KR102273844B1 - Hot Water Floor for Heating - Google Patents

Abstract

The present invention relates to a hot water floor for heating, and more particularly, to a hot water floor for heating that can improve the energy efficiency of a hot water floor for heating by increasing the flow rate of hot water circulating in a flow path, and collect and detect leaks in the hot water floor. it's about

Description

Hot Water Floor for Heating}

The present invention relates to a hot water floor for heating, and more particularly, to a hot water floor for heating that can improve the energy efficiency of a hot water floor for heating by increasing the flow rate of hot water circulating in a flow path, and collect and detect leaks in the hot water floor. it's about

In general, for heating the floor of a building, a method of arranging hot water pipes and filling them with concrete mortar, and a method of assembling a hot water flow path inside the floor are used.

In the case of the method using concrete mortar, there are many difficulties in demolition and repair work, and there is a problem that it takes a lot of time to cure the concrete during installation.

Recently, a method of assembling a hot water floor in which a hot water flow path is formed has been widely used.

For example, Korean Patent Publication Nos. 10-1392634, 10-1438490, 10-1286606, 10-1164871, 10-1039317, 10-0712426, 10-0664463, Patent Publication Nos. 10-2017-0041085, 10-2014-0090490, 10-2013-0133953, 10-2011-0119283, etc. disclose various technologies for heated flooring.

"형상으로 설치되어 마루부재의 바닥면이 높아지고, 천정의 높이가 낮아지게 되므로, 기존의 방바닥을 철거해야하는 문제가 있었다. 이에 따라서, 공사의 규모가 커지고, 작업자가 부담해야하는 비용이 증가하고, 시공 기간이 오래 걸린다는 문제점이 있었다.However, in the case of a conventional hot water floor, as shown in FIG. 1A , in the cap member 200, a portion to which the connector 210 is coupled and a portion to which the floor member 100 is coupled are at right angles, so that the installation height of the heated floor is increased, or As shown in 1b, the connecting hose inserted into the cap member is "

"As it is installed in a shape, the floor surface of the floor member becomes higher and the height of the ceiling becomes lower, so there was a problem that the existing floor had to be removed. Accordingly, the scale of the construction increased, the cost to be borne by the workers increased, and the construction cost was increased. There was a problem that it took a long time.

In addition, as shown in FIGS. 1A and 1B , in the conventional hot water floor, a plurality of hot water flow passages are formed inside the floor member, and the hot water passes through the plurality of flow passages to improve thermal efficiency. However, the circulating hot water slows down so that the hot water is heated. There was a problem that the use of a larger capacity boiler and pump is required to circulate at a high speed.

In addition, as shown in FIG. 1C, in the "air-conditioning and cooling circulator using a panel" of Korean Patent Application Laid-Open No. 10-2015-0142400, a plurality of holes are formed inside the floor member to suppress heat transfer to the lower part of the floor member and to facilitate heat transfer to the upper surface of the floor member. It is formed to supply hot water to the upper hole, and the lower hole is blocked with packing to form an air layer to reduce heat loss, but this has a problem in that it is difficult to manufacture a flooring member because the hole is narrow, and clogging occurs when used for a long time.

Prior Document 1: Korean Patent Publication No. 10-0712826 (207.05.07.) Prior Document 2: Korean Patent Publication No. 10-1925952 (2018.12.05.) Prior Document 3: Korean Patent Application Laid-Open No. 10-2015-0142400 (2015.12.22.) Prior Document 4: Korea Patent Publication No. 10-2006-0090956 (2006.08.17) Prior Document 5: Japanese Laid-Open Patent Publication No. 10-2004-138349 (2004.05.03)

Accordingly, an object of the present invention is to provide a hot water floor for heating for improving the flow of a circulation circuit through which hot water is circulated by sealing some of the plurality of hot water channels and using only the other hot water channels.

In addition, the present invention prevents the height of the ceiling from being lowered and reduces the construction cost and construction period by forming a low-water floor by aligning the floor member, the cap member, and the hose to the same height so that the floor can be constructed without dismantling the floor. The purpose is to provide a hot water floor for heating that can reduce the

In addition, the present invention provides a hot water floor for heating with excellent thermal efficiency by using a material that can conduct heat well from hot water for the upper part of the flooring member, and coating the floor with a material with low thermal conductivity and a thermal barrier on the bottom of the warm water flooring member. There is another purpose.

According to an embodiment of the present invention, a plurality of flooring members 100 are arranged adjacent to each other, and a plurality of hot water flow paths 140 are formed in parallel in the longitudinal direction inside the flooring member 100, and the flooring member ( In the hot water floor for heating in which a plurality of hot water flow paths 140 are communicated with each other by the cap member 200 coupled to both ends of the 100) and the hot water supplied from the flow path connection pipe 40 is circulated, the plurality of It is characterized in that some of the hot water channels 140 are sealed, and only the other hot water channels are used.

It is characterized in that the odd-numbered or even-numbered hot water flow passages among the plurality of hot water flow passages 140 are sealed, and only the even-numbered or odd-numbered hot water oil is used.

The upper part 110 of the floor member 100 is made of a heat transfer member made of carbon powder or carbon fiber having high thermal conductivity, and the lower part 120 is made of a heat insulating member that blocks heat transfer.

The bottom surface 122 of the floor member is coated with a thermal barrier material.

The floor member 100, the cap member 200, and the flow path connecting pipe 40 are arranged in a straight line at the same height on a plane.

Joint grooves 150 are formed on both corners of the floor member 100, and the joint holes 170 in the shape of “ㅛ” are inserted and installed between the joint grooves 150 of the adjacent floor member 100. characterized in that

The floor member 100 is characterized in that it has a structure that circulates hot water by forming a set of 2 to 5 pieces.

The floor member 100 is characterized in that it has a structure for circulating hot water by forming an even number of groups.

According to the hot water floor for heating according to the embodiment of the present invention, it is possible to prevent a decrease in the circulation speed of hot water by sealing some of the plurality of hot water channels and using only the other hot water channels, thereby preventing a decrease in the circulation speed of hot water. By improving the pump and boiler capacity is reduced, there is an effect that can provide a hot water floor for heating that can increase the energy use efficiency of the hot water for heating.

In addition, according to the hot water floor for heating according to the embodiment of the present invention, by aligning the floor member, the cap member, and the hose to the same height, the height of the hot water floor is formed to be low so that the floor can be constructed without removing the floor, so that the height of the ceiling is increased. There is an effect of providing a heated floor for heating that can prevent lowering and reduce the construction cost and construction period.

In addition, according to the hot water floor for heating according to the embodiment of the present invention, heat from the hot water is prevented from being emitted toward the floor and lower cement of the building by manufacturing it with different materials so that the upper and lower heat conduction efficiencies of the floor member are opposite to each other. , there is an effect of providing a hot water floor for heating that can further increase the conduction of heat used for heating.

1 is a perspective view showing a conventional hot water floor for heating.
2 is a plan view showing the arrangement of a hose of a hot water floor for heating according to an embodiment of the present invention.
3 is an exploded perspective view showing a floor member, a cap member, and the like in the heated hot water floor for heating according to an embodiment of the present invention.
4 is a perspective view showing a cap member in the hot water floor for heating according to an embodiment of the present invention.
5 is a side view for explaining that the material of the upper part and the lower part of the floor member are different in the hot water floor for heating according to an embodiment of the present invention.
6 is a side view showing a flooring member coated with a conductive material on the upper surface of the uppermost layer and a lower surface of the lowermost layer with a thermal barrier in the heated heated flooring for heating according to an embodiment of the present invention.

Next, a preferred embodiment of the hot water floor for heating according to the present invention will be described in detail with reference to the drawings. The present invention can be implemented in various various forms, and is not limited to the embodiments described below. In the following, in order to clearly explain the present invention, detailed descriptions of parts not closely related to the present invention are omitted, and the same reference numerals are attached to the same or similar components throughout the description of the invention, and repeated descriptions are omitted. .

As shown in FIGS. 2 and 3 , in the hot water floor for heating of the present invention, a plurality of floor members 100 are arranged adjacent to each other, and a plurality of hot water flow paths 140 are formed in the interior of the floor member 100 in the longitudinal direction. formed side by side By the cap member 200 coupled to both ends of the floor member 100 , a plurality of hot water flow paths 140 communicate with each other, and the hot water supplied from the flow path connection pipe 40 circulates. The flow path connection pipe 40 is connected to a hose 300 that is connected from an external boiler to recover hot water. In the present invention, as shown in FIG. 2 , it is described that three floor members 100 are formed in one set and arranged adjacent to each other in odd (3) or even (4) sets, but according to the width of the room The number of flooring members 100 is adjusted (for example, 3 to 5) to form one group, and a plurality of groups are formed, and hot water is simultaneously supplied and circulated to the formed group. In addition, depending on the arrangement position of the hose 300 to be recovered, the floor member 100 is formed into an even or odd number tank. there are advantages to Also, according to the present invention, as shown in FIG. 2C , the number of flooring members 100 forming a group increases toward the inlet through which hot water is introduced and decreases toward the outlet. The above configuration can have the effect of dissipating heat evenly throughout the floor by allowing the flow rate to circulate slowly at the inlet side and fast at the outlet side.

The hot water floor for heating of the present invention is characterized in that, as shown in FIG. 3 , some of the hot water channels 140 are sealed, and only the other hot water channels are used. By sealing some of the plurality of hot water flow paths 140 , the flow of the circulation circuit in which the hot water is circulated is improved (the circulation speed of the hot water is improved). Accordingly, the pump capacity for improving the hot water circulation speed is reduced, and there is an effect of increasing the energy efficiency of the hot water floor for heating. More specifically, the present invention is characterized in that the odd-numbered or even-numbered hot water flow passages among the plurality of hot water flow passages 140 are closed, and only the even-numbered or odd-numbered hot water oil is used. As shown in FIG. 3, the present invention seals the first hot water channel 141, the third hot water channel 143, and the fifth hot water channel 145, and the second hot water channel 142 and the fourth hot water channel. (144) was used by circulating hot water. When the hot water passages 142 and 144 located between the sealed hot water passages 141, 143, and 145 are selectively used, the circulation speed of hot water becomes faster than when using five, so that the hot water supplied from the boiler Because it circulates quickly, it has the effect of increasing energy efficiency.

According to the method, hot water is circulated in the first hot water channel 141, the third hot water channel 143, and the fifth hot water channel 145, and the second hot water channel 142 and the fourth hot water channel 144 are sealed. It is not limited thereto because the hot water flow used can be changed according to those skilled in the art. The sealing of the hot water passage 140 may be sealed during the manufacturing stage of the floor member 100, and may be sealed with silicone or the like during the construction process.

3 to 4 , the cap member 200 has a plurality of protrusions to supply hot water to the second hot water channel 142 and the fourth hot water channel 144 formed in the floor member 100 . (230) is provided. In addition, a pair of connector 210 is provided on both sides of the cap member 200 , respectively, and the flow path connector 40 is installed by being coupled to the end of each connector 210 . In addition, the present invention forms a thread on the outer circumferential surface of the connector 210 , and firmly fixes the channel connector 40 coupled to the connector 210 using a hose clamp 220 , so that the channel connector 40 ) to prevent break-out and drop-out. Since the flow path connection pipe 40 is made of silicone or soft synthetic resin material, it has excellent flexibility, so that the connection operation of the flow path connection pipe 40 is made easily, contraction and expansion are possible, so it is relatively strong against freezing and freezing occurs. In this case, the occurrence of cracks can be minimized.

On the other hand, the cap member 200 provided with the protrusion 230 is integrally coupled to both ends of the floor member 100 by thermal fusion, thereby reducing the risk of separation of the cap member 200 and the flow path connecting pipe ( 40) has the effect of stably circulating the hot water supplied from the floor member 100.

In addition, as the hot water supplied from the flow path connection pipe 40 is horizontally supplied to the cap member 200 and the floor member 100, the total height of the hot water floor is lowered compared to the prior art, so that the user can install the hot water floor in the room floor. It has the effect of increasing convenience by installing it on the floor without the need to dismantle it.

5, the upper part 110 of the floor member 100 is made of a heat transfer member made of carbon powder or carbon fiber having high thermal conductivity, and the lower part 120 is made of a heat insulating member that blocks heat transfer. . The upper part 110 and the lower part 120 of the flooring member 100, which are materials with different heat conduction efficiency, are integrally produced by a molding machine, and the lower surface 122 of the flooring member 100 is a coating material that improves thermal insulation efficiency. coated with

By making the upper part 110 of the flooring member 100 made of a heat transfer member made of carbon powder or carbon fiber, thermal conductivity can be greatly improved and a hot water floor for heating with high thermal efficiency can be provided. Depending on the method, as shown in FIG. 6, the upper surface of the upper surface 110 of the flooring member 100 is coated with carbon powder, or a material emitting far-infrared rays such as jade, elvan stone, germanium stone, or charcoal is powdered. It can be manufactured and coated on the upper surface of the upper part 110 together with carbon powder. By coating the material emitting far-infrared rays, it is possible to provide a human-friendly hot water floor for heating that has effects such as active heat conduction, regeneration of human tissue, improvement of blood circulation, and promotion of excretion of harmful substances in the body.

Meanwhile, the lower portion 120 of the floor member 100 is made of a heat insulating member. The heat insulating member includes materials such as PCTG, PCT, PC, PA, PP, PES, urethane resin, tritan synthetic resin, TBT and epoxy resin, which are strong and safe plastic materials with heat resistance or heat insulation properties. In addition, since it can be manufactured by weaving or laminating glass fibers having excellent fire resistance and heat resistance, the present invention is not limited thereto.

In addition, the bottom surface 122 of the flooring member is coated with a coating material that improves thermal insulation efficiency, thereby preventing the heat of the flooring member 100 from being emitted toward the floor or cement of the building, thereby further increasing the thermal efficiency for heating. It has the effect of increasing it. Depending on the method, the coating material may be coated using a lacquer, paint, and adhesive containing a heat insulating composition.

3 and 5, joint grooves 150 are formed at both corners of the flooring member 100, and "ㅛ" is formed between the joint grooves 150 of adjacent flooring members 100. It is characterized in that the insertion and installation of the joint 170 in the shape of a ruler. When the "ㅛ"-shaped joint 170 is inserted into the joint groove 150, both sides of the plurality of floor members 100 are maintained horizontally while being firmly connected to each other and fixed.

In the above, a preferred embodiment of the hot water floor for heating according to the present invention has been described, but the present invention is not limited thereto, and various modifications can be made within the scope of the claims, the description of the invention, and the accompanying drawings. , which is also within the scope of the present invention.

40: Euro connector
52: insulation rod,
54: insulation plate
100: floor member
101: Euro
102: joint
103: jamming groove
104: stumbling block
105: insertion groove
110: upper
112: upper surface
120: lower
122: bottom
140: a plurality of hot water flow paths
141: first hot water flow path
142: second hot water flow path
143: third hot water flow path
144: fourth hot water flow path
145: 5th hot water flow path
150: joint groove
160: fastening ring coupling groove
170: Eumgu
200: cap member
210: connector
211: thread
220: hose clamp
230: protrusion
300: hose

Claims (8)

A plurality of flooring members 100 are arranged adjacent to each other, and a plurality of hot water flow paths 140 are formed side by side in the longitudinal direction inside the flooring member 100 , and are coupled to both ends of the flooring member 100 . In the hot water floor for heating in which a plurality of hot water flow paths 140 are communicated with each other by the cap member 200 and the hot water supplied from the flow path connection pipe 40 is circulated,
Among the plurality of hot water passages 140 , the first hot water passage 141 , the third hot water passage 143 , and the fifth hot water passage 145 are sealed, and the second hot water passage 142 and the fourth hot water passage 144 are sealed. ) only,
The floor member 100, the cap member 200, and the flow path connection pipe 40 are arranged in a straight line at the same height on a plane,
Joint grooves 150 are formed at both corners of the floor member 100, and the joint holes 170 in the shape of "ㅛ" are inserted and installed between the joint grooves 150 of the adjacent floor member 100. and,
The floor member 100 has a structure of circulating hot water by forming two to five sets of one set, and forming an even number of sets,
The cap member 200 is provided with a plurality of protrusions 230 to supply hot water to the second hot water channel 142 and the fourth hot water channel 144, and a pair of connectors on both sides of the cap member 200 ( 210) is provided, the flow path connection pipe 40 is coupled to the end of each connector 210, and the flow path connection pipe 40 is firmly fixed with a hose clamp 220,
The upper part 110 of the floor member 100 is made of a heat transfer member made of carbon powder or carbon fiber having high thermal conductivity, and the lower part 120 is made of a heat insulating member that blocks heat transfer,
The upper surface 112 of the floor member is coated with a far-infrared emitting material,
The hot water floor for heating, characterized in that the bottom surface (122) of the floor member is coated with a thermal barrier material. delete delete delete delete delete delete delete

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