KR100703039B1 - regenerative heating system using hot water - Google Patents

Abstract

The present invention relates to a heat storage type hot water heating system, by forming a hot water pipe (30) in the upper and lower double pipe structure and by preserving the gravel layer (14) in which the hot water pipe (30) is embedded as it is heated by high heat storage effect It can improve the efficiency, improve the sound insulation efficiency of the floor impact sound and prevent overheating and heating cost, as well as reduce the heating cost, and the piping work of the hot water pipe 30 is easy, so that the heating work can be done quickly with few hands. To provide a regenerative hot water heating system.

Hot water boiler, hot water pipe, gravel layer, separator, pipe frame

Description

Regenerative heating system using hot water}             

1 is a perspective view showing a portion of the heat storage type hot water heating system according to the present invention;

Figure 2 is a perspective view for explaining a hot water pipe installation structure according to the present invention.

* Explanation of symbols for main parts of drawings *

 1: hot water boiler 10: floor slab

12: heat insulation layer 14: gravel layer

16: separator 18: cement mortar layer

20: moisture discharge pipe 30: hot water pipe

40: noise and vibration shielding material 50: piping frame

52: support 54: insertion hole

60: water temperature detection valve

The present invention relates to a heat storage type hot water heating system, and more particularly, by forming a hot water pipe in a vertical double pipe structure and preserving the gravel layer in which the hot water pipe is buried as it is, it is possible to improve heating efficiency by high heat storage effect. The present invention relates to a regenerative hot water heating system that can improve the sound insulation efficiency of the floor impact sound and prevent overheating, thereby reducing the heating cost as well as facilitating piping work of the hot water pipes quickly and with a small hand. .

The hot water heating system is configured to heat the interior of the house by transferring heat to the floor by allowing the water heated by the hot water boiler to pass through a hot water pipe installed at the bottom of the house.

The hot water heating system is a heating method currently used in detached houses and apartments that are constructed in Korea, and takes a unique form that is hardly exemplified in the world.

Thus, the configuration of the floor heating system using hot water is composed of various materials having a function to effectively use the heat radiated from the hot water pipes for heating, centering on the hot water pipes dissipating the heat source.

In order to effectively satisfy these functions, it is necessary to construct the ondol layer using materials suitable for the functions of each component layer. However, in the case of hot water heating system which is currently being constructed in general, various problems are generated, thereby approaching the problem of lowering of heating efficiency and inefficient use of energy.

In addition, since the hot water pipes are conventionally arranged in a single layer on the floor, the heating efficiency is not only decreased, but a large temperature deviation occurs between the upper part of the pipe and the central part of the pipe during heating, causing thermal discomfort to the residents. Since the heating is performed using the bay, the heating duration is short when the hot water supply is stopped by the operation of the hot water boiler.

In addition, when the hot water pipes are arranged in a zigzag, it is difficult to arrange them at a uniform pitch because the hot water pipes are bound to the wire mesh by thin wires, and it is difficult to warm the floors evenly and the piping work takes a lot of time.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to arrange the hot water supply pipe in the upper and lower double pipe structure to increase the heating efficiency and reduce the temperature deviation between the upper part of the pipe and the central pipe during heating. It provides thermal comfort to users and provides a heat storage hot water heating system to reduce the operation of the hot water boiler to maintain the set temperature as well as to increase the heating duration even when the hot water supply is stopped. .

Furthermore, it aims to prevent noise and floor impact sound from being transferred from the upper floor to the lower floor, maximize heating efficiency, reduce the heating cost, and make the heating work quick and easy with fewer hands by piping the hot water pipes. It is done.

The present invention for achieving the above object, in the hot water heating system for heating the interior of the house to the hot water heated by the hot water boiler via a hot water pipe installed in the floor of the house, the bottom of the house A heat insulation layer provided on an upper part of the concrete floor slab as a foundation, a gravel layer provided on an upper portion of the heat insulation layer, in which the hot water pipe is installed in a vertical double pipe structure, a separator located on an upper surface of the gravel layer, and It is provided on the separator to provide a heat storage heating system characterized in that it comprises a cement mortar layer finishing the bottom.

In addition, the plurality of moisture discharge pipes for discharging the moisture generated in the gravel layer to the outside is installed extending from the inside of the gravel layer to the outside, and the noise and vibration shielding material is installed along the periphery of the thermal insulation layer and the gravel layer. .

In addition, one side of the hot water return side portion of the hot water pipe is characterized in that the water temperature sensing valve for adjusting the amount of return hot water in accordance with the temperature of the return hot water.

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

1 is a perspective view showing a portion of the heat storage type hot water heating system according to the present invention, Figure 2 is a perspective view for explaining a hot water pipe installation structure according to the present invention.

As shown in FIG. 1, the heat storage type hot water heating system according to the present invention includes a heat insulation layer 12 that is poured on top of a concrete floor slab 10 that becomes a floor foundation, and a gravel layer 14 that is poured on top of the heat insulation layer 12. ), A separator 16 provided on the upper surface of the gravel layer 14, and a cement mortar layer 18 placed on the separator 16, and a hot water pipe inside the gravel layer 14. 30 is installed in the upper and lower double pipe structure and has a structure in which the moisture discharge pipe 20 for moisture discharge is installed.

First, the heat insulation layer 12 is formed to a predetermined thickness on the concrete floor slab 10 by using a material such as styrofoam or polyurethane.

The hot water pipe 30 is connected to the hot water boiler so that the heated hot water passes through the heat insulation layer 12, and the gravel layer 14 is formed by covering the installed hot water pipe 30 with gravel. Done.

Gravel constituting the gravel layer 14 is a material used to maximize the heat storage effect of the heating system may be a new natural gravel may be used, but waste obtained from building waste in consideration of depletion and supply and demand of natural resources It is possible to recycle and use gravel.

Since the gravel layer 14 is formed with a plurality of gravel having irregular outer shape, many empty spaces are formed therebetween, and since the air remains in these empty spaces, the temperature difference between heating and non-proofing As a result of the blame-proof summer, moisture is generated in the gravel layer 14.

Therefore, in order to discharge the moisture generated in the gravel layer 14 to the outside, a plurality of moisture discharge pipes 20 are installed extending from the inside of the gravel layer 14 to the outside, and the moisture discharge pipe 20 is the gravel layer 14 To protrude outwards through the sides.

In addition, the separator 16 is installed on the gravel layer 14 using a cloth or vinyl material, and the cement mortar layer 18 for floor finishing is continuously formed on the gravel layer 14.

The separator 16 prevents the cement mortar layer 18 and the gravel layer 14 from being mixed to prevent the gravel layer 14 from being cemented.

In addition, in order to prevent noise and floor impact sound from being transmitted from the upper floor to the lower floor of a multi-family house such as an apartment, noise and vibration shielding material may be provided at a portion contacting the wall along the circumferential periphery of the heat insulation layer 12 and the gravel layer 14. 40 is installed.

The noise and vibration shielding material 40 may be a plate-like material made of natural rubber, synthetic rubber, synthetic resin, or foamed rubber, or a plate-like material made by mixing chips of waste tires with a binder such as adhesive. Can be.

Therefore, the cement mortar layer 18 for floor finishing is formed while covering the noise and vibration shielding material 40 at the same time.

In the heat storage type hot water heating system of the present invention configured as described above, the installation structure of the hot water pipe 30 provided in the gravel layer 14 will be described in more detail as follows.

As shown in Figure 2, the hot water pipe 30 according to the present invention is installed to have a double pipe structure in the gravel layer 14, the hot water pipe connected to the hot water boiler (1) is passed through the heated hot water The hot water supply side portion 30a is arranged in a zigzag shape on the upper side of the gravel layer 14, and is connected to the hot water supply side portion 30a while the hot water returning side portion 30b of the hot water pipe to return the hot water to the hot water boiler 1 side. ) Is arranged in a zigzag form on the lower side of the hot water supply side portion 30a.

At this time, when viewed from the hot water boiler 1, the direction in which the hot water supply side portion 30a of the hot water pipe is advanced and the direction in which the hot water returning side portion 30b proceeds are opposite to each other.

In addition, in plan view, the hot water supply side portion 30a and the hot water returning side portion 30b of the hot water pipe are alternately installed so as not to overlap each other.

In the description of the present invention, the hot water supply side portion (30a) and the hot water return side portion (30b) of the hot water pipe is not fixed to the interval and length is constant, it has only a double pipe structure up and down to help the understanding of the description The hot water supply portion 30a is arranged on the upper side of the hot water pipe 30 to allow the heated hot water to flow in the hot water boiler 1 to be arranged on the hot water supply side portion 30a and the lower side of the hot water supply side portion 30a. A section allowing the hot water passing through 30a to continue to flow back to the hot water boiler 1 is interposed as a hot water returning side portion 30b for convenience.

That is, the lengths of the hot water supply side portion 30a and the hot water return side portion 30b of the present invention vary according to the area of the floor on which the hot water pipe 30 is to be installed.

On the other hand, such a hot water pipe 30 is fixed and supported by the pipe frame 50 to facilitate installation and piping work, the pipe frame 50 according to an embodiment of the present invention is made of a rectangular parallelepiped, The upper surface has a structure in which the upper and left insertion holes 54 are continuously formed at predetermined intervals along the longitudinal direction so that the outer surface of the hot water pipe 30 can be inserted and supported.

In this way, the insertion hole 54 is formed in a shape in which the top and the left and right are opened so that the outer surface of the hot water pipe 30 can be inserted and arranged in the width direction of the pipe frame 50.

At this time, the insertion hole 54 is different in height along the longitudinal direction of the pipe frame 50 to accommodate both the hot water supply side portion (30a) and the hot water return side portion (30b) of the hot water pipe (30) Formed alternately.

That is, the support parts 52 which are different in height from each other at predetermined intervals along the longitudinal direction of the pipe frame 50 are formed to be projected alternately in succession, and thus inserted on the respective support parts 52 having different heights from each other. The hole 54 is formed.

Therefore, the hot water supply side portion 30a of the hot water pipe is inserted into the insertion hole 54a at the high position, and the hot water returning side portion 30b of the hot water pipe is fitted and fixed to the insertion hole 54b at the lower position. The hot water pipe 30 forms an upper and lower double pipe structure, and the insertion holes 54 having different heights are alternately formed along the longitudinal direction of the pipe frame 50, so that the hot water supply side portion 30a and Hot water return side portion (30b) is to be arranged so as not to overlap each other when viewed in plan.

In the actual heating system construction work, each insertion hole 54 of the pipe frame 50 in which the hot water pipe 30 is arranged in a state in which a plurality of pipe frames 50 are arranged in parallel on the upper portion of the heat insulation layer 12 at a predetermined interval. ) So that it fits in and then cover it with gravel.

In addition, one side of the hot water returning side portion (30b) of the hot water pipe, preferably the hot water pipe (30) after passing through the bottom portion to one side of the hot water boiler (1) side and the hot water in accordance with the temperature of the returned hot water The water temperature sensing valve 60 for adjusting the amount of hot water returned to the boiler 1 side is installed.

The water temperature detection valve 60 detects the temperature of the return hot water flowing through the inside of the hot water pipe 30, and adjusts the amount of water by controlling proportionally according to the detected temperature.

That is, when the detected return temperature of the hot water is higher than the set temperature, the water temperature detecting valve 60 reduces the amount of hot water returned to the hot water boiler 1, and consequently from the hot water boiler 1 to the hot water pipe 30. The amount of hot water supplied is reduced, and when the temperature of the returned hot water is lower than the set temperature, the operation opposite to the above occurs.

Hereinafter, the operation and effects of the present invention will be described in detail.

As described above, in the heat storage type hot water heating system according to the present invention, the heat insulating layer 12 placed on the concrete floor slab 10 is placed on the top of the heat insulating layer 12 and the hot water pipe 30 is disposed therein. It comprises a gravel layer 14 installed in a pipe structure, the separation membrane 16 located on the top surface of the gravel layer 14, the cement mortar layer 18 is placed on top of the separation membrane 16 to finish the bottom.

In this case, the separator 16 is provided between the gravel layer 14 and the cement mortar layer 18 so that the gravel layer 14 does not become concrete and maintains its original shape. The gravel layer 14 is compared with concrete or cement. Since the thermal conductivity is low, the heat storage effect can be maximized.

In addition, an empty space is formed between the gravel constituting the gravel layer 14 and the noise and vibration shielding material 40 is installed around the heat insulation layer 12 and the gravel layer 14 to prevent noise and vibration between the upper and lower layers of the house. The effect of shielding the impact sound by transmission becomes large.

In addition, the gravel layer 14 is provided with a moisture discharge pipe 20 so that the moisture generated inside the gravel layer 14 due to the bladder evaporation can be discharged to the outside through the moisture discharge pipe 20 while being removed by the heating iron. do.

The hot water pipe 30 embedded in the gravel layer 14 has a hot water supply side portion 30a and a hot water return side portion 30b arranged in a vertical double pipe structure, as well as the hot water supply side portion 30a as well as the hot water return side portion ( 30b) also provides heat transfer to the floor, resulting in increased heating efficiency and piping up and down, thereby reducing the temperature drift in the upper and central parts of the pipe, and heating continues even when hot water supply is interrupted. It will take longer.

In addition, when the hot water pipe 30 is arranged in a zigzag form to be evenly distributed on the floor, the curvature of the bent portion becomes larger than that of the single-layer pipe structure, thereby reducing the flow friction during hot water movement. It allows the circulation of hot water with less outlet pressure.

In addition, the amount of return hot water is controlled by the water temperature detecting valve 60 installed in the hot water returning side part 30b, thereby preventing overheating and maximizing heating efficiency to reduce heating costs. It becomes possible.

And, since the hot water pipe 30 is fitted and fixed to the pipe frame 50 having insertion holes 54 different from each other in height, it is much easier to install the hot water pipe 30 in a double pipe structure. In addition, installation time can be shortened.

As described above, according to the heat storage type hot water heating system according to the present invention, the thermal storage effect can be maximized by preserving the gravel layer in which the hot water pipe is buried as it is, and the sound insulation effect is achieved through the empty space portion formed in the gravel layer and the noise and vibration shielding material. As the hot water pipe is formed with a double pipe structure, the heating efficiency is increased, and the heating temperature is reduced to the temperature difference between the upper part of the pipe and the center part of the pipe during heating. The effect is to lengthen the time.

In addition, the amount of return hot water is adjusted according to the temperature of the return hot water by the water temperature detection valve installed at the hot water returning side of the hot water pipe, thereby preventing overheating and maximizing the heating efficiency to reduce the heating cost. have.

In addition, in the hot water pipe installation work by using the pipe frame is easy to work and there is an effect that can be quickly carried out with a small hand heating work.

Claims (6)

A heat insulation layer provided on an upper portion of the concrete floor slab which becomes the base of the house so as to heat the inside of the house by passing the hot water heated by the hot water boiler through the hot water pipe installed at the bottom of the house, and on the top of the heat insulation layer A heat storage type heating system including a gravel layer having the hot water pipe installed in the upper and lower double pipe structures, a separator disposed on the upper surface of the gravel layer, and a cement mortar layer disposed on the separator to close the floor. To The hot water supply side portion of the hot water pipe is arranged in a zigzag shape on the upper side of the gravel layer, and the hot water return side portion is arranged in a zigzag form again on the lower side of the gravel layer while being connected to the hot water supply side to form a hot pipe up and down double piping structure When installed in plan view, the hot water supply side portion and the hot water return side portion is installed so as not to overlap each other, Piping frame formed by alternately continuous insertion holes for varying the upper and lower heights at predetermined intervals along the longitudinal direction so that the outer surface of the hot water supply side and the hot water return side portion of the hot water pipe can be inserted and fixed respectively Equipped, One side of the hot water return side of the hot water pipe, the heat storage type hot water heating system, characterized in that a water temperature sensing valve for adjusting the amount of return hot water according to the temperature of the return hot water. The method of claim 1, Heat storage type hot water heating system, characterized in that a plurality of moisture discharge pipe for discharging the moisture generated in the gravel layer to the outside is installed extending from the inside of the gravel layer to the outside. The method of claim 1, A heat storage hot water heating system, characterized in that the noise and vibration shielding material is installed along the periphery of the insulation layer and the gravel layer. delete delete delete

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