as shown in Figure 5, 6, the thermal conductivity is very high can reduce the fuel cost required for heating It can reach the proper temperature in a short time, and the construction thickness and load are low, which can reduce the time and cost required for construction.The construction method of the hot water circulation floor (1) is to lay insulation on the floor and bend it. After the hot water circulation floor (1) is installed in the longitudinal direction so that the parts 16 are in contact with each other, the neighboring bent portion 16 of each hot water circulation floor (1) is formed using a '2' shaped coupling clip (2). A hose 3 and a stopper 4 are connected to the connection part 24 so as to be combined in a downward direction to fix the hot water circulation floor 1, and to supply hot water to the flow path 13 to circulate zigzag to the neighboring hot water circulation floor 1. ) Is a simple way to screw As it is possible to complete the construction.

However, the prior art as described above not only has a complicated structure of the cover portion 20, but also has a problem in that the hose connection work is troublesome.

For example, the cover part 20 has a structure in which a connection pipe 23 is formed at a lower portion of the two-touch fender 21 for supplying hot water, and a connection part 24 extending to both sides of the connection pipe 23 is formed. The connection portion 24 has a structure in which a screw line is formed again to connect the hose 3 or the stopper 4 by a screwing method.

However, such a complicated structure has a problem that the mold cost is increased, as well as the excessive cost of the cultivation, and the work is cumbersome when connecting the hose (3).

In addition, the prior art has a structure in which both the cover portion 20 and the hose 3 is connected to both sides of the floating board, the work time is long, as well as the construction cost is expensive.

An object of the present invention devised to solve the problems of the prior art as described above is to simplify the shape of the cover portion (hereinafter referred to as the closing cap) coupled to the side of the flooring to reduce the mold cost, while the hose By making the connection work easy and simple, the working time is shortened and the hose connection part is minimized to minimize the risk of leakage.

According to one aspect of the invention, the flooring board is supplied with a heating fluid through a plurality of multi-sharing passages penetrating in the longitudinal direction; It is coupled to one side of the floating board 110, to form a first oil chamber and a second oil chamber connected to a plurality of multi-sharing path, the first oil chamber and the second oil chamber is partitioned by partition walls, A first connection cap having a hose connection portion connected to the first oil chamber and the second oil chamber, and the hose connection portions having pipe fittings respectively installed at both sides to allow one-touch coupling of the connection pipes; And a third oil chamber coupled to the other side of the floating board, the third oil chamber being connected to a plurality of multi-sharing passages, wherein the third oil chamber is connected to the integrated space to provide the supply-side multi-sharing passage and the discharge-side multi-sharing passage of the floating board. Hot water circulation floor for floor heating, including; a second closing cap for circulating the heating fluid by circulating.

In addition, the air layer may be maintained by closing the flow path of the upper layer of the multi-sharing passage.

In addition, it is possible to form an overlapping wing portion extending in parallel to both sides in the longitudinal direction of the floating board.

In addition, the heating fluid is supplied to the first oil chamber through the first through-hole inside the hose connection part of the first closing cap, and the heating fluid in the first oil chamber is simultaneously supplied through a plurality of multi-sharing paths, The second closing cap may be returned to the second oil chamber through the opposing multi-sharing path to pass through the second through-hole of the hose connecting part and to be discharged into the connecting pipe.

The present invention reduces the mold cost and manufacturing cost by simplifying the shape of the finishing cap coupled to the side of the flooring, and the hose connection work is made easy and simple to shorten the working time has the effect of reducing the construction cost This minimizes the risk of water leakage by minimizing hose connections.

1 is a perspective view of a hot water circulation floor of the prior art.
Figure 2 is an exploded perspective view of the hot water circulation floor of the prior art.
Figure 3 is a cross-sectional view of the lid portion according to the prior art.
Figure 4 is a partial cross-sectional view of the hot water circulation floor of the prior art.
Figure 5 is a perspective view of the installation of the hot water circulation floor of the prior art.
Figure 6 is a sectional view of the installation of the hot water circulation floor of the prior art.
Figure 7 is a perspective view of the state of the structure of the hot water circulation floor according to the present invention viewed from the bottom.
FIG. 8 is an exploded perspective view showing the building board and the closing cap assembly structure of FIG. 7; FIG.
9 is a perspective view showing an example in which the floating board of FIG.
10 is a perspective view showing an example of forming a fitting groove and the fitting protrusion on the opposite surface of the overlapping wing portion according to the present invention.

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

Figure 7 is a perspective view of the structure of the hot water circulation floor according to the present invention viewed from the bottom, Figure 8 is an exploded perspective view showing the flooring and the assembly cap assembly structure of Figure 7, Figure 9 is the flow of Figure 7 It is a perspective view which shows the example which combined board continuously.

The present invention as shown in the figure is largely composed of a floating board 110, the first closing cap 120, the second closing cap 130.

The flooring board 110 is manufactured in the form of a panel having a predetermined thickness and is produced by extrusion molding using a high strength synthetic resin material.

The flooring board 110 may be formed with a plurality of multi-sharing paths 111 penetrating in the longitudinal direction, and may allow a fluid for heating such as hot water to flow through the multi-sharing path 111.

In this case, the air layer may be maintained by closing the flow path of the upper layer of the multi-sharing path 111. This is to serve as a heat insulating layer.

The first closing cap 120 and the second closing cap 130 are coupled to both side surfaces of the floating board 110, respectively, so that coupling grooves 115 may be formed to be coupled thereto. The shape or number of such coupling grooves 115 may be freely designed without being limited.

In addition, overlapping wings 112 and 113 extending in parallel to both side surfaces of the flooring board 110 may be formed.

The overlapping wing parts 112 and 113 are formed at one side thereof on the upper side, and the opposite side thereof is formed at the bottom thereof, so that the overlapping wings 112 and 113 can be repeatedly overlapped as shown in FIG. 9.

And, the first closing cap 120 as shown in Figure 8 is coupled to one side of the floating board 110, is formed approximately the same as the thickness of the floating board 110, a plurality of multi-share ( A first oil chamber 121a and a second oil chamber 121b are formed to be connected to the 111, and the first oil chamber 121a and the second oil chamber 121b are partitioned by a partition 122.

In addition, a hose connection part 123 connected to the first oil chamber 121a and the second oil chamber 121b is formed.

The hose connecting portion 123 is connected to the pipe by connecting the connection pipe (P) at both sides, the hose connecting portion 123 is installed on each side of the pipe fittings 124 to allow one-touch coupling of the connection pipe (P) do.

Here, the pipe fitting 124 is a pipe connecting device to maintain the airtightness and watertightness as well as the separation prevention by the operation of pushing the connection pipe (P) into the hole.

At this time, any one side of the connection pipe (P) connected through the pipe fitting 124 is the supply side, the other side is the discharge side.

For example, a heating fluid is supplied through the supply side connection pipe P, which is supplied to the first oil chamber 121a through the first through hole 123a in the hose connection part 123, and the first oil chamber 121a. The heating fluid in the inside is supplied simultaneously through a plurality of multi-sharing path (111) facing this returning the second closing cap 130 on the opposite side of the floating board 110 to the second oil chamber through the opposite multi-sharing (111) ( 121b).

At this time, the heating fluid recovered to the second oil chamber 121b passes through the second through-hole 123b of the hose connecting portion 123 to the discharge side connecting pipe P.

At this time, the discharge side connecting pipe (P) is connected to the supply side of the first closing cap 120 of the other floating board 110, thereby making a continuous circulation.

As described above, the first closing cap 120 forms a plurality of coupling protrusions 125 fitted with the coupling groove 115 of the floating board 110.

In addition, the second closing cap 130 is coupled to the other side of the floating board 110, is formed to be approximately the same as the thickness of the flooring board 110, and is connected to a plurality of multi-sharing path (111) The third oil chamber 131 is formed, and the third oil chamber 131 is connected to the integrated space.

The second closing cap 130 is coupled to the neighboring floating board 110 and the second closing cap 130 without being connected alone, the supply side (A) multi-sharing path 111 of the floating board 110. And the discharge side (A ') to the multi-sharing path 111 to circulate the heating fluid.

As described above, the second closing cap 130 forms a plurality of coupling protrusions 133 fitted with the coupling groove 115 of the floating board 110.

Referring to the construction process of the present invention having the configuration as described above are as follows.

First, the first closing cap 120 and the second closing cap 130 is coupled to both sides of the floating board 110. In this case, the temporary coupling method may be a fitting method using the coupling groove 115 and the coupling protrusions 125 and 133.

Thereafter, the first finishing cap 120 and the second closing cap 130 are adhered to both sides of the floating board 110 by ultrasonic welding, thereby completing the unit floor.

Such a unit floor is to be connected in the width direction, the overlapping wings 112, 113 is constructed so as to engage, between the unit floor is connected to the connection pipe (P). At this time, the connection pipe (P) can be easily connected through the pipe fitting (124).

In addition, the overlapping wing parts 112 and 113 may be fitted with grooves 112a and fitting protrusions 113a on the opposite surfaces as shown in FIG. 10 to prevent movement and separation through mutual coupling. have.

As such, the present invention can cut the flooring board 110 according to the length of the floor, and thus the construction is convenient, and the first closing cap 120 and the second closing cap 130 are separated by the ultrasonic welding method. By adhering to, it is possible to prevent the heating fluid from leaking out.

And the present invention manufactured as described above is very high thermal conductivity can reduce the fuel cost required for heating, can reach the appropriate temperature in a short time, and the construction thickness and load is low to reduce the time and cost required for construction Can be.

In particular, the present invention having the configuration as described above to simplify the shape of the cover portion coupled to the side of the floating board to reduce the mold cost, while making the hose connection work easy and simple, so that the working time is shortened And, it minimizes the hose connection has the advantage of minimizing the risk of leakage.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

110: flooring board
111: shared
112,113: with overlapping wings
115: coupling groove
120: first closing cap
121a: first loss
121b: Second Loss
122: bulkhead
123: hose connection
123a: first through hole
123b: second through hole
124: pipe fitting
125: engaging projection
130: second closing cap
131: lost third
133: engaging projection
135: connector
P: connection piping

Claims (5)

A flooring board 110 through which the heating fluid is supplied through the plurality of multi-sharing paths 111 penetrating in the longitudinal direction;
The first oil chamber 121a and the second oil chamber 121b, which are coupled to one side of the floating board 110 and connected to the plurality of multi-sharing paths 111, are formed. The two oil chambers 121b are divided and partitioned by the partition wall 122, and a hose connecting portion 123 connected to the first oil chamber 121a and the second oil chamber 121b is formed, and the hose connecting portion 123 is formed. The first closing cap 120 is installed on each side of the pipe fittings 124 to be connected to the one-touch coupling pipe (P); And
The third oil chamber 131 is coupled to the other side of the floating board 110 and connected to the plurality of multi-sharing passages 111, but the third oil chamber 131 is connected to the integrated space to form the floating board ( Hot water circulation floor for floor heating, comprising: a second closing cap 130 for connecting the supply side multi-sharing path 111 and the discharge-side multi-sharing path 111 to circulate the heating fluid.
The method of claim 1,
Hot water circulation floor for floor heating, characterized in that the air layer is maintained by closing the flow path of the upper layer of the multi-share (111).
The method of claim 1,
Hot water circulation floor for floor heating, characterized in that for forming the overlapping wings (112) (113) extending in parallel to both sides in the longitudinal direction of the floating board (110).
The method of claim 3,
The overlapping wing portion 112, 113 is a hot water circulation floor for floor heating, characterized in that to form a fitting groove (112a) and the fitting projection (113a) on each opposite surface to be coupled to each other.
The method of claim 1,
Heating fluid is supplied to the first oil chamber 121a through the first through hole 123a in the hose connecting portion 123 of the first closing cap 120, and a plurality of heating fluids in the first oil chamber 121a are provided. Simultaneously supplied through the multi-sharing path 111 of the second return cap 130 on the opposite side of the floating board 110 is returned to the second oil chamber (121b) through the opposite multi-sharing path (111) hose connection portion ( Hot water circulation floor for floor heating, characterized in that passing through the second through-hole (123b) of the 123 to the discharge side connection pipe (P).

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