JP6819182B2 - Hot water device - Google Patents

Description

The present invention relates to a water heating device.

Conventionally, as an apparatus for sterilizing hot water in a bathtub while heating, a bathtub water purification sterilizer described in JP-A-2002-005509 (Patent Document 1) is known.

The bathtub water purification and sterilization apparatus described in Patent Document 1 includes a circulation pipe, a heat exchanger, a circulation pump, and a purification and sterilization means. The circulation pipe is a path for circulating hot water in the bathtub. The heat exchanger is arranged on the circulation pipe and heats the hot water in the bathtub. The circulation pump is arranged on the circulation pipe and circulates hot water. The purification and sterilization means are arranged on the circulation pipe and sterilize hot water by irradiating with ultraviolet rays.

JP-A-2002-005509

In the bathtub water purification and sterilization apparatus described in Patent Document 1, hot water heated by a heat exchanger passes through the purification and sterilization means. When hot water with a high temperature passes through the purification and sterilization means, there is a higher possibility that the purification and sterilization means will be damaged by heat as compared with the case where hot water with a low temperature passes through. Therefore, in the bathtub water purification and sterilization apparatus described in Patent Document 1, the life of the purification and sterilization means is shortened.

The present invention has been made in view of such problems of the prior art. Specifically, the present invention provides a water heating device capable of extending the life of the sterilization device.

The water heating device according to one aspect of the present invention includes a circulation circuit that circulates hot water in a bathtub while heating it. The circulation circuit includes a heat exchanger, a return pipe, a forward pipe, a circulation pump, and a sterilizer. The heat exchanger heats hot water. The return pipe is connected to the heat exchanger. The return pipe is located upstream of the heat exchanger in the hot water circulation direction. The going pipe is connected to the heat exchanger. The going pipe is arranged downstream from the heat exchanger in the hot water circulation direction. The circulation pump circulates hot water. The sterilizer is placed on the return pipe. The sterilizer sterilizes hot water.

In the water heating device according to one aspect of the present invention, the sterilization device is arranged on the return pipe. That is, hot water in the bathtub before being heated by the heat exchanger passes through the sterilizer. As a result, the sterilizer is less likely to be damaged by heat. Therefore, according to the hot water device according to one aspect of the present invention, the life of the sterilization device can be extended.

The above-mentioned hot water device may further include a hot water pouring circuit for pouring heated clean water into a bathtub. The pouring circuit is connected to the circulation circuit. In the above water heating device, the return pipe may include a first pipe and a second pipe. The second pipe is connected to the first pipe and has a larger flow path resistance than the first pipe. In the above-mentioned hot water device, the sterilization device may be arranged on the second pipe. In the above-mentioned water heating device, the circulation circuit and the hot water pouring circuit may be connected at a portion where the first pipe and the second pipe are connected.

According to this configuration, it is difficult for the heated clean water to flow into the second pipe side. That is, it is difficult for the heated clean water to reach the sterilizer. Therefore, according to this configuration, even if the water heating device is provided with a hot water pouring circuit, damage due to heat of the sterilizer can be suppressed and the life of the sterilizer can be extended.

In the above-mentioned water heating device, the second pipe may be arranged above the first pipe in the direction of gravity. According to this configuration, it is difficult for the heated clean water to reach the sterilizer. Therefore, according to this configuration, even if the water heating device is provided with a hot water pouring circuit, damage due to heat of the sterilizer can be suppressed and the life of the sterilizer can be extended.

In the above water heating device, the circulation circuit may further have a heater. The heater is placed on the return pipe below the sterilizer in the direction of gravity. According to this configuration, the heat of the heater can prevent the sterilizer from freezing.

In the above water heating device, the heater may be provided in the circulation pump. According to this configuration, it is possible to prevent the sterilizer from freezing while preventing the circulation pump from freezing by the heat of the heater.

The above-mentioned hot water device may further include a hot water pouring circuit for pouring heated clean water into a bathtub. The pouring circuit is connected to the circulation circuit. In the above-mentioned water heating device, the circulation pump may be arranged at a portion where the circulation circuit and the pouring circuit are connected. According to this configuration, it is possible to simplify the assembly of the hot water device while preventing the circulation pump and the sterilizer from freezing by the heat of the heater.

In the above hot water apparatus, the heat exchanger may heat hot water by exchanging heat with combustion gas. When hot water is heated by heat exchange with combustion gas, the temperature of hot water becomes higher. Therefore, according to this configuration, the life of the sterilizer can be extended even when the temperature of the hot water becomes high.

According to the hot water device according to one aspect of the present invention, the life of the sterilization device can be extended.

It is a schematic diagram of the hot water apparatus which concerns on embodiment.

(Structure of hot water device according to embodiment)
The configuration of the hot water apparatus according to the embodiment will be described below with reference to FIG.

In addition, at least a part of the embodiments described below may be arbitrarily combined. Further, the dimensional relationships such as length, width, thickness, and depth are appropriately changed for the purpose of clarifying the drawings, and do not represent the actual dimensional relationships.

The solid arrow in FIG. 1 corresponds to the direction of gravity. That is, the fact that it is arranged upward in FIG. 1 means that it is located above in the direction of gravity. Here, the direction of gravity means the direction in which gravity acts.

As shown in FIG. 1, the water heating device according to the embodiment has a circulation circuit 1. The water heater according to the embodiment may have a hot water supply circuit 2. The hot water device according to the embodiment may have a hot water pouring circuit 3. The circulation circuit 1 is connected to the bathtub 4. The circulation circuit 1 is a circuit of hot water that circulates the hot water in the bathtub 4 while heating it. The hot water supply circuit 2 is a hot water circuit for heating clean water. The hot water pouring circuit 3 is a hot water circuit for pouring the heated clean water into the bathtub 4.

The circulation circuit 1 has a heat exchanger 11. The circulation circuit 1 has a return pipe 12 and a forward pipe 13. The circulation circuit 1 has a circulation pump 14. The circulation circuit 1 has a sterilization device 15. The circulation circuit 1 may have a heater 16.

The heat exchanger 11 heats the hot water in the bathtub 4. The heat exchanger 11 may heat hot water by exchanging heat with combustion gas. That is, the burner 17 may be arranged in the vicinity of the heat exchanger 11. However, the configuration in which the heat exchanger 11 heats hot water is not limited to this. For example, the heat exchanger 11 may heat the hot water in the bathtub 4 by arranging a flow path through which a heating medium (for example, hot water having a temperature higher than that in the bathtub 4) flows in the vicinity of the heat exchanger 11. Good.

The return pipe 12 constitutes a flow path through which the hot water of the bathtub 4 circulates. The return pipe 12 is arranged on the upstream side of the heat exchanger 11 in the circulation direction of hot water in the bathtub 4 (the direction of the dotted arrow in FIG. 1). One end of the return pipe 12 is connected to a circulation adapter 41 provided in the bathtub 4. The other end of the return pipe 12 is connected to the heat exchanger 11.

The return pipe 12 may include a first pipe 12a and a second pipe 12b. The first pipe 12a and the second pipe 12b are connected to each other. The second pipe 12b is located downstream of the first pipe 12a in the hot water circulation direction of the bathtub 4. The flow path resistance of the second pipe 12b is larger than that of the first pipe 12a.

More specifically, the second pipe 12b is arranged above the first pipe 12a in the direction of gravity. However, the configuration in which the flow path resistance of the second pipe 12b is made larger than the flow path resistance of the first pipe 12a is not limited to this. The magnitude of the flow path resistance is determined by the magnitude of the pressure loss due to the passage of hot water.

The going pipe 13 constitutes a flow path through which the hot water of the bathtub 4 circulates. The outgoing pipe 13 is arranged on the downstream side of the heat exchanger 11 in the circulation direction of the hot water of the bathtub 4. One end of the outgoing pipe 13 is connected to the heat exchanger 11. The other end of the outgoing pipe 13 is connected to the circulation adapter 41 of the bathtub 4.

The circulation pump 14 circulates the hot water of the bathtub 4 through the return pipe 12, the sterilizer 15, the heat exchanger 11, and the forward pipe 13. The circulation pump 14 is arranged on the path of the return pipe 12 or the forward pipe 13. Preferably, the circulation pump 14 is arranged on the return pipe 12 at a portion where the circulation circuit 1 and the hot water injection circuit 3 are connected (a portion where the first pipe 12a and the second pipe 12b are connected). There is. That is, it is preferable that the circulation pump 14 is arranged on the return pipe 12 on the upstream side in the circulation direction of the hot water of the bathtub 4 with respect to the sterilizer 15.

The sterilization device 15 is a device for sterilizing hot water in the bathtub 4. Specifically, the sterilization device 15 has a housing 15a and a sterilization lamp 15b. The sterilization lamp 15b is a lamp that emits ultraviolet rays that sterilize the hot water of the bathtub 4. For example, the sterilization lamp 15b is a fluorescent lamp that emits ultraviolet rays. The sterilization lamp 15b may be an LED (Light Emitting Diode) that emits ultraviolet rays.

The housing 15a houses the sterilization lamp 15b inside. More specifically, the sterilization lamp 15b is inserted into a protective tube formed of quartz glass or the like arranged inside the housing 15a. Inside the housing 15a, a flow path through which the hot water of the bathtub 4 flows is formed between the inner peripheral surface of the housing 15a and the outer peripheral surface of the protective tube.

The sterilizer 15 is arranged on the path of the return pipe 12. From another point of view, the sterilizer 15 is arranged on the upstream side of the heat exchanger 11 in the circulation direction of the hot water of the bathtub 4.

By arranging the heater 16 on the path of the return pipe 12, the hot water of the bathtub 4 circulating in the return pipe 12 is heated below the sterilizing device in the direction of gravity. More specifically, the heater 16 is arranged on the upstream side in the circulation direction of the hot water of the bathtub 4 with respect to the sterilizer 15. However, the heater 16 does not necessarily have to be arranged on the upstream side of the sterilizing device 15 in the circulation direction of the hot water of the bathtub 4. The heater 16 may be arranged below the sterilizing device 15 in the direction of gravity.

The heater 16 is preferably provided in the circulation pump 14. The heater 16 may be incorporated inside the circulation pump 14 or may be installed outside the circulation pump 14.

The hot water supply circuit 2 has a pipe 21 and a pipe 22. The hot water supply circuit 2 has a heat exchanger 23. The pipe 21 and the pipe 22 form a water flow path for clean water. One end of the pipe 21 is connected to the water supply. The other end of the pipe 21 is connected to the heat exchanger 23. One end of the pipe 22 is connected to a heat exchanger. The other end of the pipe 22 is connected to a curan or the like.

The heat exchanger 23 heats the clean water from the pipe 21. The heat exchanger 23 has the same configuration as the heat exchanger 11. That is, a burner 24 is arranged in the vicinity of the heat exchanger 23, and the heat exchanger 23 may heat the clean water by heat exchange with the combustion gas emitted from the burner 24.

The hot water pouring circuit 3 has a pipe 31. The pouring circuit 3 has a pouring valve 32. The pipe 31 constitutes a water passage path for the clean water heated in the hot water supply circuit 2. One end of the pipe 31 is connected to the pipe 22. As a result, the hot water pouring circuit 3 and the hot water supply circuit 2 are connected. The other end of the pipe 31 is connected to the return pipe 12. Preferably, the other end of the pipe 31 is connected to a portion where the first pipe 12a and the second pipe 12b are connected. As a result, the pouring circuit 3 and the circulation circuit 1 are connected. The hot water pouring valve 32 is arranged on the path of the pipe 31.

(Operation of the hot water device according to the embodiment)
The operation of the hot water apparatus according to the embodiment will be described below.

First, the hot water supply operation will be described. The clean water supplied from the water supply is supplied to the heat exchanger 23 via the pipe 21. The clean water supplied to the heat exchanger 23 is heated in the heat exchanger 23 to become hot water. This hot water is supplied to the curan or the like via the pipe 22.

Next, the hot water filling operation will be described. As in the case of the hot water supply operation, the clean water supplied from the water supply is supplied to the heat exchanger 23 via the pipe 21. The clean water supplied to the heat exchanger 23 is heated in the heat exchanger 23 to become hot water. The pouring valve 32 is in the open state during the hot water filling operation. Therefore, this hot water is supplied to the bathtub 4 through the pipe 31, the first pipe 12a, and the discharge port of the circulation adapter 41. As described above, since the flow path resistance of the second pipe 12b is larger than the flow path resistance of the first pipe 12a, it is difficult for this hot water to flow into the side of the second pipe 12b.

Further, the reheating operation will be described. The hot water of the bathtub 4 is sucked up from the suction port of the circulation adapter 41 by the circulation pump 14 in the direction of the dotted arrow in FIG. The hot water of the bathtub 4 sucked up is supplied to the heat exchanger 11 via the return pipe 12. The hot water in the sucked bathtub 4 is heated in the heat exchanger 11. The hot water in the heated bathtub 4 returns to the bathtub 4 via the outbound pipe 13 and the discharge port of the circulation adapter 41.

The sterilizer 15 is arranged on the return pipe 12 as described above. Therefore, the hot water sucked up from the bathtub 4 passes through the sterilizing device 15 during the reheating operation. The sterilization lamp 15b of the sterilization device 15 irradiates the hot water sucked up from the bathtub 4 with ultraviolet rays. As a result, the hot water in the bathtub 4 is sterilized.

The water heating device according to the embodiment can also perform only the sterilization operation without performing reheating. That is, the hot water device according to the embodiment does not have to operate the heat exchanger 11 in the above-mentioned reheating operation.

(Effect of hot water device according to embodiment)
The basic effect of the water heating device according to the embodiment will be described below.

As described above, the return pipe 12 is arranged on the upstream side of the heat exchanger 11 in the circulation direction of the hot water of the bathtub 4, while the forward pipe 13 is located on the upstream side of the hot water of the bathtub 4 rather than the heat exchanger 11. It is located on the downstream side in the circulation direction. Therefore, the temperature of the hot water in the bathtub 4 flowing through the return pipe 12 is lower than the temperature of the hot water in the bathtub 4 flowing through the outgoing pipe 13. In addition, as described above, the sterilizer 15 is arranged on the path of the return pipe 12. The higher the temperature of the hot water flowing through the sterilizer 15, the more easily the sterilizer 15 is damaged by heat. Therefore, according to the hot water device according to the embodiment, the sterilization device 15 is less likely to be damaged by heat, and the life of the sterilization device 15 can be extended.

The effect when the hot water apparatus according to the embodiment has the hot water pouring circuit 3 will be described below.
As described above, the pouring circuit 3 is connected to the circulation circuit 1 at the portion where the first pipe 12a and the second pipe 12b are connected. As described above, the second pipe 12b has a higher flow path resistance than the first pipe 12a. Therefore, the heated clean water from the pouring circuit 3 mainly flows to the side of the first pipe 12a, and is difficult to flow to the side of the second pipe 12b. The sterilization device 15 is arranged on the second pipe 12b where the heated clean water from the hot water pouring circuit 3 is difficult to flow into. Therefore, in this case, the sterilizer 15 is less likely to be damaged by heat due to the heated clean water from the hot water injection circuit 3, and the life of the sterilizer 15 can be extended.

Even when the second pipe 12b is arranged above the first pipe 12a in the direction of gravity, it is difficult for the heated clean water from the pouring circuit 3 to flow to the side of the second pipe 12b. Therefore, in this case as well, the sterilizer is less likely to be damaged by heat due to the heated clean water from the hot water injection circuit 3, and the life of the sterilizer 15 can be extended.

When the circulation pump is arranged in the part where the circulation circuit 1 and the pouring circuit 3 are connected (the part where the first pipe 12a and the second pipe 12b are connected), it is easy to assemble each pipe. It becomes. Therefore, in this case, the assembly of the water heating device according to the embodiment can be simplified.

The effect when the hot water apparatus according to the embodiment has the heater 16 will be described below.
The heater 16 is arranged below the sterilizing device 15 in the direction of gravity. Therefore, the heat from the heater 16 easily reaches the sterilizer 15. Therefore, in this case, it is possible to prevent the sterilizer 15 from freezing.

When the heater 16 is provided in the circulation pump 14, the heater 16 can prevent not only the sterilizing device 15 but also the circulation pump 14 from freezing.

The effect of the heat exchanger 11 heating the hot water in the bathtub 4 by exchanging heat with the combustion gas in the hot water apparatus according to the embodiment will be described below.

In this case, the temperature of the hot water in the bathtub 4 is compared with other methods (for example, a method in which the heat exchanger 11 exchanges heat with a heating medium such as hot water having a temperature higher than that of the hot water in the bathtub 4). Is easy to rise. That is, the sterilizer 15 is likely to be damaged by heat.

However, in the hot water apparatus according to the embodiment, since the hot water of the bathtub 4 having a higher temperature does not pass through the sterilizer 15, the heat exchanger 11 exchanges heat with the combustion gas to exchange the bathtub. Even when the hot water of No. 4 is heated, the life of the sterilizer 15 can be extended.

The embodiments disclosed this time should be considered as exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of claims rather than the embodiments described above, and is intended to include meaning equivalent to the scope of claims and all modifications within the scope.

1 Circulation circuit, 11 Heat exchanger, 12 Return pipe, 12a 1st pipe, 12b 2nd pipe, 13 Outgoing pipe, 14 Circulation pump, 15 Disinfection device, 15a housing, 15b Disinfection lamp, 16 Heater, 17 Burner , 2 hot water supply circuit, 21 and 22 pipes, 23 heat exchangers, 24 burners, 3 hot water pouring circuits, 31 pipes, 32 hot water pouring valves, 4 bathtubs, 41 circulation adapters.

Claims (5)

It is provided with a circulation circuit that circulates hot water in a bathtub while heating it, and a hot water pouring circuit that is connected to the circulation circuit and pours heated clean water into the bathtub .
The circulation circuit
A heat exchanger that heats the hot water and
A return pipe connected to the heat exchanger and arranged upstream of the heat exchanger in the direction in which the hot water circulates.
An outgoing pipe connected to the heat exchanger and arranged downstream of the heat exchanger in the direction in which the hot water circulates.
A circulation pump that circulates the hot water and
It has a sterilization device that is arranged on the return pipe and sterilizes the hot water.
The return pipe includes a first pipe and a second pipe connected to the first pipe and having a higher flow path resistance than the first pipe.
The second pipe is arranged above the first pipe in the direction of gravity.
The sterilization device is arranged on the second pipe.
A water heating device in which the circulation circuit and the hot water pouring circuit are connected at a portion where the first pipe and the second pipe are connected . Equipped with a circulation circuit that circulates hot water in the bathtub while heating it
The circulation circuit
A heat exchanger that heats the hot water and
A return pipe connected to the heat exchanger and arranged upstream of the heat exchanger in the direction in which the hot water circulates.
An outgoing pipe connected to the heat exchanger and arranged downstream of the heat exchanger in the direction in which the hot water circulates.
A circulation pump that circulates the hot water and
A sterilizer that is placed on the return pipe and sterilizes the hot water,
And a heater for heating the lower in the gravity direction than the sterilization apparatus of the hot water circulating the return pipe, the water heater. The water heating device according to claim 2 , wherein the heater is provided in the circulation pump. Further provided with a pouring circuit connected to the circulation circuit and pouring heated clean water into the bathtub.
The water heating device according to claim 3 , wherein the circulation pump is arranged at a portion where the circulation circuit and the pouring circuit are connected. The water heating device according to any one of claims 1 to 4 , wherein the heat exchanger heats the hot water by exchanging heat with combustion gas.

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