JP2001041572A5 - - Google Patents

Description

[Document name] Specification [Title of invention] Water heater [Claims]
1. A heat pump unit in which a compressor, a condenser, a decompressor, and an evaporator are connected by a refrigerant flow path, a heat storage tank in which the internal water is heated and heated by the heat of the condenser, and a combustion burner. A water supply machine in which a combustion hot water supply unit having a heat exchanger that heats hot water supplied from the heat storage tank by heat is housed in one box, and the heat pump unit and the combustion hot water supply unit are arranged above the heat storage tank. ..
Evaporator wherein the heat pump unit and a wind exhaust outlet and a blower, the combustion water heating unit has an exhaust port of the combustion exhaust gas, distributing the air discharge port and the exhaust port on the same face of the box body The water heater according to claim 1 provided.
3. The water heater according to claim 2, wherein the exhaust port of the heat pump unit is provided above the exhaust port of the combustion hot water supply unit.
4. The water heater according to claim 3, wherein the width of the exhaust port is made larger than the width of the exhaust port.
5. The water heater according to claim 3 or 4, wherein the blown wind speed from the exhaust port is made larger than the blown wind speed from the exhaust port.
6. The water heater according to claim 1, wherein the evaporator has a blower and an exhaust port, and the combustion exhaust gas generated from the combustion hot water supply unit is introduced into the evaporator.
7. The water heater according to claim 6, further comprising a neutralization treatment device for neutralizing the drain water discharged from the evaporator.
Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
[Technical field to which the invention belongs]
The present invention relates to a water heater using a heat pump and combustion.
0002.
[Conventional technology]
Conventionally, one of the water heaters of this type is the one shown in FIG. 5 as shown in Japanese Patent Application Laid-Open No. 59-195048. In FIG. 5, the water in the lower part of the heat storage tank 1 is returned from the heat exchanger 4a that exchanges heat with the condenser 4 of the heat pump 3 via the circulation pump 2 to the upper part of the heat storage tank 1 via the heat exchanger 6 of the combustion water heater 5. .. Then, the water in the heat storage tank 1 is heated to an intermediate temperature by the heat pump 3, and then heated and stored to a high temperature of 80 ° C. by the combustion water heater 5. In FIG. 5, 7 is a compressor, 8 is a decompressor, and 9 is an evaporator, which constitutes a heat pump 3. Reference numeral 10 is a combustion burner, and 1a is a means for detecting the temperature of the hot water in the heat storage tank 1. The other is a wall-mounted combustion water heater 12 having an exhaust port 11 for combustion as shown in FIG. 6, which is attached to a relatively upper portion of the wall surface 15 of the eaves 14 of the building 13. Further, as shown in FIG. 7, there is a stationary combustion water heater 17 having a chimney 16, which is installed on 18 on the site base of 14 under the eaves of the building 13, and the combustion exhaust is the chimney 16 and is taller than a human being. It is discharged to the height.
0003
[Problems to be Solved by the Invention]
However, in the conventional water heater that combines the heat pump 3 and the combustion water heater 5 shown in FIG. 7, the hot water temperature in the heat storage tank 1 is always maintained at a high temperature of 80 ° C., so that the heat dissipation loss is large. Further, since it is necessary to secure the amount of hot water required for hot water discharge in the heat storage tank 1, the volume of the heat storage tank 1 increases from 300 liters to 460 liters, and the heat pump 3 and the combustion water heater 5 are configured as separate units. Therefore, the installation space becomes large and the place where it can be installed is limited.
0004
In addition, such a hot water storage type water heater also has a problem of running out of hot water in the heat storage tank. On the other hand, the combustion water heaters shown in FIGS. 8 and 9 are excellent in that they are compact and do not have to worry about running out of hot water due to their large capacity, but they are not energy efficient, and in the case of wall hanging, they are located relatively above the wall surface 15. Since it is attached, there is a problem that the high-temperature exhaust gas discharged from the exhaust port 11 rises and reaches the lower surface portion of the eaves bottom 14, and there is a risk that the lower surface portion of the eaves bottom 14 is deformed by heat, and it is deferred. In the case of the mold, there is a problem that a special separate member such as a chimney is required to discharge the exhaust gas to a high place so as not to hit the human body or the like.
0005
[Means for solving problems]
In order to solve the above problems, the present invention has a heat pump unit in which a compressor, a condenser, a decompressor, and an evaporator are connected by a refrigerant flow path, and a heat storage tank in which the internal water is heated and heated by the heat of the condenser. A combustion hot water supply unit having a heat exchanger that heats the hot water supply water from the heat storage tank by the heat of the combustion burner is housed in one box, and the heat pump unit and the combustion hot water supply unit are placed above the heat storage tank. It is an arranged water heater.
0006
With the above configuration, the water in the heat storage tank is stored at a predetermined temperature set in advance by the operation of the heat pump. Since the predetermined temperature is an intermediate temperature of 50 to 55 ° C., which is usually higher than the normal hot water temperature, the efficiency of the heat pump is sufficiently ensured, so that the heat dissipation loss of the heat storage tank can be reduced and the heat insulation configuration can be simplified. In addition, since it is equipped with a heat exchanger that is heated by the heat of the combustion burner, when the temperature of the hot water in the heat storage tank drops, or when high-temperature hot water is required, hot water is supplied by combustion. The capacity of the heat pump unit and the heat storage tank can be set to the minimum required size, and the heat storage tank can be miniaturized. Therefore, the heat pump unit and the combustion hot water supply unit can be positioned and integrated on the upper part of the heat storage tank to make it compact. It becomes possible and the degree of freedom of installation is increased.
0007
Also, there is no need to worry about running out of hot water. In addition, by locating the heat pump unit and the combustion hot water supply unit at the top of the heat storage tank, the exhaust port of the combustion hot water supply unit and the exhaust port of the heat pump unit can be set at positions higher than the height of a human being, so that high-temperature exhaust gas and low-temperature exhaust gas and low temperature can be set. Since the wind does not directly hit the human body or the like, a special separate member such as a chimney is not required. 0008
0008
BEST MODE FOR CARRYING OUT THE INVENTION
A water heater that solves the above problems can be realized by the embodiment described in each claim. That is, in the invention according to claim 1 of the present invention, the heat of the heat pump unit in which the compressor, the condenser, the decompressor, and the evaporator are connected by a refrigerant flow path and the heat of the condenser heats and raises the temperature of the water inside. A heat storage tank and a combustion hot water supply unit having a heat exchanger that heats hot water supplied from the heat storage tank by the heat of the combustion burner are housed in one box, and the heat pump unit and the combustion are placed on the upper part of the heat storage tank. Due to the configuration in which the hot water supply unit is arranged, the water in the heat storage tank is stored at a predetermined temperature set in advance by the operation of the heat pump. Since the predetermined temperature is an intermediate temperature of 50 to 55 ° C., which is usually higher than the normal hot water temperature, the efficiency of the heat pump is sufficiently ensured, so that the heat dissipation loss of the heat storage tank is reduced.
0009
In addition, since it is equipped with a heat exchanger that is heated by the heat of the combustion burner, when the temperature of the hot water in the heat storage tank drops, or when high-temperature hot water is required, hot water is supplied by combustion. The capacity of the heat pump unit and the heat storage tank can be set to the minimum required size, and the heat storage tank can be miniaturized. Therefore, the heat pump unit and the combustion hot water supply unit can be positioned and integrated on the upper part of the heat storage tank to make it compact. It becomes possible and the degree of freedom of installation is increased.
0010
Also, there is no need to worry about running out of hot water. In addition, by locating the heat pump unit and the combustion hot water supply unit at the top of the heat storage tank, the exhaust port of the combustion hot water supply unit and the exhaust port of the heat pump unit can be set at positions higher than the height of a human being, so that high-temperature exhaust gas and low-temperature exhaust gas and low temperature can be set. Since the wind does not directly hit the human body or the like, a special separate member such as a chimney is not required.
0011
Further, in the invention according to claim 2, in addition to the invention according to claim 1, the evaporator of the heat pump unit has a blower for forced ventilation and an exhaust port, and the combustion hot water supply unit has an exhaust port for combustion exhaust gas. the by the air discharge port and the exhaust port and configuration which is arranged on the same surface of the box, and the better the workability at the time of installation in a building hut such Toka pipe shaft collective housing installation The degree of freedom is increased.
0012
Further, in the invention according to claim 3, in addition to the invention according to claim 2, the heat pump blown out from above is configured by disposing the exhaust port of the heat pump unit above the exhaust port of the combustion hot water supply unit. The lower surface of the eaves 14 is deformed by heat because the high temperature combustion exhaust gas exhausted from below can be suppressed by the cold air and carried to a distant place, and the high temperature exhaust gas can be prevented from reaching the lower surface under the eaves. There is no danger of doing it.
0013
Further, in the invention according to claim 4, in addition to the invention according to claim 3, the width of the exhaust port of the heat pump unit is made larger than the width of the exhaust port of the combustion hot water supply unit, so that both sides of the exhaust port are formed. All the high-temperature exhaust gas that diffuses and rises from the surface to the outside can be suppressed by the cold air of the heat pump.
0014.
Further, in the invention according to claim 5, in addition to the invention of claim 3 or 4, the blown air velocity from the exhaust port of the heat pump unit is set to be larger than the blown air velocity from the exhaust port of the combustion hot water supply unit. It is possible to suppress the rise of low-speed and high-temperature combustion exhaust gas that is exhausted from below by the fast cold air of the heat pump and carry it to a distant place.
0015.
Further, in the invention according to claim 6, in addition to the invention according to claim 1, the evaporator of the heat pump unit has a blower for forced ventilation and an exhaust port, and the combustion exhaust gas generated from the combustion hot water supply unit is introduced into the evaporator. By adopting the configuration, the heat of the combustion exhaust gas can be efficiently recovered, and the high temperature combustion exhaust gas is cooled by the evaporator, so that the high temperature blowout is eliminated and it is safe. In addition, the number of outlets is one, and the configuration is simplified.
0016.
Further, the invention according to claim 7 has a configuration in which, in addition to the invention according to claim 6, has a neutralizing treatment device for neutralizing the drain water discharged from the evaporator of the heat pump unit, so that the combustion exhaust gas evaporates. By neutralizing the highly acidic drain water generated when the heat is recovered by the vessel with a neutralizing treatment device, the problem of corrosion of the equipment can be solved.
[0017]
【Example】
Hereinafter, examples of the present invention will be described with reference to the drawings. In each embodiment, parts having the same configuration and the same operation are designated by the same reference numerals to avoid duplicate explanations.
0018
(Example 1)
FIG. 1 is a configuration diagram of a water heater according to a first embodiment of the present invention, and FIG. 2 is a front partial view of a blowout portion of the water heater.
0019
In FIG. 1, the heat pump 19 is configured by connecting a compressor 20, a condenser 21, a decompressor 22, and an evaporator 23 by a refrigerant flow path. 24 is a heat storage tank, and water from the lower part of the heat storage tank 24 is guided to the condenser 21 by the circulation pump 25, heated and heated by the heat of the condenser 21, and returned to the heat storage tank 24. A pipeline 26 for supplying tap water or the like is provided at the lower part of the heat storage tank 24, and a tank hot water pipe 27 is provided at the upper part. A heat exchanger 31 that is heated by the heat of the combustion burner 30 that constitutes 29 is arranged. 32 is a blower for ventilating the evaporator 23, 33 is an exhaust port of the blower 32, 34 is a combustion blower for sending combustion air of the burner 30, and 35 is an exhaust port of the combustion exhaust gas of the combustion hot water supply unit 29. The heat pump unit 19 and the combustion hot water supply unit 29 are located above the heat storage tank 24, which opens at the lower part of the exhaust port 33 on the same surface as the opening of the exhaust port 33 of 32, and are housed in one box body 36.
0020
In FIG. 2, the width of the exhaust port 33 of the heat pump unit 19 is set to be larger than the width of the exhaust port 35 of the combustion hot water supply unit 29.
0021.
Further, although not shown, the blowing air velocity from the exhaust port 33 of the heat pump unit 19 is set to be higher than the blowing air velocity from the exhaust port 35 of the combustion hot water supply unit 29.
0022.
In the above configuration, the operation and operation will be described. First, when the power supply (not shown) is turned on, the compressor 20, the blower 32, and the circulation pump 25 of the heat pump 19 are started to operate, and the water in the heat storage tank 24 is boiled to a predetermined temperature (50 to 55 ° C.). When the temperature of the hot water in the heat storage tank 24 is 50 to 55 ° C. when the hot water is normally discharged, the combustion burner 30 does not ignite and the temperature of the hot water in the heat storage tank 24 drops, or when high temperature hot water is required to be discharged. Hot water is supplied by combustion. Therefore, since the temperature is an intermediate temperature of 50 to 55 ° C., which is usually higher than the hot water temperature, the heat dissipation loss of the heat storage tank 24 can be reduced and the heat insulation configuration can be simplified.
[0023]
Further, the heat exchanger 31 heated by the heat of the combustion burner 30 provided in the middle of the tank hot water pipe 27 between the heat storage tank 24 and the terminal curan 28 for hot water is provided, so that the hot water temperature of the heat storage tank 24 is lowered. If hot water is discharged at a high temperature, or if hot water is required to be discharged at a high temperature, hot water can be supplied by combustion. Therefore, the capacity of the heat pump unit 19 and the heat storage tank 24 can be set to the minimum necessary size, and the heat storage tank 24 can be miniaturized. .. Therefore, by locating and integrating the heat pump unit 19 and the combustion hot water supply unit 29 on the upper part of the heat storage tank 24, the size can be reduced and the degree of freedom of installation is increased. Also, there is no need to worry about running out of hot water.
0024
Further, by positioning the heat pump unit 19 and the combustion hot water supply unit 29 at the upper part of the heat storage tank 24, the exhaust port 35 of the combustion hot water supply unit 29 and the exhaust port 33 of the heat pump unit 19 can be set at positions higher than the human height. Since high-temperature exhaust gas and low-temperature wind do not directly hit the human body or the like, a special separate member such as a chimney is not required.
0025
Further, by configuring the exhaust port 35 of the combustion hot water supply unit 29 and the exhaust port 33 of the heat pump unit 19 to be located on the same surface of the box body 36, it can be installed in a pipe shaft of an apartment house or in a building such as a hut. In the case of, there is only one wall surface for exhausting air to the outside and securing a passage for exhausting, which improves the workability at the time of installation and increases the degree of freedom of installation.
0026
Further, by configuring the exhaust port 33 of the heat pump unit 19 to be located above the exhaust port 35 of the combustion hot water supply unit 29, the high-temperature combustion exhaust gas exhausted from below by the cold air of the heat pump blown from above can be used. Since the rise can be suppressed and the exhaust gas can be carried to a long distance and the high temperature exhaust gas can be prevented from reaching the lower surface under the eaves, there is no risk of the lower surface under the eaves being deformed by heat.
[0027]
Further, by making the width of the exhaust port 33 of the heat pump unit 19 larger than the width of the exhaust port 35 of the combustion hot water supply unit 29, arrows indicate from both side surfaces of the exhaust port 35 to the outside as shown in FIG. The high-temperature exhaust gas that has diffused and risen as described above can also be suppressed by the cold air of the heat pump from the exhaust port 33.
[0028]
Further, by setting the blown air velocity from the exhaust port 33 of the heat pump unit 19 to be higher than the blown air velocity from the exhaust port 35 of the combustion hot water supply unit 29, the heat pump is exhausted from below by the fast cold air, and the temperature is low and high. Since the rise of the combustion exhaust gas can be suppressed and carried to a distant place, it is possible to prevent the high-temperature exhaust gas from reaching the lower surface of the eaves even when installed under the eaves, so that there is no risk of the lower surface of the eaves being deformed by heat.
[0029]
In the above description, the refrigerant pipe and water pipe configurations shown in FIG. 1 have been described, but the refrigerant pipe and water pipe configurations are different in terms of the actions and effects related to the positional relationship and size relationship of the exhaust port 33 and the exhaust port 35. It is clear that the same action and effect can be obtained even if they are used. Further, the boiling temperature of the heat pump can be considered from 40 ° C., and if it is 65 ° C. or lower, the same action / effect can be obtained.
[0030]
(Example 2)
FIG. 3 is a block diagram of the water heater according to the second embodiment of the present invention. In FIG. 3, the difference from FIG. 1 is that the exhaust port 37 of the combustion hot water supply unit 29 is opened on the air inflow side of the evaporator 23 of the heat pump unit 19.
0031
In the above configuration, the operation and operation will be described.
[0032]
The heat of the high-temperature combustion exhaust gas generated from the combustion hot water supply unit 29 is endothermic and cooled by the evaporator 23 and discharged from the exhaust port 33. In this way, the heat of the combustion exhaust gas can be efficiently recovered, and the high-temperature combustion exhaust gas is cooled by the evaporator 33, so that the high-temperature blowout is eliminated and it is safe. In addition, the number of outlets is one, and the configuration is simplified.
0033
(Example 3)
FIG. 4 is a block diagram of the water heater according to the third embodiment of the present invention. In FIG. 4, the difference from FIG. 3 is that the drain pan 38 that receives the drain water of the evaporator 23, the drain water neutralization treatment device 39, the drain pan drainage channel 40 connected to the drain pan 38, and the neutralizer drainage channel 41 are provided. It is a point.
0034
In the above configuration, the operation and operation will be described.
0035.
The highly acidic drain water generated when the combustion exhaust gas recovers heat in the evaporator 23 is received by the drain pan 38, enters the neutralization treatment device 39 from the drain pan drainage channel 40, and is neutralized by the neutralization treatment device 39. Is discharged to the outside from the neutralizer drainage channel 41. By neutralizing the highly acidic drain water generated when the combustion exhaust gas recovers heat in the evaporator 23 with the neutralization treatment device 39, the problem of equipment corrosion can be solved, and the amount of sewage is high. Since it is possible to prevent the discharge of acidic water, the problem of sewage environment pollution can be solved.
0036
【Effect of the invention】
As is clear from the above explanation, a heat pump unit in which a compressor, a condenser, a decompressor, and an evaporator are connected by a refrigerant flow path, and a heat storage tank in which the internal water is heated and heated by the heat of the condenser. A combustion hot water supply unit having a heat exchanger that heats the hot water supply water from the heat storage tank by the heat of the combustion burner is housed in one box, and the heat pump unit and the combustion hot water supply unit are placed above the heat storage tank. Due to the arranged configuration, the water in the heat storage tank is stored at a predetermined temperature set in advance by the operation of the heat pump. Since the predetermined temperature is an intermediate temperature of 50 to 55 ° C., which is usually higher than the normal hot water temperature, the efficiency of the heat pump is sufficiently ensured, so that the heat dissipation loss of the heat storage tank is reduced. In addition, since it is equipped with a heat exchanger that is heated by the heat of the combustion burner, when the temperature of the hot water in the heat storage tank drops, or when high-temperature hot water is required, hot water is supplied by combustion. The capacity of the heat pump unit and the heat storage tank can be set to the minimum required size, and the heat storage tank can be miniaturized. Therefore, the heat pump unit and the combustion hot water supply unit can be positioned and integrated on the upper part of the heat storage tank to make it compact. It becomes possible, and the degree of freedom of installation can be increased. In addition, unlike the ordinary hot water storage type, there is no need to worry about running out of hot water, and it also has the advantage of storing hot water, that is, the hot water comes out immediately. In addition, by locating the heat pump unit and the combustion hot water supply unit at the top of the heat storage tank, the exhaust port of the combustion hot water supply unit and the exhaust port of the heat pump unit can be set at positions higher than the height of a human being, so that high-temperature exhaust gas and low-temperature exhaust gas and low temperature can be set. Since the wind does not directly hit the human body or the like, a special separate member such as a chimney is not required.
[Simple explanation of drawings]
FIG. 1
FIG. 2 is a block diagram of a water heater according to a first embodiment of the present invention.
Front view of the blowout part of the water heater [Fig. 3]
FIG. 4 is a block diagram of a water heater according to a second embodiment of the present invention.
FIG. 5 is a block diagram of a water heater according to a third embodiment of the present invention.
Configuration diagram of a water heater that combines a conventional heat pump and a combustion water heater [Fig. 6]
Configuration diagram of a conventional wall-mounted water heater [Fig. 7]
Configuration diagram of a conventional stationary water heater [Explanation of symbols]
19 Heat pump 20 Compressor 21 Condenser 22 Decompressor 23 Evaporator 24 Heat storage tank 29 Combustion hot water supply unit 30 Combustion burner 31 Heat exchanger 32 Blower 33 Blower 33 Exhaust port 36 Box body 39 Neutralization treatment device