KR20130115137A - Heating system - Google Patents

Abstract

PURPOSE: A heating system is provided to improve energy efficiency by configuring a lower temperature heating unit with a heat pump unit and a high temperature side heating unit as a heating source unit which comprises a heat exchanger heated by a burner. CONSTITUTION: A heating system has a heating device which comprises a low temperature side heating unit (1) heating a heat medium at a first temperature and a high temperature heating unit (2) heating a heat medium at a second fixed temperature which is higher than the first temperature. A terminal in which the heat medium of the first temperature circulates is defined as a low temperature side terminal (31), while a terminal in which the heat medium of the second temperature circulates is defined as a high temperature side terminal (32). The heat medium of the first temperature is supplied to each low temperature side terminal by classifying a low temperature side supply pipe (43) of a heating circuit (4) from a low temperature heating device. The heat medium of the second temperature is supplied to each high temperature side terminal by classifying a high temperature side supply pipe (44) of the heating circuit from a high temperature heating device. A high temperature returning pipe (46) of the heating circuit, which heat media passing through each high temperature side terminal join, is connected to the high temperature heating device. A low temperature returning pipe (45) of the heating circuit, which heat media passing through each low temperature side terminal join, is connected to the high temperature heating device is connected through the low temperature side heating device to the high temperature returning pipe.

Description

Heating system {HEATING SYSTEM}

The present invention relates to a heating system having a heating circuit having a heating device for heating the heating medium, a plurality of heating terminals, and a circulation pump for circulating the heating medium between the heating device and each heating terminal.

Conventionally, this kind of heating system is known by patent document 1, for example. In this case, the heating device auxiliaryly heats the liquid-liquid heat exchanger (low temperature side heating device) for heating the heat medium to a predetermined first temperature, and the heat medium of the first temperature to a predetermined second temperature higher than the first temperature. That is, it is comprised with the heat source apparatus (high temperature side heating apparatus) provided with the heat exchanger heated by the burner. Each of the heating terminals circulates the heat medium of the first temperature as the low temperature side terminal, and the heat medium of the second temperature is circulated. The low temperature side supply pipe of the heating circuit from the liquid-liquid heat exchanger is provided to each low temperature side terminal. The heat medium of the 1st temperature is respectively supplied by splitting a furnace, and the high temperature side supply line of the heating circuit from a high temperature side heating apparatus is classified, and each heat medium of a 2nd temperature is supplied to each high temperature side terminal. Then, the heat medium passing through each low temperature side terminal and each high temperature side terminal is joined in the return line of the heating circuit, that is, the heat medium passing through each low temperature side terminal and the heat medium passing through each high temperature side terminal are mixed to the low temperature side. Return to the heating device.

However, in recent years, as the number of heating terminals used in a heating system increases with the spread of floor heating and bathroom heaters, the pressure loss of heating circuits including heating terminals also increases. In general, the high temperature terminal such as a bathroom heater has a large pressure loss compared to the low temperature terminal such as floor heating, so that even when all heating terminals are used at the same time, the high temperature terminal is supplied to the high temperature terminal so that a heat medium having a sufficient flow rate is supplied to the high temperature terminal. It is necessary to raise the supply pressure of the thermal medium with respect to. And in the structure which mixes the heat medium which passed each low temperature side and high temperature side terminal, and returns to a low temperature side heating apparatus like the said conventional example, when the number of heating terminals becomes large, the large liquid feeding capacity is large The circulation pump must be used. However, this does not only increase the installation space of the circulation pump, but also increases the power consumption.

Patent Document 1: Japanese Patent Publication No. 2011-112320

In view of the above, it is an object of the present invention to provide a heating system that does not require a large circulation pump in the heating circuit even when the number of heating terminals is large.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, the heating system of this invention provided with the heating circuit which has a heating apparatus which heats a heat medium, a some heating terminal, and a circulation pump which circulates a heat medium between a heating apparatus and each heating terminal, The heating device comprises a low temperature side heating device for heating the heat medium to a predetermined first temperature and a high temperature side heating device for heating the heat medium to a predetermined second temperature higher than the first temperature, wherein The heat medium is circulated in the low temperature side terminal and the heat medium in the second temperature is circulated as the high temperature side terminal. Are respectively supplied, and the high temperature side supply pipes of the heating circuit from the high temperature side heating device are classified so as to supply the heat medium of the second temperature to each high temperature side terminal, The high temperature side return tube of the heating circuit to which the heat medium passing through the high temperature side terminal respectively joins is connected to the high temperature side heating device, and the low temperature side return tube of the heating circuit to which the heat medium passed through each low temperature side terminal joins the low temperature side heating It is characterized in that it is connected to the high temperature side return pipe via the device.

According to the present invention, the high temperature side heating pipe of the heating circuit is connected to the high temperature side heating device, and the heat medium passing through the high temperature side terminal having a relatively large pressure loss is not connected to the high temperature side heating device via the low temperature side heating device. Since the pressure return of the heating circuit including the heating terminal is reduced, the pressure return of the heating circuit including the heating terminal becomes smaller than that of the conventional example in the case where the same number of heating terminals are connected. As a result, even if the circulation pump installed in the heating circuit is not of a large size having a large liquid feed capability, the heating medium can be supplied to the high-temperature side terminal with a large pressure loss at a sufficient flow rate. Examples of the heat medium according to the present invention include hot water and an antifreeze, and the heating also includes the case of drying clothes by heat dissipation when the heat medium is circulated through the heating terminal.

Moreover, in this invention, it is preferable that the said low temperature side heating apparatus is comprised by the heat pump unit, and the said high temperature side heating apparatus is comprised by the heat source unit provided with the heat exchanger heated by the burner. According to this, since only the low temperature heat medium which passed the low temperature side terminal to the heat pump unit can be returned, this heat medium can be reheated to a 1st temperature, and can be supplied to a low temperature side terminal, and a heat pump unit can be operated in a low load environment. In addition, in the case where the high temperature side terminal is also used, since the heat source group should be heated at the second temperature to join the heat medium having passed through the high temperature side terminal with the heat medium, the heating amount is at least reduced, resulting in energy efficiency. This good heating system can be realized.

Further, in the present invention, there is provided a return high temperature side branch header for joining the heat medium passing through each high temperature side terminal, and a return low temperature side branch header for joining the heat medium passing through each low temperature side terminal, The branch header and the low-temperature branch header are main pipes whose one end is closed, and a plurality of connection parts are formed on the outer circumferential surface of each other in a circumferential direction so that both main pipes are positioned on the same axis and are integrally formed. It is preferable. According to this, since a high temperature side branch header and a low temperature side branch header can be made into a compact structure, it is preferable.

1 is a schematic diagram illustrating a configuration of a heating system of the present invention.
FIG. 2 is a diagram illustrating a branch header used in the heating system of FIG. 1. FIG.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

In the embodiment of the present invention, the heat medium is a hot water, the low temperature side heating device for heating the heat medium to the first temperature (for example, 40 ° C) is a heat pump unit, and the heat medium is a second temperature higher than the first temperature ( For example, the case where the high temperature side heating apparatus heated to 80 degreeC) is made into the heat source unit provided with the heat exchanger heated by a burner is demonstrated as an example.

1, WS is the heating system of this embodiment which has a hot water supply function, This heating system WS is a heat pump unit 1, the heat source machine 2, and several heating terminal ( 3), a heating circuit 4 having a heat pump unit 1 and a circulation pump 41 for circulating hot water between the heat source unit 2 and each heating terminal 3, and a tank unit for storing hot water. (5) is provided. The heating terminal 3 is composed of a plurality of low temperature side terminals 31 such as floor heating in which the heating medium at the first temperature is circulated and a plurality of high temperature side terminals 32 such as a bathroom heater in which the heating medium at the second temperature circulates do. In addition, since the number of the low temperature side terminal 31 and the high temperature side terminal 32 can be set arbitrarily, and these low temperature side terminal 31 and the high temperature side terminal 32 are well-known, detailed description is abbreviate | omitted here.

The heat pump unit 1 is composed of a closed circuit for returning the refrigerant from the evaporator 11 to the evaporator 11 through the compressor 12, the radiator 13, and the expansion valve 14. The fan 15 is attached to the evaporator 11, and the refrigerant absorbs heat from the air blown by the fan 15 to evaporate, and the evaporated refrigerant is compressed by the compressor 12 to obtain a high temperature and high pressure. After being radiated by the radiator 13, the pressure is reduced by the expansion valve 14 and returned to the evaporator 11. The heat pump unit 1 is connected to the storage tank 50 of the tank unit 5 via the tank water heating circuit 51. The tank water heating circuit 51 is provided with a circulation pump 52 located in the heat pump unit 1. Then, by the operation of the circulation pump 52, the tank water of low temperature is supplied to the radiator 13 at the bottom of the water storage tank 50, and the tank heated by heat exchange with the refrigerant in the radiator 13. By returning water to the upper part of the water storage tank 50, the hot water of the water storage tank 50 is hold | maintained at a fixed temperature (for example, 45 degreeC).

A water supply passage 53 is connected to the bottom of the water storage tank 50, and a tapping passage 54 is connected to the upper portion. Cold water is supplied to the water supply passage 53 through a pressure reducing valve 53a from an external pipe for water supply (not shown). Further, a branch water supply passage 53b branched from a portion of the downstream water supply passage 53 of the pressure reducing valve 53a is connected to the water supply passage 53, and the branch water supply passage 53b and the tapping flow passage 54 are connected to each other. It is connected to the hot water mixing valve 56 provided in the upstream end of the hot water supply path 55 connected to hot water supply terminals (not shown), such as hot water supply. In addition, the hot water supply terminal of the set temperature is adjusted by adjusting the mixing ratio of the hot water tapping through the tapping passage 54 and the cold water feeding through the branch feed passage 53b from the hot water tank 50 by the hot water mixing valve 56. To be supplied.

In addition, a bypass valve 55a is provided in the hot water supply passage 55, and an inlet side of the hot water source portion 21 for hot water supply of the heat source machine 2 is provided upstream and downstream of the bypass valve 55a. The water supply passage 22a connected to the water supply passage 22a and the hot water supply passage 22b connected to the outlet side of the hot water supply heat source portion 21 are connected. The heat source portion 21 for hot water supply has a burner 21a and a heat exchanger 21b heated by the burner 21a. Then, when the temperature of the hot water tapping out of the hot water supply passage 54 becomes lower than the set temperature, the bypass valve 55a is closed and the hot water supply heat source portion 21 is operated to provide the hot water supply portion 21 for hot water supply. The hot water tapping out of the boiling water tank 50 is heated to a set temperature. In addition, the heat source unit 2 is provided with a heat source unit 23 for heating having a burner 23a and a heat exchanger 23b heated by the burner 23a, and the heat source unit 23 for heating is seen. The high temperature side heating apparatus of this invention is comprised. In addition, since the hot water supply part and the heating heat source part of the general gas composite heat source machine which have a hot water supply and a heating function can be used as the hot water supply part 21 for heating and the heating heat source part 23, detailed description is abbreviate | omitted here.

Heating circuit 4 and the side low-temperature for the supply to be respectively provided to positions in the ten won device 2 branch header (41 ₁₎ and the high temperature-side branch header (41 _2), the low-temperature side branch header (42 ₁₎ and a high temperature for the return side branch provided with a header (42 _2). Further, the heating circuit 4 is supplied to the hot water at a second temperature on the low temperature side branch header (41 ₁₎ a first temperature of the low temperature and to a side feed tube 43, the high-temperature side branch header (41 ₂₎ for supplying hot water to the high temperature and side pipe (44), and return the low-temperature side branch header (42: ₁₎ low-temperature-side return conduit 45 returning the joining heated by the heat pump unit 1 in for a high temperature-side branch header for return to ( 42 ₂ ) is provided with a high temperature side return pipe 46 for returning the hot water joined in the heat source unit 2, and after the low temperature side return pipe 45 passes through the heat pump unit 1, a high temperature side return pipe path. It is connected to 46.

Here, as the low temperature side branch header 4 _{1 1} and the high temperature side branch header 4 _{1 2} for supply, the same type is used, and one end is provided with the main pipe 41a closed, and the low temperature side terminal 31 on the outer peripheral surface is provided. The well-known thing which protruded the some connection part 41b which connects the low temperature side circulation supply line 47 ₁ and the high temperature side circulation supply line 47 ₂ which respectively communicate with the high temperature side terminal 32 can be used. Further, the low-temperature side branch header for return (42 ₁₎ and the high temperature-side branch header (42 ₂₎ may also use the same type of supply and the low-temperature side branch header (41 ₁₎ and the high temperature side branch header (41 _2). However, when there are many number of heating terminals (3) to be connected to a heating system (WS), the low-temperature side branch header (42 ₁₎ and the high temperature-side branch header (42 ₂₎ ten won device 2, the installation space for within There is a fear that can not be taken. Therefore, in the present embodiment constitutes a low-temperature side branch header (42 ₁₎ and the high temperature side branch header (42 ₂₎ in one piece.

As shown in Figure 2, it includes a low-temperature side branch header (42 ₁₎ (is also located on the right side in Fig. 2), once the occlusion organized (hereinafter, this is called "first host"), (42a), On the outer circumferential surface, a plurality of connection portions 42b to which the low temperature side circulation return line 48 ₁ is connected to each other are formed. In this case, each connection part 42b is inclined at a predetermined angle with respect to the vertical direction (up-down direction in FIG. 2), and what is adjacent to each other is directed in a different direction. Thereby, even if the space | interval between each connection part 42b is set small, the low temperature side circulation return line 48 ₁ can be piped easily. In addition, the other end of the first main pipe 42a has an internal passage 422 communicating with the internal passage 421 of the main pipe 42a, and a joint portion extending in a direction crossing with the first main pipe 42a ( 42c) is connected. On / off valve V1 is provided in this joint part 42c, and the low temperature side return pipe 45 is connected to the downstream end. Then, the warm water passing through the plurality of low temperature side terminals 31 joins in the low temperature side branch header 4 2 _{1 and} is returned to the heat pump unit 1 through the low temperature side return pipe 45, and in the radiator 13, The hot water passing through the low temperature side terminal 31 is reheated by heat exchange with the refrigerant.

Further, the joint portion (42c), the high-temperature side branch (hereinafter, this "second host"), the header (42 ₂₎ organized in (42d), the first and one end is connected so as to be positioned on a host (42a) and collinear One end of the second main pipe 42d is blocked by the joint part 42c. Similarly to the low temperature side branch header 42 ₁ , a plurality of connecting portions 42e to which the high temperature side circulation return line 48 ₂ is connected to each other from the high temperature side terminal 32 are formed on the outer circumferential surface of the second main pipe 42d, respectively. have. The other end of the second main pipe 42d is provided with a T-shaped pipe 46a constituting an upstream end of the high temperature side return pipe 46, and a low temperature side return pipe 45 via the heat pump unit 1 is connected thereto. have. In this case, the T-pipe 46a is provided with an opening / closing valve V2 for closing the other end of the second main pipe 42d. In addition, the high temperature side return pipe 46 is provided with the cistern 42 and the circulation pump 41 sequentially from the upstream side (heating terminal side), and the circulation pump 41 and the heat source 23 for heating are provided. the high temperature at the downstream side portion (46b) of the side return pipe 46, the low-temperature side supply pipe for supplying hot water at a first temperature to the low temperature side branch header (41 ₁₎ (43) between the branches.

According to the above-mentioned embodiment, the hot water which connected the high temperature side return pipe 46 of the heating circuit 4 to the heating heat source part 23 which is a high temperature side heating apparatus, and passed the high temperature side terminal 32 with a comparatively large pressure loss. The pressure loss of the heating circuit including the heating terminal 3 is connected to the same number of heating terminals because the configuration is to return the heat source unit 23 for heating through a short path without passing through the heat pump unit 1. It becomes small compared with the thing of the said prior art example in the case of becoming. As a result, even if the circulation pump 41 provided in the heating circuit 4 is not made into a large one with a large liquid feeding capacity, the heat medium can be supplied at a sufficient flow rate to the high temperature side terminal 32 having a large pressure loss.

Moreover, the low temperature side heating apparatus is comprised by the heat pump unit 1, and the high temperature side heating apparatus is comprised by the heat source part (heat source machine) 23 for heating provided with the heat exchanger 23b heated by the burner 23a. Since only the low temperature hot water which passed the low temperature side terminal 31 to the heat pump unit 1 is returned, this low temperature hot water (heat medium) can be reheated to a 1st temperature, and can be supplied to the low temperature side terminal 31. FIG. Therefore, when the heat pump unit 1 can be operated in a low load environment and the high temperature side terminal 32 is also used, the heat source unit 23 for heating causes the hot water at the first temperature and the high temperature side terminal 32 to be heated. What is necessary is just to heat the thing which joined the hot water which passed through to the 2nd temperature, and since the heating amount becomes minimum, as a result, it becomes the energy-efficient heating system WS. Further, the low-temperature side branch header (42 ₁₎ and the high temperature side branch header (42 ₂₎ because it consists of one body, as described above may be in a compact construction, for instance a narrow installation of the heat source device 2 for the return It is preferable because it can arrange | position in space. Further, it is preferable because each providing switching valves (V1, V2) to the low temperature side branch header (42 ₁₎ and the high temperature side branch header (42 _2), divided at the time of installation toward the low temperature side and high temperature it is possible to set the leak test .

As mentioned above, although embodiment of this invention was described, this invention is not limited to what was mentioned above. In the said embodiment, the low temperature side heating apparatus is comprised by the heat pump unit 1, and the high temperature side heating apparatus is comprised by the heat source unit 23 provided with the heat exchanger 23b heated by the burner 23a as an example. Although it demonstrated, if a heat medium is heated to a 1st temperature or a 2nd temperature by heat exchange, this invention is not limited to what was mentioned above. For example, a low temperature side heating device may be a heating device using solar heat or a liquid-liquid heat exchanger with hot water stored in a storage tank unit. In the above embodiment, the tank unit may be omitted.

WS-Heating System 1-Heat Pump Unit (Low Temperature Heater)
2-Heat source (high temperature side heating device) 3-Heating terminal
31-Low temperature terminal 32-High temperature terminal
4-heating circuit 41-circulation pump
43-Low temperature side supply line 44-High temperature side supply line
45-Low Temperature Return Pipe 46-High Temperature Return Pipe
42 ₁ -Low temperature branch header for return 42 ₂ -Low temperature branch header for return
42a, 42d-Host 42b, 42e-Connection

Claims (3)

A heating system comprising a heating device for heating a heating medium, a plurality of heating terminals, and a heating circuit having a heating device and a circulation pump circulating the heating medium between the heating terminals,
The heating device comprises a low temperature side heating device for heating the heat medium to a predetermined first temperature, and a high temperature side heating device for heating the heat medium to a predetermined second temperature higher than the first temperature, the first temperature of each of the heating terminals. The heat medium is circulated in the low temperature side terminal and the heat medium in the second temperature is circulated as the high temperature side terminal. The low temperature side supply line of the heating circuit from the low temperature side heating device is classified and the heat medium of the first temperature is applied to each low temperature side terminal. Is supplied respectively, and the high temperature side supply line of the heating circuit from the high temperature side heating apparatus is classified, and the heat medium of a 2nd temperature is respectively supplied to each high temperature side terminal,
The high temperature side return tube of the heating circuit to which the heat medium passing through each high temperature side terminal respectively joins is connected to the high temperature side heating device, and the low temperature side return tube of the heating circuit to which the heat medium passed through each low temperature side terminal respectively joins the low temperature side A heating system, characterized in that connected to the high temperature side return pipe via the heating device.
The method according to claim 1,
And the low temperature side heating device comprises a heat pump unit, and the high temperature side heating device comprises a heat source having a heat exchanger heated by a burner.
The method according to claim 1 or 2,
A return high temperature branch header for joining the heat medium passing through each of the high temperature terminals, and a return low temperature branch header for joining the heat medium passing through the respective low temperature terminals; The header is a main pipe whose one end is closed, and a heating system characterized in that the main body is connected to the outer circumferential surface of the plurality of connecting parts so that the two main pipes are located on the same axis.

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