KR101030140B1 - Warm water heating system - Google Patents

Abstract

PURPOSE: A hot water heating system is provided to reduce manufacturing costs and construction period by simplifying an assembly structure of a hot water inlet, distribution pipe and hot water outlet. CONSTITUTION: A hot water heating system comprises a hot water pipe inlet, a distributor(20) and a hot water pipe outlet. The hot water pipe inlet comprises a hot water sheet(40), a hard sheet, and an insulating material. The hot water pipe inlet is connected to the distribution pipe of a distributor. A fitting part of Newton pipe is inserted in the hot water pipe outlet. A plurality of supply pipes(11) and circulating pipe(12) are formed in the distributor. The supply pipe and circulating pipe have a butt end jaw at end of the fitting part.

Description

Warm water heating system

The present invention relates to a hot water heating system, and more particularly, to a hot water heating system that is easy to assemble and construct and shorten the air.

Conventionally, after installing a hot water lake or a pipe on the bottom, cement mortar was poured on the top surface of the hot water lake or pipe to form a top layer of the floor. That is, it is common to lay a hot water lake or pipe of about 16 mm passing through the floor at intervals of about 20 cm, and to plaster cement mortar on the floor and to treat the floor with a floor covering.

The PE XL mortar method of the conventional hot water heating construction uses a 50 mm insulation layer and a sound insulation layer on the top of a 180 mm thick concrete floor of concrete slab, and a 200 mm hot water hose with a diameter of 16 mm or PE XL pipe mainly used for heating. After the spacing, the mortar was treated to a thickness of 50 mm.

In addition, capillary tube mortar method is to install 50mm insulation and sound insulation layer on the top of 180mm thick concrete slab layer, and after pouring aerated concrete, after curing, hot water hose with inner diameter of 15mm or PE XL pipe is spaced 300mm apart. After installation, the mortar was finished.

However, in the conventional hot water heating method, PE XL heating has a finish mortar thickness of 40 to 50 mm, the temperature of the heating water is 80 ° C (supply) / 55 ° C (return), the pipe spacing is 200 to 300mm, and the temperature of the floor is High temperature and unbalanced temperature difference in indoor convection, heat loss is large, especially the construction process was long due to the need for 10 days mortar curing period by wet method, and the liquid of mortar during construction The elements were buried and reworked at the end.

In addition, due to the long curing time from the wet method until the mortar is completely hardened, the construction period is prolonged and the difficulty of the horizontal working of the floor requires skilled technicians at the construction site. In order to solve the disadvantage that must be destroyed, a lot of floor construction is made through a dry construction method. In the dry wood flooring, the heating equipment, which has a constant interval, has a series structure, and the heat pipes are supplied to the upper side due to the series structure while the heating pipes maintain a constant interval.

The hot water flows into the inlet of the heating pipe 101 constructed on the floor 102 through the supply pipe 103 installed at one side of the boiler 100 as shown in FIG. 1, and then the outlet of the heating pipe 101. By repeating the process of circulating back to the boiler 100 through the return pipe 104 installed on the other side of the boiler 100 to flow out to maintain the floor at an appropriate temperature. At this time, the supply pipe 103 and the return pipe 104 connected to the boiler 100 had to be coupled to the inlet and the outlet of the heating pipe 101 constructed on the floor. Accordingly, the supply pipe 103 and the return pipe 104 connected to the boiler 100 are coupled to the inlet and the outlet of the heating pipe 101, respectively. This method is used to grind the heat insulating material 105 on the concrete slab 113, pour the foam concrete 114 on the concrete slab, hot water piping, finish the mortar 106, and harden the floor finish material 109. .

However, in this series of heating piping system, since the temperature difference between the hot water supply part and the return part of the boiler is large because it is piped in series with the synthetic resin pipe or the steel pipe, etc., the temperature difference between the supply part and the hot water supply part of the heating hot water after the series installation is large, and the boiler is operated. I could not see the effect of even heating. Therefore, there was a problem leading to an increase in fuel cost due to raising the boiler temperature more than necessary.

In addition, there is a problem in that excessive construction costs occur due to a large difference in the number of workers in the field due to the finish for the formation of a mortar layer or the like when installing the supply return pipe or after installing the Newton tube. In addition, because the surface of the surface should be plastered with cement mortar, the construction cost and air increase, which increases the production process time and the labor cost and construction period during construction.

In addition, foreign matter generated in the construction process at the time of use may block the hole of the supply return tube or the Newton tube by the flow of hot water, which may cause a failure as well as a single pipe. Due to the connection of the hot water supply when the joint was leaked due to water pressure. In addition, the cement hardened surface integrally hardened with the concrete slab after the operation of the finishing mortar also has a problem as a connection pipe to transfer the noise between the layers.

Therefore, the present invention has been made to solve the above problems, the present invention is to provide a hot water heating system configured to combine the distribution pipe and Newton tube for supply return with hot water holes of the hot water sheet.

It is another object of the present invention to provide a dry construction heating method that does not require finishing plastering. Another object of the present invention is to provide a hot water heating system that can reduce the interlayer noise.

Another object of the present invention is to provide a hot water heating system in which a soft hot water pipe can firmly support a large load object.

In order to achieve the above objects, the hot water heating structure and the system thereof have a synthetic resin hot water sheet having a semicircular shape with a lower surface of a hot water pipe having internally mounted hot water pipes, and a lower surface of the sheet under the sheet. It has a shape that can be in close contact with it, and has an iron plate or a strong synthetic resin sheet to accommodate the semicircular lower surface of the hot water sheet into the recess of the lower surface, and a plurality of protruding insert members of the distribution pipe for hot water supply. Newton tube having a plurality of hot water supply distribution pipes in the supply and Newton tube, which is inserted into each of the hot water holes of the hot water sheet, and coupled to each other. It is a connecting tube which has a return pipe and is attached to each side of the supply and return pipes. After the hot water is supplied to the supply pipe, the distribution pipe, the hot water sheet, the Newton tube, the hot water sheet, and the water is returned to the return pipe to recover the effective heating.

In the hot water heating system of the present invention, each of the supply and the return pipe of each of the hot water distribution pipes is formed in a row in the width direction inside the insertion groove of the hot water sheet formed on the same line on one side and the supply return pipe on one side of the distribution pipe. A plurality of support members, spaces for hot water supply and return formed between the support members in the width direction of the supply return pipe by the support members, and formed in parallel under the upper plate of the heating sheet and penetrate side by side. It is configured to communicate with a plurality of hot water connecting holes formed in a line in the longitudinal direction of the Newton tube through the hot water distribution pipe and the hot water sheet, and the hot water is returned to the boiler from the return pipe and connected to the protruding insertion members for connection. It is characterized by.

In the hot water heating system of the present invention, each of the Newton tubes has a first insertion groove formed on one side, a plurality of supports formed in line in the width direction of the Newton tube, and the support portions in the width direction of the Newton tube by the supports. Spaces for hot water supply and return formed between the support parts, a plurality of fitting members for connection and a connection hole formed in the hot water sheet on the basis of the supply pipe, which are formed in a line in the longitudinal direction of the Newton tube for each support part; Communicating and protruding from the return pipe side is characterized in that it consists of a plurality of protruding protruding parts for the return of the hot water sheet is inserted into the outlet of the return pipe is formed integrally with the partition between the first supply pipe.

In the hot water heating system of the present invention, each of the hot water distribution pipes for supply and return is composed of an upper plate and a lower plate, and the upper plate protrudes downwardly from the upper body and the upper body, respectively, serving as a lid, and a predetermined interval in the longitudinal direction of the body. And a plurality of upper support members arranged at a distance from each other, and a nipple member formed at an end of the upper support member, wherein the lower plate has a lower body serving as a base and protrudes from the lower body in an upward direction, respectively. And a plurality of lower support member members arranged to be spaced apart at regular intervals in the direction, and a nipple receiving groove elongated at a central portion of the lower partition member to accommodate the nipple member of the upper support member.

In the hot water heating system of the present invention, each of the Newton tubes are composed of an upper plate and a lower plate and are arranged to be spaced apart at regular intervals in the longitudinal direction of the upper body by protruding downwardly from the upper body and the upper body, respectively. A plurality of upper partition members and a nipple member formed at an end of the upper partition member, the lower plate having a lower body serving as an expectation, and protruding upward from the lower body at regular intervals in the longitudinal direction of the lower body; And a plurality of lower support members arranged spaced apart from each other, and a nipple receiving groove formed in a central portion of the lower support member to accommodate the nipple member of the upper support member.

According to the hot water heating system of the present invention, the structure is simple, the installation air is shortened, labor costs are reduced, production costs are reduced, house construction costs are reduced, and the noise between floors can be reduced.

1 is a block diagram of a conventional hot water heating system.
2 is a cross-sectional view for explaining a conventional heating structure.
Figure 3 is a block diagram showing the flow of hot water by the hot water heating system of the present invention.
4 is a partial cross-sectional view showing a floor heating construction.
5 is a perspective view showing a state of the lower plate of the Newton tube whose upper plate is opened;
6 is a state diagram of a Newton tube in which the upper plate is interlocked with the lower plate.
Figure 7 is a block diagram showing the structure of a hot water sheet.
8 is a perspective view of a state of the lower plate separated from the upper plate.
9 is a state diagram of a distribution tube in which the upper plate is mated with the lower plate.
FIG. 10 is an enlarged perspective view of portion B of FIG. 7; FIG.
11 is an enlarged perspective view of a supply pipe fitting portion of a distribution pipe and a Newton pipe;
12 is an enlarged cross-sectional view taken along the line A-A 'for explaining the distribution pipe and the Newton pipe.
Figure 13 is a partial cross-sectional structural view of the heating sheet according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and action exerted by the hot water heating system of the present invention.

3 is a view showing the configuration of the hot water heating system of the present invention.

3 and 4 show a configuration of the hot water heating system of the present invention, the parallel supply hot water heating system of the present invention has a plurality of hot water pipes 107 forming hot water communication in the hot water sheet 40. The lower part with the hot water pipe from the hot water sheet 40 and the hot water pipe inlet 107-2 to the hot water pipe outlet 107-1 has a hot water hole 9 of the hot water sheet 40 protruding in a semicircular shape for each hot water pipe. Inserted and glued to the sides of the distribution pipe fittings 15 of the hot water distributor 20, which serves to supply hot water, and are inserted and bonded to both sides of the heating sheet 40 at the last rear end, thereby changing the flow direction of the hot water. Newton tube 30, which serves to give, and inserted into the side of the end portion of the hot water pipe 107 is integrally compressed to the lower surface of the hot water sheet 40. The distribution pipe fitting portion of the distribution pipe 17 bonded ( 15) and the water pipe fitting part 16 are inserted in a row at the hot water inlet and outlet 9 of the hot water sheet 40 at the front. It consists of a distribution tube 17 and a Newton tube 30 which are bonded and serve to supply and circulate the hot water to obtain the hot water into the hot water sheet or to heat it from the hot water sheet. In addition, fitting portions 1 of the distribution pipe 17 and the Newton tube 30 are respectively provided at the sheet hot water pipe inlet 17-2 serving as the hot water inlet and the hot water outlet 17-1 serving as the outlet. Is inserted.

The hot water is inserted into the hot water sheet hot water pipe inlet 107-2 as shown in the direction indicated by the arrow of Figure 3, the insertion portion 15 of the distribution pipe 17, the sheet hot water pipe outlet 107-1, the sheet return pipe inlet In the 108, the return pipe inlet fitting portion 108-3 of the Newton tube 30 is inserted, and the return pipe fitting portion 16 in the distribution pipe is inserted in the sheet return pipe outlet 108-1, thereby inserting the boiler ( The hot water 50 supplied from the distribution pipe 17 is introduced into the supply pipe 11, the distribution pipe 17 flows into the sheet hot water pipe 107, and passes through the sheet return pipe 108 through the Newton tube 30. It is distributed to the return pipe fitting portion 16 of 17 to be recovered to the boiler (not shown) via the return pipe 12 of the distribution pipe. Obtained at the inlet 11 of the connecting pipe 10, supply return pipes 20, hot water sheet 40, one side of the supply return pipes 20, the Newton pipe 30 of the other side , Through the Newton tube 30 of one side, and the supply return tube 20 of one side in order to exit the outlet 12 of the connecting tube (10).

In other words, when hot water is supplied from the boiler (not shown) to the supply pipe 11, the hot water inlet 9 of one side of the hot water sheet 40 is provided through the distribution pipe fitting portion 15 of the distributor 20. The hot water sheet 40 is in communication with the hot water sheet 40, the upper surface is flat and the lower round hot water pipe 107 is prepared by inserting the number of the fitting portion 15 of the plurality of distribution pipes 17 After the hot water is supplied to the hot water pipes (107). Inserted into one side of the hot water sheet 40. When hot water is supplied to the hot water pipes 107, the hot water is passed through a plurality of fitting portions 15, which are inserted into one side of the hot water sheet 40. And insert the hot water pipe outlet 107-1 of the hot water sheet 40, the Newton tube fitting part 1, and the hot water sheet 40 return pipe inlet 108. After the adhesion, the sheet return pipe of the hot water sheet 40 is When the outlet 108-1 is fitted with a return pipe fitting portion 16 having a distribution pipe 17, hot water supplied from a boiler (not shown) is supplied from the supply pipe 11 of the distribution pipe 17 to provide a hot water sheet 40. After passing through the hot water pipe 107, passing through the Newton pipe 30, and through the hot water sheet return pipe outlet 108, and communicates back to the return pipe 12 of the dispenser 20 to continue the cycle. The distributor 20 has a partition 13 for isolating the supply pipe 11 and the return pipe 12 serves to separate the hot water supplied and the hot water returned.

12 is a cross-sectional view showing the structure of the distribution tube 17 and the Newton tube 30 used in the hot water heating system of the present invention, Figure 6 is a perspective view showing the coupling state of the Newton tube and Figure 12 is a distribution tube 17 Is a partial cross-sectional view for explaining a cross section taken along the line A-A 'of FIG.

As shown in FIG. 6, the distribution pipe 17 and the return pipe 30 used in the hot water heating system of the present invention have a support member 7 formed at regular intervals from the outer wall support 60 at the edge to the inner shaft. There are a plurality of inwards to support the upper plate 4 and the lower plate 5 so that hot water is distributed to the space. The distribution pipe 17 and the Newton pipe 30 are configured to be the same as the upper plate 4 and the lower plate 5, the distribution pipe 17 is connected to the hot water 50 of the boiler (not shown) supplied to be supplied There is a recruitment supply pipe 17 and the hot water 50 returned from the Newton pipe 30 through the hot water sheet 40 passes through the return pipe inlet 16-1 of the distribution pipe 17 to the return pipe 12. When proceeding to, there is a partition 13 in order to prevent the supply of hot water mixed.

Furthermore, the upper plate 4 and the lower plate 5 of the distribution pipe 17 can be assembled as in the Newton tube (FIG. 6) and the distribution pipe (FIG. 9) of FIG. 5. On one side of the distribution pipe 17 in the longitudinal direction, there is a distribution pipe 15 for distributing the supply pipe 11 and the hot water sheet 40 to receive the inlet for hot water heating of the boiler, and the Newton tube through the hot water sheet 40 ( When the hot water 50 passed through 30 is returned to the return pipe 12, the partition wall 13 is installed in the distribution pipe 17 to prevent the mixing of the supply water and the return water.

The distribution pipe 17 is assembled with the upper plate 4 and the lower plate 5 as shown in FIG. The upper top plate 4 is arranged to be spaced apart at regular intervals in the longitudinal direction of the distribution tube 17 and the Newton tube 30 by protruding downwardly from the flat body serving as a lid and the body upper plate 4, respectively. A plurality of upper support members 7, and a nipple member 8 formed at the end of the upper support member 7.

The lower plate 5 has a plurality of lower supports arranged at regular intervals in the longitudinal direction of the distribution tube 17 or the Newton tube 30 by protruding upward from the bottom body and the bottom body serving as the base, respectively. It is composed of members 6 and a nipple receiving groove 8-1 elongated at the central portion of the lower support member 6 for accommodating the nipple member 8 of the upper support member 7.

First, before assembling the upper plate 4 and the lower plate 5, an adhesive is applied to the upper support members 7 and the nipple members 8 of the upper plate 4 and also the lower support member 6 of the lower plate 5. The adhesive is applied to the central inner portions of the teeth, and then the upper support members 7 and the niphorn members 8 of the upper plate 4 are fitted into the niphorn receiving grooves 8-1 of the lower plate 5 to fit the upper portion. Assemble the plate (4) and the bottom plate (5). As a result, the support 14 is formed by the combination of the upper support member 7 and the lower support member 6. The space between the upper support members 7 of the upper plate 4 or the space between the lower support members 6 of the lower plate 5 forms a hot water supply and return space serving as a hot water flow passage. . At this time, the nipple member inclined surface 18 of the upper support member 7 has an accommodating groove inclined surface 19 on the inner side of the nipple receiving groove 8-1 formed upwardly from the lower plate 5 so that the nipple member 8 ), And the tip of the niphorn member 8 is shaped like a bow, and the niphorn accommodating groove 8-1 of the lower plate 5 is composed of a claw-shaped groove to accommodate it. Once fitted, they are tight to each other so that hot water does not leak out.

The distribution pipe 17 used in the hot water heating system of the present invention is distributed to the fitting portion 15 for distribution supply of hot water from the hot water supply pipe 11 supplied from the boiler to the right side, as shown in FIG. The partition 13 is configured to allow the water returned to the return pipe fitting 16 to be led to the return pipe 12 of the distribution pipe 17.

A plurality of spaces 70 for supplying and returning hot water are formed between the support portions 14 and are formed in a line in the width direction of the Newton tube 30, and are not communicated with each other by the partition wall 13.

One side of the Newton tube 30 is formed in the width direction of the plurality of hot water sheet outlet side fitting portion 107-3 and the return pipe fitting Newton tube 30, the outlet side fitting portion for hot water supply ( 107-3) and the fittings 108-3 of the Newton tube for returning are formed in a linear direction with the connection holes 36.

Furthermore, the support members 14 in the Newton tube 30 can be assembled as shown in FIG. 12.

Newton tube 30 is coupled to the upper plate 4 and the lower plate 5, as shown in FIG.

Furthermore, the upper plate 4 and the lower plate 5 of the distribution pipe 17 can be assembled as shown in FIG. On one side of the distribution pipe 17 in the longitudinal direction, there is a distribution pipe 15 for distributing the hot water of the boiler to the supply pipe 11 and the hot water sheet 40 to be supplied and supplied for heating, and the Newton through the hot water sheet 40. When the hot water 50 passing through the pipe 30 is returned to the return pipe 12, the partition 13 has a structure installed inside the distribution pipe to prevent mixing of the supply water and the return water.

The distribution pipe 17 is assembled by the upper board 4 and the lower board 5, as shown in FIG. The upper plate 4 includes a flat body serving as a lid, a plurality of upper support members 7 arranged at regular intervals in the longitudinal direction of the distribution tube 17 and the Newton tube 30, and the upper support. It consists of a nipple member 8 formed at the end of the member 7.

In addition, the lower plate 5 includes a plurality of lower supports which are spaced apart at regular intervals in the longitudinal direction of the distribution pipe 17 or the Newton tube 30 by protruding upward from the bottom body and the bottom body serving as the base, respectively. It is composed of members 6 and a nipple receiving groove 8-1 elongated at the central portion of the lower support member 6 for accommodating the nipple member 8 of the upper support member 7.

First, before assembling the upper plate 4 and the lower plate 5, an adhesive is applied to the upper support members 7 and the nipple members 8 of the upper plate 4 and also the lower support member 6 of the lower plate 5. The adhesive is applied to the central inner portions of the upper plate, and then the upper support members 7 and the niphorn members 8 of the upper plate 4 are fitted into the niphorn receiving grooves 8-1 to fit the upper plate 4 and the lower plate. Assemble (5). As a result, the support 14 is formed by the combination of the upper support member 7 and the lower support member 6. The space between the upper support members 7 of the upper plate 4 or the space between the lower support members 6 of the lower plate 5 forms a hot water supply and return space serving as a hot water flow passage. At this time, the nipple member inclined surface 18 of the upper support member 7 has an accommodating groove inclined surface 19 in the upper side of the nipple receiving groove 8-1 formed upwardly from the lower plate 5 so that the nipple member 8 ), The tip of the niphorn member (8) is shaped like an arrowhead, and the nippon receiving groove (8-1) of the lower plate (5) is also composed of a bow-shaped groove to accommodate it. The floors are tightly connected to each other so that hot water does not leak out.

The top surface of the hot water sheet 40 is flat, and the hot water pipe 107 is extruded integrally with the hot water sheet 40 in a downward direction of the top surface to form a semicircular protrusion on the flat plate below the hot water sheet 40. The hot water pipe 9 is made of a hard synthetic resin or a metal plate in a semicircle state so that the shape does not change even under a heavy load object. Insulator 105 having an upper semi-circular groove in which the semicircle and the size and shape can be inserted at the lower part of) is installed on the foam concrete 104. This structure is a structure that allows the hot water pipe 107 to withstand heavy loads, the hard sheet 10 to protect the hot water pipe 107 may be a thin steel sheet or hard synthetic resin.

The hot water sheet 40 has a plurality of hot water pipes 107 therein in the width direction thereof. Thus, the lower surface in which the hot water pipes 107 are built in the hot water sheet 40 is formed in a semicircular shape. The spacing between the hot water pipes 107 in the hot water sheet 40 maintains a constant interval as necessary, and the distance between the fitting portion 15 of the distribution pipe 17 and the hot water pipe 107 of the hot water sheet 40 and the Newtons. It is equal to the distance L2 between the fitting members 107-3 of the pipe 30. Therefore, the protruding fitting members 15 of the distribution pipe 17 and the protruding fitting members 108-3 of the Newton tube 40 are inserted into both sides of each of the hot water pipes 9 of the hot water sheet 40 to insert the hot water sheet. 40, the distribution tube 17 and the Newton tube 40 is coupled to each other. Then, the water is supplied from the distribution pipe 17 in the direction as shown in FIG. 2, and the hot water is circulated through the Newton pipes 30 after the hot water sheet 40 is heated for heating. In addition, the end fitting portion 1 of the hot water fitting member in the distribution pipe 17 and the Newton tube 30 is provided with a rib jaw 3 inwardly from the end of the fitting portion 1 and inserted into the hot water pipe 107. The tighter contact range is larger, preventing leakage.

The hot water sheet of the above method has the advantage that the heat transfer time is shortened by the advantage of parallel piping because it is withdrawn from the series piping method as in the prior art, the entire area is warmed at one time. In addition, when constructing a building, first, aerated concrete 104 on the concrete slab, and then put the heat insulating materials on the floor, and then attach the heat insulating materials on the floor, the iron plate for supporting the lower surface of the hot water pipe 107 of the hot water sheet or Alternatively, a strong synthetic thin plate 50 is installed. Installing a steel plate or a strong synthetic resin sheet 50 is a hot water sheet 40 when the heavy load is applied to the hot water sheet 40 by placing a heavy object such as a cabinet on the floor finishing material, etc. This is to prevent dents from occurring.

The upper surface of the iron plate or the strong synthetic resin hard sheet 10 is formed in a semi-circular shape, and the hot water sheet 40 into the hard recess grooves 8 in the upper surface of the iron plate or the strong synthetic resin hard sheet 10. ) Hot water pipes 107 are received and seated in the grooves (8). Therefore, the hot water sheet 40 and the steel sheet or a strong synthetic resin hard sheet 10 is bonded to each other.

According to the conventional construction method, since the mortar and plastering work was carried out after the construction of the hot water heating system, and the floor covering was laid with PVC floor covering, the noise generated from the collision of the object applied to the floorboard Due to the relationship to the concrete floor, the concrete vibrated, resulting in noisy floor noise.

Nowadays, these floor noise problems are serious in multi-story buildings, and the government has announced that they will impose penalties for the noise-producing acts of neighboring crimes under the misdemeanor punishment law. As a result, regulations on housing construction standards have been strengthened and revised.

The regulations stipulate that the floor impact sound between floors should be less than 58 decibels (db) and the weight impact sound should be less than 50 decibels (db) or standard floor structure as announced by the Minister of Land, Transport and Maritime Affairs. Products with it is difficult to find on the market.

As such, the hot water sheet 40 of the present invention is made of soft rubber material and the soft rubber material is transmitted by floorboard made of PVC material in order to minimize the floor noise in a seriously rising multi-story building. Because it absorbs and absorbs, it not only has the advantage of reducing the noise between floors of a multi-story building, but also due to the construction of the system of the hot water sheet of the present invention, due to the dry process without cement and mortar finishing processes that have been essential in the prior art. It has a big advantage of shortening the air.

1: fitting part 2: fitting pipe
3: bristles 4: top plate
5: lower plate 6: lower support member
7: upper support member 8: nipple member
8-1: Nippon receiving groove 9: Hot water inlet
10 hard sheet 11 supply pipe
12: return pipe 13: bulkhead
14: support portion 15: distribution pipe fitting portion
16: fitting the return pipe 16-1: return pipe
17: distribution pipe 18: nipple member slope
19: receiving groove inclined plane 20: distributor
21: hot water distributor 30: Newton tube
38: hard yo groove 40: hot water sheet
50: hot water 60: outer wall support
70: hot water distribution space 100: boiler
101: conventional heating tube 102: floor
103: conventional supply pipe 104: conventional return pipe
105: insulation 106: finish mortar
107: hot water pipe 107-1: hot water pipe outlet
107-2: hot water pipe inlet 107-3: hot water outlet side fitting
108: return pipe entrance 108-1: return pipe exit
109: floor finishing material 113: concrete slab
114: foam concrete

Claims (5)

delete Hot water sheet; consisting of 40, the hard sheet 10; and the heat insulating material 105; the hot water pipe inlet is connected to the distribution pipe of the distributor, hot water pipe is connected to the outlet by inserting the fitting of the Newton pipe In the heating system,
A plurality of supply pipes 11 and a return pipe 12 are formed at one side of the distributor 20, and a bridging jaw 3 is formed toward the distributor at the end fitting portions of the supply pipe and the return pipe, and inside the distributor 20. It includes that the nipple member 8 is formed as a support member of the upper plate 4,
In the lower support member 6 of the lower plate 5, a nipple receiving groove 8-1 is formed so that the nipple member 8 of the arrowhead-shaped upper plate is inserted into the nipple receiving groove 8-1 of the lower plate so that the support portion ( 14) and hot water heating system characterized in that the hot water is configured to communicate between the support portion (14).
The method of claim 1,
Inside the Newton tube, a plurality of support members are supported by interlocking with each other in the upper plate and the lower plate, and on one side there are a plurality of hot water pipe outlet side fitting pipes, and on the same side, a plurality of hot water return pipe fittings are connected to the hot water sheet on the hot water pipe. Hot water heating system characterized in that the hot water supplied from the boiler is returned to the return pipe through the hot water sheet is inserted.
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