KR101281014B1 - The integrated district heating pipe system with individual heating unit in household of apartments - Google Patents

Abstract

PURPOSE: An integrated pipe system for district heating with an individual heat exchanger for heating is provided to reduce construction cost and maintenance cost, to increase the use efficiency of hot water, and to minimize heat loss. CONSTITUTION: An integrated pipe system for district heating with an individual heat exchanger for heating comprises a main integrated heat exchanger (10), a main integrated supply pipe (20), a heat exchanger (30) for heating, a mixing part (110), a control part (120), and a hot water supply pipe (130). The main integrated heat exchanger produces high-temperature hot water by heat-exchanging with a heat source produced from a heat production facility (H). The main integrated supply pipe is connected to the main integrated heat exchanger to supply the heat-exchanged hot water. The heat exchanger for heating is connected to the main integrated supply pipe and heat-exchanges the hot water and water for heating to produce heating water. The mixing part is connected to the main integrated supply pipe and mixes the hot water and city water at a set temperature. The control part is connected to the mixing part to control the hot water and the city water of the mixing part at the set temperature. The hot water supply pipe supplies the mixed water to faucets through one line. [Reference numerals] (AA,CC) Other layers; (BB) Top layers

Description

The integrated district heating pipe system with individual heating unit in household of apartments}

The present invention relates to an integrated heating system for district heating using a heating heat exchanger in a household, and more particularly, to supply a hot water supply in a machine room with a 2-pipe system, which is a main integrated supply pipe and a water pipe, and each of the households uses the supplied hot water. It is used for heating through the installed heat exchanger, and the hot water supply used in the heating system is not returned to the main integrated heat exchanger, but is supplied to the cold and hot water piping system, so that the construction cost, construction cost, Facilities management and maintenance costs, etc. are relatively reduced, thereby increasing the use efficiency of the hot water supply, minimizing the occurrence of heat loss lost during the conventional circulation of the hot water supply to the main integrated heat exchanger. Installed to supply hot water at all times, and to heat each household or floor The present invention relates to an integrated piping system for district heating using in-house heating heat exchangers that can provide convenience to users by freely using heating, cooling, and hot water for each household or floor by installing a heat exchanger for each season.

In recent years, apartment complexes and medium-sized buildings have been equipped with common heating facilities for the entire complex, rather than individual heating and individual hot water supply systems, and supply heating hot water to each household or floor through a common pipe network. The system is constructed by a central supply system that supplies water to each generation or floor through a pipe network after heating the water to the appropriate temperature through the heat exchange between the hot water and the water supply.

This central supply method uses a relatively efficient heat source device and manages it as a manager with specialized skills, so that the central supply method can actively respond to the decrease in efficiency with the age of the device compared to the individual method, and the simultaneous use rate is applied. It is easy to cope with emergencies such as fire by reducing total device capacity and gathering fire power in one place.

As shown in FIG. 1, the centralized heating system includes a circulation pump 2 for circulating high temperature water in a heat production facility 1 for producing high temperature water. The hot water pipe 5 is connected to the circulation pump 2 through the heat exchanger 3 for heating and the heat exchanger 4 for supplying and recovering hot water to or from the building A .

The heating heat exchanger 3 is provided with a heating supply pipe 3-1 and a heating return pipe 3-2 connected to the respective generations and rooms and the hot water supply heat exchanger 4 is provided with hot water A supply pipe 4-1 and a hot water supply return pipe 4-2 are installed. That is, it is a 4-pipe system.

However, in the conventional 4-pipe type centralized heating system, there are problems in that construction cost, facility construction cost, facility management and maintenance cost are increased in order to install each piping, and a large number of piping installation causes heat loss There is a problem that this occurs.

In addition, the conventional four-pipe type of central heating method has a problem that heating is not available because only hot water is supplied when heating hot water is not supplied in summer.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

2-pipe system, which is the main integrated supply pipe and water pipe, supplies only the hot water in the machine room, uses the supplied hot water for heating through the heat exchanger installed in each household, and uses the hot water for the heating system to the main integrated heat exchanger. By supplying the hot and cold water piping system without returning it, it has been changed from the 5-pipe method to the 2-pipe method, thereby reducing the construction cost, facility construction cost, facility management and maintenance cost, etc., thereby increasing the use efficiency of the hot water supply. In addition, the object of the present invention is to provide an integrated piping system for district heating using a heating heat exchanger in a generation in which a hot water supply is minimized in the process of circulating the hot water supply to the main integrated heat exchanger.

In addition, by installing the main integrated heat exchanger to supply hot water at all times, and by installing a heat exchanger for each household or floor, heating, cooling, and hot water can be freely used by household or floor regardless of season. Another object is to provide an integrated piping system for district heating using in-house heating heat exchangers.

In order to achieve the above object, the present invention is the main integrated heat exchanger for producing a hot water supply of hot water supplied to each generation or each layer through heat exchange by receiving a heat source produced in the heat production facility (H);

A main integrated supply pipe connected to the main integrated heat exchanger and supplying hot-heated hot water;

It is installed for each household or floor, and is connected to the main integrated supply pipe to produce heating water through heat exchange between the hot water supply and heating water supplied from the main integrated heat exchanger, and supply the produced heating water to the user A heat exchanger for circulating;

A mixing unit connected to the main integrated supply pipe and mixing the hot water supplied from the main integrated heat exchanger with the time water supplied from the outside to a predetermined temperature;

A control unit connected to the mixing unit to control the hot water and the time water of the mixing unit at a set temperature;

It relates to an integrated heating system for district heating using the in-house heating heat exchanger, characterized in that it comprises a; hot water supply pipe for supplying the water mixed at an appropriate temperature through the mixing unit in one line before use.

As described above, the integrated heating system for district heating using the heat exchanger in the household according to the present invention is a 2-pipe system which is a main integrated supply pipe and a water pipe, and supplies only the hot water in the machine room, and uses the supplied hot water in each household. It is used for heating through the installed heat exchanger, and the hot water supply used in the heating system is not returned to the main integrated heat exchanger, but is supplied to the cold and hot water piping system, so that the construction cost, construction cost, Facility management and maintenance costs, etc. are relatively reduced, thereby increasing the use efficiency of the hot water supply, thereby minimizing the occurrence of heat loss lost in the process of circulating hot water in the main integrated heat exchanger.

In addition, by installing the main integrated heat exchanger to supply hot water at all times, and by installing a heat exchanger for each household or floor, heating, cooling, and hot water can be freely used by household or floor regardless of season. There is an effect that can be provided.

1 is a system diagram showing a conventional centralized heating method,
2 is a structural diagram showing an integrated heating system for district heating using a heat exchanger in a household according to an embodiment of the present invention,
3 is a detailed structural diagram showing an integrated heating system for district heating using a heat exchanger in a household according to an embodiment of the present invention,
Figure 4 is a schematic diagram showing an integrated district heating system for district heating using a heat exchanger in the household according to an embodiment of the present invention.

The present invention has the following features to achieve the above object.

The present invention is the main integrated heat exchanger for producing a hot water supply of hot water supplied to each generation or each floor through heat exchange by receiving a heat source produced in the heat production facility (H);

A main integrated supply pipe connected to the main integrated heat exchanger and supplying hot-heated hot water;

It is installed for each household or floor, and is connected to the main integrated supply pipe to produce heating water through heat exchange between the hot water supply and heating water supplied from the main integrated heat exchanger, and supply the produced heating water to the user A heat exchanger for circulating;

A mixing unit connected to the main integrated supply pipe and mixing the hot water supplied from the main integrated heat exchanger with the time water supplied from the outside to a predetermined temperature;

A control unit connected to the mixing unit to control the hot water and the time water of the mixing unit at a set temperature;

It is characterized in that it comprises a; hot water supply pipe for supplying the water mixed at an appropriate temperature through the mixing unit in one line before use.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

Before describing the various embodiments of the present invention in detail with reference to the accompanying drawings, it can be seen that the application is not limited to the details of the configuration and arrangement of the components described in the following detailed description or shown in the drawings. will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

2 is a structural diagram showing a district heating integrated piping system using a heating heat exchanger in the household according to an embodiment of the present invention, Figure 3 is a district heating integrated piping system using a heating heat exchanger in the household according to an embodiment of the present invention Figure 4 is a detailed structural diagram showing, Figure 4 is a schematic diagram showing an integrated district heating system for district heating using the heat exchanger in the household according to an embodiment of the present invention.

As shown in Figure 2 to 4, the integrated heating system for district heating using the heat exchanger in the household of the present invention is the main integrated heat exchanger 10, the main integrated supply pipe 20, the heat exchanger 30 for heating and And a hot water supply pipe 40, a waste heat supply pipe 50, a heating water supply pipe 60, a heating water recovery pipe 70, and a cold / hot water piping system.

As shown in Figures 2 and 4, the main integrated heat exchanger 10 is installed in the machine room (not shown) of the apartment house and building of the heat supply target, and is connected to the hot water pipe (supply pipe, recovery pipe) to heat Heated water is passed through the hot water supplied from the production facility (H) to produce and supply hot water.

That is, the main integrated heat exchanger 10 is provided with a heat source of any one of hot water, medium temperature water, or steam produced in the heat production facility (H), such as the central boiler, power plant waste heat of the medium-large sized common to receive the hot water supply through heat exchange. To produce.

In addition, the main integrated supply pipe 20 supplies the hot water supply heat exchanged by the main integrated heat exchanger 10 for each household or each floor, and the main integrated supply pipe 20 is connected to the pipe pit in the case of a multi-family house and a building. It is installed with one insulation tube. At this time, the hot water is transferred through the main integrated supply pipe 20, the external water flows into the main integrated heat exchanger 10, after the heat exchange, the hot water is produced, the hot water is supplied through the main integrated supply pipe 20 Will be.

As shown in FIGS. 2 to 4, the heating heat exchanger 30 heats the hot water supplied from the main integrated heat exchanger 10 and the heating water at the place of use to produce the heating water, and heat exchanges with the heating water. The supplied hot water is not returned to the main integrated heat exchanger 10 but is delivered to the cold / hot water piping system to use the heat source remaining in the hot water.

Here, the heating heat exchanger 30 is installed in each generation or each floor as shown in FIG. 2 and connected to the main integrated supply pipe 20, between the heating heat exchanger 30 and the main integrated supply pipe 20. Hot water supply pipe 40 is formed to be interconnected.

The heat exchanger 30 for heating may be any one of a plate heat exchanger or a spiral heat exchanger or a shell & tube heat exchanger, and a plate heat exchanger having a small volume and excellent thermal efficiency. It is preferable to configure a hot water supply heat exchanger by using. Since the heat exchangers as described above are well known techniques, detailed description of the structure of the heat exchanger will be omitted.

The hot water supply pipe 40 is branched from the main integrated supply pipe 20 and connected to the heating heat exchanger 30 and the mixing unit 110, respectively, and connected to the heating heat exchanger 30 and the mixing unit 110, respectively. One hot water supply pipe 40 is formed in the main integrated supply pipe 20 so as to branch to both sides.

The waste heat supply pipe 50 is formed between the heating heat exchanger 30 and the mixing unit 110 as shown in FIGS. 3 and 4, and is supplied from the main integrated heat exchanger 10 to exchange heat in the heating heat exchanger 30. The supplied hot water is supplied to the mixing unit 110.

On the other hand, the heating water supply pipe 60 is installed for each household if you want to provide a heating structure for each household, and installed for each floor to provide a heating structure for each floor, the heating heat exchanger (30) Connected to supply heating water. Here, the heating water supply pipe 60 is a constant flow valve (not shown) for maintaining a constant flow rate of the heating water, and each piping installed in each room of each generation of the apartment house or the room of each floor of the building It is connected to the supply side of the heating water distributor 80 for distributing to (not shown), or directly connected to the bottom coil (not shown).

In addition, the heating water recovery pipe 70 is installed for each household to provide a heating structure for each household in the same manner as the heating water supply pipe 60, and for each floor for the heating structure for each household. The heat exchanger 30 is connected to the heating heat exchanger 30 to recover the used heating water through the heating water supply pipe 60, and is then sent to the heating heat exchanger 30 to exchange heat with the hot water. Here, the heating water recovery pipe 70 is also connected to the recovery side of the heating water distributor 80, or directly connected to the bottom coil.

Here, the heating water supply pipe 60 and the heating water recovery pipe 70 are connected to an expansion tank 90 formed to control the pressure generated by the heating water and to supplement the insufficient heating water.

The cold and hot water piping system is connected to the hot water supply pipe 40 and the water pipe 100 branched from the main integrated supply pipe 20, as shown in Figures 2 to 4 to supply the supplied hot water and time water to a set temperature A mixing unit 110 for mixing; A control unit 120 connected to the mixing unit 110 to control the mixing unit 110; It is composed of a hot water supply pipe 130 for supplying the water mixed at an appropriate temperature through the mixing unit 110 in one line to the use faucet 140.

Here, the mixing unit 110 includes a mixture (not shown) to which the water pipe 100, the hot water supply pipe 40, and the waste heat supply pipe 50 are respectively connected; A control valve (not shown) inserted into the mixture to control the inflow of cold water and hot water introduced through the cold water pipe and the hot water pipe connected to the mixture; A motor (not shown) for flowing the control valve by an electric force is included.

And, one side of the mixture may be further provided with a temperature sensor for sensing the temperature of the water mixed in the mixture.

In addition, the input unit (not shown) for transmitting the temperature of the water desired by the user to the control unit 120 may be configured to transmit the input value input by the user to the control unit 120 in a wired or wireless manner.

Meanwhile, the hot water supply pipe 130 is constructed such that cold water and hot water are supplied to the faucet 140 through one supply pipe, thereby reducing the cost of about 50% compared to the conventional piping system installed by installing two supply pipes. Not only can it be obtained, by constructing one supply pipe, the work time can be shortened and workability can be greatly improved.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings, and the terminology or words used in the specification and claims are used to explain the invention in its best way. Based on the principle that the concept of can be properly defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

10: main integrated heat exchanger 20: main integrated supply pipe
30: heat exchanger for heating 40: hot water supply pipe
50: waste heat supply pipe 60: heating water supply pipe
70: heating water recovery pipe 80: heating water distributor
90: expansion tank 100: water pipe
110: mixing unit 120: control unit
130: hot water supply pipe 140: use faucets

Claims (8)

A main integrated heat exchanger (10) for receiving a heat source produced in the heat production facility (H) to produce hot water supply water for each household or each floor through heat exchange;
A main integrated supply pipe (20) connected to the main integrated heat exchanger (10) to supply the hot water supply water that has been heat-exchanged;
Installed by each generation or each floor, it is connected to the main integrated supply pipe 20 to produce a heating water through the heat exchange of the hot water and heating water supplied from the main integrated heat exchanger 10, the produced heating A heat exchanger (30) for heating the water by supplying it to a place of use;
A mixing unit 110 connected to the main integrated supply pipe 20 to mix the hot water supplied from the main integrated heat exchanger 10 with the time water supplied from the outside at a predetermined temperature;
A control unit 120 connected to the mixing unit 110 to control the hot water and the time of the mixing unit 110 to a set temperature;
Hot water supply pipe 130 for supplying the water mixed at an appropriate temperature through the mixing unit 110 to the use faucet 140 in one line;
Integrated piping system for district heating using the heat exchanger in the household, characterized in that comprises a.
The method of claim 1,
The main integrated supply pipe 20 is connected to the heating heat exchanger 30 and the mixing unit 110, which are installed for each household or each floor, and the hot water supply pipe 40 is branched to supply hot water supply water. Integrated piping system for district heating using the heat exchanger in the household, characterized in that.
The method of claim 2,
The hot water supply pipe 40 is branched by each generation or each floor in the main integrated supply pipe 20, one pipe is branched to both sides so as to be connected to the heating heat exchanger 30 and the mixing unit 110, respectively. Integrated piping system for district heating using in-house heating heat exchanger, characterized in that connected.
The method of claim 1,
The waste heat supply pipe 50 is provided between the heating heat exchanger 30 and the mixing unit 110 so that the hot water supplied from the main integrated heat exchanger 10 and heat-exchanged in the heating heat exchanger 30 is supplied to the mixing unit 110. Integrated piping system for district heating using the heat exchanger in the household, characterized in that formed and interconnected.
The method of claim 1,
Heating water supply pipe 60 is connected to the heating heat exchanger 30 for supplying and circulating the heating water to the use place for supplying the heating water to the use place for district heating using the in-house heating heat exchanger, characterized in that further formed Integrated piping system.
6. The method of claim 5,
After the use of the heating water supplied by the heating water supply pipe 60, the heating water recovery pipe 70 is connected between the heating heat exchanger 30 and the place of use so as to be recovered to the heating heat exchanger 30 again. Integrated piping system for district heating using in-house heating heat exchanger.
The method according to claim 6,
The heating water supply pipe 60 and the heating water recovery pipe 70 is connected to the expansion tank 90 formed to control the pressure generated by the heating water and to compensate for the insufficient heating water. Integrated piping system for district heating used.
The method according to claim 6,
End portions of the heating water supply pipe 60 and the heating water recovery pipe 70 is directly connected to the heating water distributor 80 or the bottom coil formed in the use place for heating the district, characterized in that the heating water is used Integrated piping system.

Images