KR101436253B1 - Heat supply device - Google Patents

Abstract

[PROBLEMS] In a hybrid type heat supply device, even if a gas-type heat source is not available, it corresponds to the heat demand of a user as much as possible.
A heat supply device includes an electric heat source for generating electricity by consuming electricity, a gas-type heat source for generating heat by consuming gas, a heat storage means for storing heat generated by at least the electric heat source, And controlling the amount of heat of the heat storage means. This control means is characterized in that when a gas-like heat source can not be used, only the electric heat source is operated as a heat source, and the target value relating to the heat accumulation amount is increased.

Description

[0001] HEAT SUPPLY DEVICE [0002]

The technique disclosed herein relates to a heat supply device such as a hot water supply device or a heating device. In particular, the present invention relates to a hybrid type heat supply device that uses electricity and gas (specifically, a combustible gas, the same applies hereinafter).

Patent Document 1 discloses a hybrid type hot water supplying apparatus. The water heater includes an electric heat source that consumes electricity to generate heat, a gas-type heat source that generates heat by consuming gas, and a heat storage unit that stores heat generated by the electric heat source. This kind of heat supply apparatus realizes excellent heat efficiency by using electric power and gas in combination, and also has a supply ability capable of coping with irregular heat demand.

Patent Document 1: Japanese Patent Application Laid-Open No. 2004-125226

The hybrid type heat supply device is designed on the assumption that electric power and gas are used in combination. For example, when the supply of one side is stopped, the hybrid type heat supply device is configured to stop the operation such as an error indication. However, considering the occurrence of natural disasters, for example, it is assumed that only one side of electricity and gas can be used, and it is required to perform heat supply (hot water supply or heating) even in such a situation. However, the heat generation ability of an electric heat source is low compared with a gas-type heat source. Therefore, in the case where the use of the gas-type heat source becomes impossible and the heat supply is performed only by the electric heat source, the case where the heat demand of the user can not cope with the heat demand due to the insufficient amount of heat is also expected.

Here, a technique for solving or at least reducing the above problems is provided.

The technique disclosed herein is embodied as a heat supply device that uses electricity and gas in combination. The heat supply device includes an electric heat source for generating electricity by consuming electricity, a gas-type heat source for generating heat by consuming gas, a heat storage means for storing heat generated by at least the electric heat source, And control means for adjusting the amount of heat of the heat storage means. This control means is characterized in that when a gas-like heat source can not be used, only the electric heat source is operated as a heat source and the target value relating to the heat accumulation amount is increased. Here, " using only an electric heat source as a heat source " means that only the electric heat source is used as an electric heat source among the above-mentioned electric heat source and gas-type heat source, and excluding the use of other heat sources (for example, geothermal heat or sunlight) no.

In the above-described heat supply apparatus, even if the use of the gas-type heat source is not possible, the heat generation amount that is insufficient only by the electric heat source can be compensated by the heat storage of the heat storage means. However, if the accumulated heat of the heat storage means is exhausted, the user can not cope with the heat demand. In this regard, in the heat supply device described above, the amount of heat of the heat storage means can be temporarily increased when the use of the gas-type heat source is not possible.

The target value for the amount of heat of storage is, for example, the target temperature of the heating medium of the heat storage means. For example, if the heat storage means is a storage tank for storing hot water, the target temperature of the hot water in the tank can be adopted as the target value for the amount of heat accumulation.

Preferably, the control means determines a target value relating to the amount of heat of the shaft in accordance with a set value relating to the heat demand specified by the user. In this case, it is preferable that the control means change the relationship of the target value to the set value in accordance with the use of the gas-type heat source.

In the above-described configuration, the set value relating to the heat demand is, for example, the hot water temperature or the heating temperature. For example, the setting value relating to the heat demand is set as the hot water temperature, and the set temperature set by the user is set as 40 ° C. At this time, if the gas-type heat source is usable, the target temperature of the heat storage means can be set to 40 占 폚 like the set temperature. On the other hand, when the gas-type heat source can not be used, the target temperature of the heat storage means can be set to 50 DEG C higher than the set temperature. These are merely examples, and the relationship of the target values to the set values can be appropriately determined.

Various situations are assumed as situations where the use of a gas-type heat source becomes impossible. For example, the supply of gas may suddenly be interrupted due to the occurrence of a natural disaster or the like. Assuming such a situation, it is preferable that, when the supply of the gas is stopped, the control means performs the operation of using only the electric heat source as the heat source and also raises the target value concerning the heat amount of the heat.

Alternatively, there may be a case where the supply of gas is stopped in accordance with the time zone. Assuming such a situation, the control means can set the time zone for prohibiting the use of the gas-type heat source, and performs the operation of using only the electric heat source as the heat source in accordance with the set time zone, desirable. In this case, the target value relating to the amount of heat of the shaft may be increased in advance in advance of the set time in consideration of the time required for heat storage.

It is also conceivable that the user himself or herself refrains from using a gas-type heat source for the purpose of reducing the consumption amount of gas. In this case, the control means can select an operation mode in which the use of the gas-type heat source is prohibited. When the operation mode is selected, only the electric heat source is used as the heat source and the target value .

1 is a block diagram showing a configuration of a hot water heating apparatus in the embodiment
Fig. 2 is a flowchart
Fig. 3 is a flow chart

In an embodiment of the present invention, it is preferable that the heat supply device has a heat pump as an electric heat source. However, the electric heat source is not limited to a heat pump, and may be, for example, an electric heater.

In an embodiment of the present invention, it is preferable that the heat supply device has a low-temperature tank for storing hot water as heat storage means. However, the heat storage means is not limited to the storage tank, but may be a tank or a container for storing other heat medium.

In an embodiment of the present invention, the heat storage means may store only the heat generated by the electric heat source, or may store heat generated by both the electric heat source and the gas-type heat source. In addition to the heat generated by the electric heat source, the heat storage means may store heat of other heat such as the geothermal heat, the solar heat, and the electric power generation heat.

In one embodiment of the present invention, the heat supply device may be a hot water supply device that performs hot water supply, a heating device that performs heating, or a hot water heating device that performs both hot water supply and heating.

[Example]

The hot water heating apparatus 10 of the embodiment will be described with reference to the drawings. As shown in Fig. 1, the hot water heating device 10 is a heat supply device that performs both hot water supply and heating. The hot water heating apparatus 10 mainly includes a heat pump 40, a hot water heating unit 50, a warming tank 30, a heating terminal 70, a controller 14, and a remote controller 12 . The controller 14 is a control means for controlling the operation of the hot water heater 10. The controller 14 of the present embodiment is not a single independent unit but includes a plurality of electronic control units distributed to the heat pump 40 and the hot water supply heating unit 50, Consists of. The various sensors mentioned here include temperature sensors and flow sensors.

The storage tank 30 is a sealed container for storing hot water. The capacity of the storage tank 30 is, for example, 50 liters. A water supply pipe 28 for supplying a constant water to the storage tank 30 and a discharge pipe 22 for discharging hot water from the storage tank 30 are connected to the storage tank 30. The hot water tank 22 is connected to the hot water supply heating unit 50 and sends hot water from the hot water storage tank 30 to the hot water supply heating unit 50. A plurality of temperature sensors (not shown) are arranged along the height direction in the storage tank 30. [ The plurality of temperature sensors are connected to the controller 14. Based on their detection results, the controller 14 can grasp the hot water temperature and the hot water quantity (that is, heat quantity) in the hot water tank 30.

The water supply pipe (22) is connected to a water supply pipe (28) through a water supply bypass pipe (26). The water supply bypass pipe (26) mixes the constant of the water supply pipe (28) with hot water of the hot water discharge pipe (22). At the connecting position of the water supply bypass pipe (26) and the hot water discharge pipe (22), a hot water side mixing valve (24) is provided. The hot water-side mixing valve 24 is connected to the controller 14, and its operation is controlled by the controller 14. The controller 14 can control the hot water tank side mixing valve 24 to lower the hot water temperature from the hot water tank 30 to the hot water temperature set by the user.

The heat pump 40 is a kind of electric heat source that consumes electricity to generate heat. The heat pump 40 heats the hot water in the storage tank 30 by being chilled in the atmosphere. Further, the heat pump 40 strictly transfers heat between the two heat mediums, and does not generate heat, but for the sake of convenience, the heat pump 40 also treats it as a heat source generating heat. The heat pump 40 is connected to the storage tank 30 via the heat storage transfer pipe 32 and the heat storage and return pipe 34. The warm water in the holding tank 30 is sent to the heat pump 40 through the heat storage transfer pipe 32. The hot water sent is returned to the storage tank 30 through the heat storage and return pipe 34 after being heated by the heat pump 40. Whereby the hot water is stored in the holding tank 30. The hot water in the holding tank 30 is not limited to the heat pump 40 but may be heated by another heat source such as a hot water heating unit 50 described later or a fuel cell, a generator, a solar light, or an electric heater .

The hot water heating unit 50 is a kind of gas heat source that generates heat by consuming a combustible gas such as city gas (simply referred to as a gas). As described above, the hot water from the hot water storage tank 30 is sent to the hot water supply heating unit 50 through the hot water extracting pipe 22. When the hot water temperature from the holding tank 30 is lower than the hot water set temperature designated by the user, the hot water heating unit 50 ignites the burner (not shown) to heat the hot water. The heated hot water is supplied to a hot water supply place such as a faucet through a hot water supply pipe (16). Alternatively, it is supplied to the bathtub 90 through the bathtub supply pipe 84. That is, the bathtub 90 is also one of the hot water supply points.

The hot water supply heating unit 50 is provided with a gas detection sensor 52. The gas detection sensor 52 is provided in the gas supply path, and it is possible to detect that the gas supply is stopped. The gas detection sensor 52 is connected to the controller 14 and the detection result of the gas detection sensor 52 is transmitted to the controller 14. [ The hot water supply heating apparatus 10 of the present embodiment is capable of hot water supply and heating only by the heat pump 40 even if the supply of gas is stopped and the hot water supply unit 50 can not be used. The configuration of the gas detection sensor 52 is not particularly limited. For example, the gas detection sensor 52 may monitor the pressure of the gas supply path. Alternatively, the gas detection sensor 52 may indirectly detect that the gas supply is interrupted, for example, a gas sensor having a seismometer or a means for receiving emergency earthquake breaking news.

A hot water supply pipe (22) is connected to the hot water supply pipe (16) through a hot water supply bypass pipe (18). The hot water supply bypass pipe 18 can directly send hot water from the hot water discharge pipe 22 to the hot water supply pipe 16. [ A bypass control valve (20) is provided in the hot water supply bypass pipe (18). The bypass control valve 20 is connected to the controller 14, and its operation is controlled by the controller 14. If heating in the hot water heating unit 50 is unnecessary, the controller 14 can bypass the hot water heating unit 50 by opening the bypass control valve 20. [ Thereby, it is possible to avoid unnecessary heat radiation in the hot water heating unit (50). The controller 14 controls the degree of opening of the bypass control valve 20 to send a part of the hot water to the hot water heating unit 50 and the other part bypasses the hot water heating unit 50 , The hot water temperature can be finely adjusted.

The hot water heating unit 50 may circulate heat the hot water of the bathtub 90 (auxiliary heating). The hot water supply heating unit 50 is connected to the bathtub 90 via the bathtub return pipe 82 and the bathtub supply pipe 84. The hot water in the bathtub 90 is sent to the hot water heating unit 50 through the bathtub return pipe 82 and is heated by the hot water heating unit 50 and then passed through the bathtub feed pipe 84, . The hot water is circulated by a bath pump (not shown) of the hot water heating unit 50. The path for circulating the hot water in the bathtub 90 in the hot water heating apparatus 10 is provided independently of the path connected to the hot water pipe 16 in consideration of the sanitary surface.

The hot water heating unit 50 is connected to the heating terminal 70 and sends the heated heating medium to the heating terminal 70. The heating terminal 70 is, for example, a hot-water floor heating panel or a bathroom heater. A heating medium for heating is an example, but it is an antifreeze. The heating medium for heating is heated by the burner of the hot water heating unit 50 and then sent to the heating terminal 70 through the heat transfer pipe 60. The heating heating medium discharged from the heating terminal 70 is sent to the heat pump 40 through the first heating return pipe 62 and then returned to the hot water heating unit 50 through the second heating return pipe 64 . That is, in the heat pump 40, the heating medium for heating is firstly heated. The first heating return pipe (62) is connected to the second heating return pipe (64) through a heating bypass pipe (66). A heating-side mixing valve 68 is provided at a connecting position between the heating bypass pipe 66 and the second heating return pipe 64. The heating-side mixing valve 68 is connected to the controller 14, and its operation is controlled by the controller 14. For example, when the operation of the heat pump 40 is stopped, the controller 14 controls the heating-side mixing valve 68 to supply the heating medium from the heating terminal 70 to the hot water heating unit 50 ). ≪ / RTI >

The remote controller 12 is an operation terminal for the user to perform various operations. By operating the remote controller 12, the user can turn on / off the power supply of the hot water heater 10, designate the hot water set temperature, hot water (so-called hot water filling) for the bathtub 90, (So-called auxiliary heating), and heating operation.

As shown in Fig. 2, the hot water heating apparatus 10 of the present embodiment has a plurality of operation modes, and the user can select an arbitrary operation mode (S50). The first operation mode is a normal operation mode (S52), and is a normal operation mode in which the heat pump 40 and the hot water heating unit 50 are used in combination. The second operation mode is a gas prohibition mode (S54), which prohibits the use of the hot water heating unit 50 and only the heat pump 40 is a heat source. The third operation mode is a gas designation prohibition mode (S56), which prohibits the use of the hot water heating unit 50 only in a time zone designated by the user, and uses only the heat pump 40 as a heat source. When the gas designation prohibition mode (S56) is selected, the user can arbitrarily set the time zone in which the use of the hot water heating unit (50) is prohibited (S58). The time zone specified here may be set by month, day of the week, or calendar (day). The selected operation mode is displayed on the display unit of the remote controller 12 (S60).

Recently, natural disasters such as a great earthquake are concerned. When such a situation occurs, it may happen that the gas supply is stopped due to the time zone. Assuming such a situation, in the hot water heating apparatus 10 of the present embodiment, the gas designation inhibiting mode (S56) is prepared. Alternatively, it is conceivable that the user himself or herself refrains from using the gas-type heat source for the purpose of reducing the consumption amount of the gas. Assuming such a situation, in the hot water heating apparatus 10 of the present embodiment, the gas prohibition mode S54 is prepared. In addition, even when the normal operation mode (S52) is selected, as described above, when it is detected that the supply of gas is stopped, the use of the hot water heating unit (50) is prohibited and only the heat pump Heating can be carried out.

However, the heat generating capacity of the heat pump 40, which is an electric heat source, is lower than that of the hot water heating unit 50 which is a gas heat source. Therefore, if the use of the hot water heating unit 50 is prohibited and hot water supply or heating is similarly performed only by the heat pump 40, it is expected that the user can not cope with the heat demand due to the insufficient heating value. In this regard, the hot water heating apparatus 10 of the present embodiment is configured to change the target temperature of the storage tank 30 in the heat accumulating operation, in accordance with whether or not the hot water heating unit 50 can be used.

Referring to Fig. 3, the heat storage operation of the present embodiment will be described. The heat storage operation shown in Fig. 3 is started when the power supply of the hot water supply heating device 10 is turned on. First, in step S12, the controller 14 confirms the hot water setting temperature (referred to as T1) designated by the user. Subsequently, in step S14, the controller 14 determines whether or not the current operation mode is the gas prohibition mode. If the determination is YES, the process proceeds to step S22, and if the determination is NO, the process proceeds to step S16.

In step S16, the controller 14 determines whether or not the current point is the time zone designated by the user by the gas designation inhibiting mode. If YES in this determination, the process proceeds to step S22, and if NO, the process proceeds to step S18. In step S18, the controller 14 determines whether or not the gas supply is stopped, based on the detection result of the gas detection sensor 52. [ If the determination is YES, the process proceeds to step S22, and if NO, the process proceeds to step S20. In this determination, the present time is not limited to the time zone designated by the user, and the process proceeds to step S22, including the case where the time zone comes within a predetermined time (for example, within 30 minutes) May be processed.

When the process proceeds to step S20, the operation of the hot water supply heating unit 50, which is a gas heat source, is not prohibited. Therefore, when the amount of accumulated heat (hot water) in the storage tank 30 is insufficient, the amount of heat that is insufficient can be supplemented by the hot water supply heating unit 50. At this point, the controller 14 sets the target temperature (referred to as T2) of the hot water in the storage tank 30 to the same value as the hot water setting temperature T1 designated by the user. Thus, excessive heat radiation from the holding tank 30 is suppressed. However, the target temperature T2 may be a value different from the hot water setting temperature T1. Depending on the structure, application, and function of the device, the relationship between the two temperatures can be determined as appropriate.

On the other hand, when the process proceeds to step S22, the operation of the hot water supply heating unit 50, which is a gas heat source, is prohibited. Therefore, even when the amount of accumulated heat (hot water) in the storage tank 30 is insufficient, the amount of heat that the hot water heating unit 50 can not supplement can not be compensated. At this point, the controller 14 sets the target temperature (referred to as T2) of the hot water in the storage tank 30 to a value higher than the hot water set temperature T1 specified by the user, for example, by the predetermined temperature? (I.e., T2 = T1 + alpha). As a result, even in a situation where a large amount of heat is accumulated in the storage tank 30 than usual and the hot water heating unit 50 can not be used, the user can cope with the heat demand (hot water supply or heating) as much as possible.

After setting the above target temperature, the controller 14 acquires the detected temperature (referred to as T3) of the storage tank 30 in step S24 and stores the detected temperature T3 in the target temperature T2). If the detected temperature T3 is lower than the target temperature T2 (T3 < T2), the process proceeds to step S28 to start or continue the operation of the heat pump 40. Otherwise, the process proceeds to step S30, ) Is stopped.

As described above, the controller 14 determines the target temperature of the hot water in the warming tank 30 according to the hot water setting temperature designated by the user, and determines the target temperature T2 with respect to the hot water set temperature T1, Can be changed in accordance with the use of the gas-type heat source (the hot-water supply heating unit 50). With such a configuration, unnecessary heat radiation from the storage tank 30 can be suppressed during normal operation, and even when the hot water heating unit 50 can not be used, the maximum heat demand (hot water supply or heating) It can respond.

While the embodiments of the present invention have been described in detail, the present invention is not limited to these embodiments. The techniques described in the claims include various modifications and changes to the embodiments described above. The technical elements described in this specification or the drawings are intended to exhibit technical usefulness alone or in various combinations, and are not limited to combinations of claims described in the application. Moreover, the techniques illustrated in this specification or drawings are intended to be capable of achieving a plurality of objectives at the same time, and achieving one of the objectives themselves has technical object usefulness.

10 - Hot water heating system 12 - Remote control
14 - Controller 16 - Hot water supply pipe
18 - Hot water bypass pipe 20 - Bypass control valve
22 - Hot water tank 24 - Hot water side mixing valve
26 - Water supply bypass pipe 28 - Water supply pipe
30 - Storage tank 32 - Storage heat transfer pipe
34 - Heat storage return pipe 40 - Heat pump
50 - Hot water heating unit 52 - Gas detection sensor
60 - Heating transfer pipe 62 - First heating return pipe
64 - Second heating return pipe 66 - Heating bypass pipe
68 - Heating side mixing valve 70 - Heating terminal
82 - Bath return pipe 84 - Bath tub supply pipe
90 - Bathtub

Claims (7)

As a heat supply device that uses electricity and gas in combination,
An electric heat source for generating electricity by consuming electricity,
A gas-type heat source that generates heat by consuming gas,
Heat storage means for storing heat generated by at least the electric heat source,
And control means for controlling at least the electric heat source to regulate an amount of heat of the heat storage means,
Wherein the control means performs an operation of using only the electric heat source as a heat source when the use of the gas-type heat source is not possible, and raises a target value relating to the amount of heat of the shaft,
Wherein the target value for the amount of heat of storage is the target temperature of the heating medium of the heat storage means.
delete The method according to claim 1,
Wherein the control means determines a target value relating to the amount of heat of storage according to a hot water temperature or a heating temperature set value designated by the user and sets a relationship of the target value with respect to the set value to a usable / And the temperature of the heat source.
delete The method according to claim 1 or 3,
Wherein the control means performs an operation of using only the electric heat source as a heat source when the supply of the gas is stopped and also raises the target value regarding the amount of heat of the shaft.
The method according to claim 1 or 3,
Wherein the control means is capable of setting a time zone in which the use of the gas-type heat source is prohibited and performs the operation of using only the electric heat source as the heat source in accordance with the set time zone, Heat supply. The method according to claim 1 or 3,
Wherein the control means is capable of selecting an operation mode for prohibiting the use of a gas-type heat source, and when the operation mode is selected, only the electric heat source is operated as a heat source and the target value Wherein the heat source is a heat exchanger.

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