JP3705030B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water heater using a heat pump and combustion.
[0002]
[Prior art]
Conventionally, one type of water heater of this type is shown in FIG. 5 as disclosed in Japanese Patent Laid-Open No. 59-195048. In FIG. 5, the water in the lower part of the heat storage tank 1 is returned to the upper part of the heat storage tank 1 via the circulation pump 2, from the heat exchanger 4 a that exchanges heat with the condenser 4 of the heat pump 3, through the heat exchanger 6 of the combustion water heater 5. . The water in the heat storage tank 1 is heated to an intermediate temperature by the heat pump 3 and then heated 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 the heat pump 3. Further, 10 is a combustion burner, and 1a is a hot water temperature detecting means for the hot water temperature in the heat storage tank 1. The other is a wall-mounted combustion water heater 12 having a combustion exhaust port 11 as shown in FIG. 6, and 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 type combustion water heater 17 having a chimney 16, which is installed on the site base 18 under the eaves 14 of the building 13 and the combustion exhaust is at the chimney 16 exceeding the height of a human being. Discharged to height.
[0003]
[Problems to be solved by the invention]
However, in the conventional water heater in which the heat pump 3 and the combustion water heater 5 shown in FIG. 7 are combined, the hot water temperature in the heat storage tank 1 is always kept at a high temperature of 80 ° C., so that the heat dissipation loss is large. In addition, the volume of the heat storage tank 1 increases from about 300 liters to about 460 liters due to the necessity of securing the amount of hot water necessary for the hot water in the heat storage tank 1, 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 has a problem of so-called hot water shortage in which the hot water in the heat storage tank disappears. On the other hand, the combustion water heater shown in FIG. 8 and FIG. 9 is superior in terms of compactness because there is no fear of running out of hot water with high capacity hot water, but it is inefficient in energy efficiency. In order to be 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. In the case of a mold, there is a problem that a special separate member such as a chimney is required to exhaust the exhaust gas to a high place so as not to hit the human body.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides 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 for heating hot water from the heat storage tank by heat of a combustion burner is housed in a single box, and the heat pump unit and the combustion hot water supply unit are placed above the heat storage tank. The exhaust port of the wind provided to the evaporator provided in the heat pump unit and the exhaust port of the combustion exhaust gas provided in the combustion hot water supply unit, the width of the exhaust port being the exhaust port The water heater is larger than the width of the water heater.
[0006]
With the above configuration, the water in the heat storage tank is stored by storing heat at a predetermined temperature set in advance by the operation of the heat pump. Since the efficiency of the heat pump is usually sufficiently secured at the predetermined temperature and is an intermediate temperature of 50 to 55 ° C. which is higher than the normal hot water temperature, the heat dissipation loss of the heat storage tank is reduced, and the heat insulation configuration can be simplified. In addition, by providing a heat exchanger that is heated by the heat of the combustion burner, when the hot water temperature of the heat storage tank decreases, or when high temperature hot water is required, heated hot water supply by combustion is performed, The capacity of the heat pump unit and the heat storage tank can be set to the minimum necessary size, and the heat storage tank can be downsized.Therefore, the heat pump unit and the combustion hot water supply unit are positioned on the upper part of the heat storage tank and integrated into a compact size. It becomes possible, and the degree of freedom of installation increases.
[0007]
Also, there is no need to worry about running out of hot water. In addition, by positioning 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 a position higher than the height of a person, so Since the wind does not directly hit the human body, a special member such as a chimney becomes unnecessary.
[0008]
Furthermore, by making the width of the exhaust port of the heat pump unit larger than the width of the exhaust port of the combustion hot water supply unit, all the hot exhaust gas that diffuses and rises outward from both sides of the exhaust port is also suppressed by the cold air of the heat pump. be able to.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The water heater that solves the above problems can be realized by the embodiments described in the claims. That is, the invention according to claim 1 of the present invention is a heat pump unit in which a compressor, a condenser, a decompressor, and an evaporator are connected by a refrigerant flow path, and the internal water is heated and heated by the heat of the condenser. And a combustion hot water supply unit having a heat storage tank and a heat exchanger that heats hot water from the heat storage tank by heat of a combustion burner, are housed in one box, and the heat pump unit and the combustion are disposed above the heat storage tank. A hot water supply unit, a wind exhaust port for passing air to an evaporator provided in the heat pump unit, and an exhaust port for combustion exhaust gas provided in the combustion hot water supply unit. Is larger than the width of the exhaust port , the water in the heat storage tank is stored by storing heat at a predetermined temperature set in advance by the operation of the heat pump. The predetermined temperature is sufficient to ensure the efficiency of the normal heat pump and is an intermediate temperature of 50 to 55 ° C., which is higher than the normal hot water temperature, so that the heat dissipation loss of the heat storage tank is reduced.
[0010]
In addition, by providing a heat exchanger that is heated by the heat of the combustion burner, when the hot water temperature of the heat storage tank decreases, or when high temperature hot water is required, heated hot water supply by combustion is performed, The capacity of the heat pump unit and the heat storage tank can be set to the minimum necessary size, and the heat storage tank can be downsized.Therefore, the heat pump unit and the combustion hot water supply unit are positioned on the upper part of the heat storage tank and integrated into a compact size. It becomes possible, and the degree of freedom of installation increases.
[0011]
Also, there is no need to worry about running out of hot water. In addition, by positioning 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 a position higher than the height of a person, so Since the wind does not directly hit the human body, a special member such as a chimney becomes unnecessary.
[0012]
Further, with the structure made larger than the width of the outlet of the combustion water heating unit the width of the exhaust air outlet of the heat pump unit, hot exhaust gases diffused raised outwardly from both sides of the exhaust port also Ri by the cold air heat pump it can be writing even press.
[0013]
Further, in the second aspect of the invention, by setting the blowing air speed from the exhaust port of the heat pump unit to be larger than the blowing air speed from the exhaust port of the combustion hot water supply unit, the heat pump unit is exhausted from below by the cool air having a high heat pump speed. It is possible to suppress the rise of high-temperature combustion exhaust gas at low speed and carry it far away.
[0014]
In addition to the invention of claim 1 or 2 , the invention described in claim 3 is blown out from above by adopting a configuration in which the exhaust port of the heat pump unit is disposed above the exhaust port of the combustion hot water supply unit. The rise of the high-temperature combustion exhaust gas exhausted from the bottom by the cold air of the heat pump is suppressed and can be transported far away, and the high-temperature exhaust gas can be prevented from reaching the bottom surface under the eaves. There is no risk of deformation.
[0015]
【Example】
Embodiments of the present invention will be described below with reference to the drawings. In each embodiment, parts having the same configuration and the same operation are denoted by the same reference numerals to avoid redundant description.
[0016]
(Example 1)
FIG. 1 is a configuration diagram of a water heater in Embodiment 1 of the present invention, and FIG. 2 is a front partial view of a blowing portion of the water heater.
[0017]
In FIG. 1, a heat pump 19 includes a compressor 20, a condenser 21, a decompressor 22, and an evaporator 23 connected by a refrigerant flow path. Reference numeral 24 denotes a heat storage tank, and water from the lower part of the heat storage tank 24 is led 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 pipe 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 heated by the heat of the combustion burner 30 constituting 29 is disposed. 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 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 positioned on the upper part of the heat storage tank 24 that is open to the lower part of the exhaust port 33 on the same plane as the opening of the 32 exhaust port 33, and is housed in one box 36.
[0018]
In FIG. 2, the width of the exhaust port 33 of the heat pump unit 19 is set larger than the width of the exhaust port 35 of the combustion hot water supply unit 29.
[0019]
Although not shown, the blown air speed from the exhaust port 33 of the heat pump unit 19 is set larger than the blown air speed from the exhaust port 35 of the combustion hot water supply unit 29.
[0020]
The operation and action of the above configuration will be described. First, when a 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 boil the water in the heat storage tank 24 to a predetermined temperature (50 to 55 ° C.). Since the hot water temperature in the heat storage tank 24 is usually 50 to 55 ° C. at the time of hot water discharge, the combustion burner 30 is not ignited, and the hot water temperature in the heat storage tank 24 is lowered, or when high temperature hot water is required Hot water is supplied by combustion. Therefore, since it is the intermediate temperature of 50-55 degreeC which is more than normal hot-water temperature, the heat dissipation loss of the thermal storage tank 24 is reduced, and a heat insulation structure can also be simplified.
[0021]
Moreover, the heat exchanger 31 heated by the heat of the combustion burner 30 provided in the middle of the tank outlet pipe 27 between the heat storage tank 24 and the terminal currant 28 which discharges hot water is provided, and the hot water temperature of the heat storage tank 24 falls. If hot water is needed, or hot water can be supplied by combustion, 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 downsized. . Therefore, the heat pump unit 19 and the combustion hot water supply unit 29 are positioned and integrated on the upper part of the heat storage tank 24, so that 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.
[0022]
Further, by positioning the heat pump unit 19 and the combustion hot water supply unit 29 in the upper part of the heat storage tank 24, the exhaust port 35 of the combustion hot water supply unit 29 and the exhaust air outlet 33 of the heat pump unit 19 can be set at positions higher than the height of a human being. Since the high-temperature exhaust gas and the low-temperature wind do not directly hit the human body or the like, a special separate member such as a chimney becomes unnecessary.
[0023]
Further, by arranging the exhaust port 35 of the combustion hot water supply unit 29 and the exhaust port 33 of the heat pump unit 19 on the same surface of the box 36, it can be installed in a pipe shaft of a housing complex or a building such as a hut. In this case, there is only one wall surface for securing outside air exhaust and exhaust passage, so that the workability at the time of installation is improved and the degree of freedom of installation is increased.
[0024]
Further, by arranging the exhaust port 33 of the heat pump unit 19 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. Since the rise can be suppressed and transported to a distant place and high-temperature exhaust gas can be prevented from reaching the lower surface of the eaves, there is no risk of the lower surface of the eaves being deformed by heat.
[0025]
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, as shown in FIG. Thus, all the high-temperature exhaust gas that has diffused and raised can be suppressed by the cold air of the heat pump from the exhaust port 33.
[0026]
Also, by setting the blown air speed from the exhaust port 33 of the heat pump unit 19 to be larger than the blown air speed from the exhaust port 35 of the combustion hot water supply unit 29, the low-speed and high-temperature exhausted from below by the fast cool air of the heat pump. Since the rise of the combustion exhaust gas can be suppressed and transported to a distance, it is possible to prevent high-temperature exhaust gas from reaching the lower surface portion under the eaves even when installed under the eaves, so that there is no risk of the lower surface portion under the eaves being deformed by heat.
[0027]
In the above description, the refrigerant pipe and water pipe configurations shown in FIG. 1 have been described. However, the refrigerant pipe and water pipe configurations are different with respect to the effects and effects related to the positional relationship and size relationship between the exhaust port 33 and the exhaust port 35. However, it is clear that the same action and effect can be obtained. Further, the boiling temperature of the heat pump can be considered from 40 ° C., and the same action and effect can be obtained if it is 65 ° C. or less.
[0028]
(Example 2)
FIG. 3 is a configuration diagram of a water heater in Embodiment 2 of the present invention. 3 is different from FIG. 1 in 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.
[0029]
The operation and action of the above configuration will be described.
[0030]
The heat of the high-temperature combustion exhaust gas generated from the combustion hot water supply unit 29 is absorbed 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 there is no hot air blowing and it is safe. In addition, there is only one outlet and the configuration is simplified.
[0031]
(Example 3)
FIG. 4 is a configuration diagram of a water heater in Embodiment 3 of the present invention. 4 differs from FIG. 3 in that it includes a drain pan 38 that receives drain water from the evaporator 23, a drain water neutralizing device 39, a drain pan drain 40 connected to the drain pan 38, and a neutralizer drain 41. Is a point.
[0032]
The operation and action of the above configuration will be described.
[0033]
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 processing device 39 from the drain pan drainage passage 40, and is neutralized by the neutralization processing device 39. And discharged from the neutralizer drain 41 to the outside. 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 corrosion of the equipment can be solved, and the waste water is also high. Since acid water can be prevented from being discharged, the problem of sewage environmental pollution can be solved.
[0034]
【The invention's effect】
As is clear from the above description , according to the present invention, the heat dissipation loss of the heat storage tank is reduced. In addition, integration makes it possible to reduce the size of the apparatus and allows a greater degree of freedom in installation. In addition, unlike ordinary hot water storage systems, there is no worry about running out of hot water, and it also has the feature that hot water comes out immediately, which is a merit of hot water storage. In addition, by allowed to position a combustion water heater unit and the heat pump unit on top of the heat storage tank, since the exhaust gas and cold wind Atsushi Ko becomes avoid exposure to direct human body or the like, unnecessary special separate member chimneys etc. It becomes. Furthermore, by making the width of the exhaust port of the heat pump unit larger than the width of the exhaust port of the combustion hot water supply unit, high-temperature exhaust gas that diffuses and rises outward from both sides of the exhaust port is also suppressed by the cold air of the heat pump. Can do.
[0035]
In addition, by setting the blowing air speed from the exhaust port of the heat pump unit to be larger than the blowing air speed from the exhaust port of the combustion hot water supply unit, the low-temperature and high-temperature combustion exhaust gas exhausted from below by the cool air having a high heat pump speed. You can hold it up and carry it far away.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a water heater in Embodiment 1 of the present invention. FIG. 2 is a front partial view of a blowing portion of the water heater. FIG. 3 is a configuration diagram of a water heater in Embodiment 2 of the present invention. FIG. 5 is a block diagram of a hot water heater according to a third embodiment of the present invention. FIG. 5 is a block diagram of a conventional water heater combined with a heat pump and a combustion water heater. FIG. 6 is a block diagram of a conventional wall-mounted water heater. Diagram of stationary water heater [Description of sign]
DESCRIPTION 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 Exhaust port 35 Exhaust port 36 Box body 39 Neutralization processing apparatus

Claims (3)

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 the heat storage tank by heat of a combustion burner A combustion hot water supply unit having a heat exchanger that heats hot water from the inside is housed in a single box, and the heat pump unit and the combustion hot water supply unit are disposed above the heat storage tank, and provided in the heat pump unit. A water heater having a wind exhaust port for passing through the evaporator and a combustion exhaust gas exhaust port provided in the combustion hot water supply unit, wherein a width of the exhaust port is larger than a width of the exhaust port . 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 the heat storage tank by heat of a combustion burner A combustion hot water supply unit having a heat exchanger that heats hot water from the inside is housed in a single box, and the heat pump unit and the combustion hot water supply unit are disposed above the heat storage tank, and provided in the heat pump unit. An exhaust port for the wind that is passed to the evaporator, and an exhaust port for the combustion exhaust gas provided in the combustion hot water supply unit, and the blowing air speed from the exhaust port is larger than the blowing air speed from the exhaust port Water heater. The hot water heater according to claim 1 or 2, wherein an exhaust port of the heat pump unit is disposed above the exhaust port of the combustion hot water supply unit.

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