JP3960468B2 - Central hot water supply system using open hot water storage tank - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a large-capacity central hot water supply system in, for example, a high-rise building such as a hotel, and more particularly to a central hot water supply system using an open hot water storage tank.
[0002]
[Prior art]
As a conventional example of a large-capacity central hot water supply system in a high-rise building such as a hotel, there is a system as shown in FIG. 5, for example. This central hot water supply system includes a sealed hot water storage tank a and a pump b. The hot water supply circulation system c is provided for each zone of the building. Reference sign d is a pressure reducing valve for zoning.
[0003]
Although not shown in the drawings, as another system, an open-type hot water storage tank is provided at the height of the building, and a hot water supply path with a zoning pressure reducing valve is provided on the lower floor side from the height of the building. Each hot water supply system has a hot water return path to an open hot water storage tank.
[0004]
[Problems to be solved by the invention]
Such a conventional central hot water supply system has the following problems.
1. In the former central hot water supply system, it is necessary to install a device such as a sealed tank and a pump for each zone in an appropriate pressure range (for example, the 7th to 8th floors of the building), so a machine room is required on the intermediate floor.
2. Since the sealed tank needs to satisfy the peak value of the hot water supply amount for each zone, the hot water storage capacity of the tank as a whole building becomes large.
3. If an accident that the hot water storage tank ruptures occurs in the intermediate machine room, the water damage is great.
4). The closed tank becomes a pressure vessel and must be carried in and out as a single unit, and in order to cope with future renewals, a space for carrying in and out that is not always necessary must be secured.
5). In the latter central hot water supply system, it is necessary to return the circulating water to the open hot water storage tank installed at the top of the building for each zone, which increases the required pump head and increases the required power.
The present invention aims to solve such problems.
[0005]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides an open hot water storage tank at a high place in a building, and configures a hot water supply path provided with a zoning pressure reducing valve on the lower floor side from the open hot water storage tank. A hot water return path with a circulation pump is provided in the open-type hot water storage tank from the lower floor side of the dredging path, and a hot water supply circulation system with a circulation pump and heating means is constructed for each zone. We propose a central hot water supply system using an open hot water storage tank that connects a hot water supply circulation system with a hot water supply path with a check valve.
[0006]
In the present invention, an open type hot water storage tank is installed at a high place in the building, and a hot water supply path is provided with a zoning pressure reducing valve on the lower floor side from the open type hot water storage tank. The present invention proposes a central hot water supply system using an open-type hot water storage tank in which a hot water supply circulation system is provided, and each hot water supply circulation system has a part of the hot water tank path as a part of the path.
[0007]
Further, in the present invention, an open type hot water storage tank is installed at a high place of the building, and a hot water supply path is formed from the open type hot water storage tank to the lower floor side, and a circulation pump is provided from the lower floor side of the hot water supply path to the open type hot water storage tank. And a hot water supply circulation system provided with a circulation pump and heating means for each zone, and a hot water supply passage and each hot water supply circulation system were connected by a hot water supply route having a pressure reducing valve. A central hot water supply system using an open hot water storage tank is proposed.
[0008]
Further, in the present invention, in the above configuration, the circulation pump of the hot water supply circulation system is controlled by the hot water temperature sensor, and the circulation pump and the heating means are operated when the hot water temperature of the hot water supply circulation system falls below the set temperature. Propose that.
[0009]
According to the present invention described above, hot water stored in an open-type hot water storage tank installed at a high place in a building is supplied to a hot water circulation system configured for each zone through a hot water tank path. If necessary, hot water heated by the heating means is circulated by a circulation pump and supplied to a hot water supply point.
[0010]
Since each hot water supply circulation system is a closed system, the circulation pump may be of a small capacity, so that the required power can be reduced, and the circulation pump is heated when the hot water temperature of the hot water supply circulation system falls below the set temperature. The power can be further reduced by adopting a configuration that operates together with the means.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a system explanatory diagram conceptually showing the first embodiment of the central hot water supply system according to the present invention.
Reference numeral 1 denotes an open-type hot water storage tank. The open-type hot water storage tank 1 is installed in a high place of a high-rise building such as a hotel, such as a rooftop or a penthouse, and is configured to supply hot water by a gravity method. A hot water supply path 2 is formed from the open hot water storage tank 1 to the lower floor side, and a hot water return path 4 is formed from the lower floor side of the hot water supply tank path 2 to the circulation pump 3 in the open hot water storage tank. The hot water supply path 2 is configured to perform zoning with a certain number of floors in order to ensure the optimum hot water supply pressure on each floor, and is provided with pressure reducing valves 5a, 5b, 5c for each zone.
[0012]
Reference numerals 6a, 6b and 6c denote hot water supply circulation systems in zones corresponding to the downstream sides of the pressure reducing valves 5a, 5b and 5c, respectively. These hot water supply circulation systems 6a, 6b and 6c include a circulation pump 7 and heating means, respectively. 8 is provided. The heating means 8 can be constituted by a heat exchanger or a heater using an appropriate heat source. A hot water supply path 10a provided with a check valve 9 is connected to the downstream side of each pressure reducing valve 5a, 5b, 5c of the hot water supply path 2 and the downstream side of each heating means 8 of the hot water circulation system 6a, 6b, 6c. , 10b, 10c. Reference numeral 11 denotes a hot water supply location of each hot water supply circulation system 6a, 6b, 6c.
[0013]
Reference numeral 6 denotes a hot water supply circulation system configured in the zone on the uppermost floor, and this hot water supply circulation system 6 is a return hot water provided with a hot water supply path 12 and a circulation pump 13 between an open hot water storage tank 1 and a hot water supply point 11. The path 14 is connected.
[0014]
In the above configuration, the hot water stored in the open hot water storage tank 1 installed at the height of the building reaches the lower floor side via the hot water supply path 2 and the open hot water storage tank via the hot water return path 4 by the circulation pump 3. Reflux to 1.
[0015]
In the hot water supply circulation systems 6a, 6b, 6c of each zone, hot water heated to a predetermined temperature by the heating means 8 is circulated by the circulation pump 7 as necessary, and hot water is supplied from the hot water supply location 11.
Then, according to the amount of hot water supplied from the hot water supply location 11, hot water in the hot water supply passage 2 is supplied to each hot water supply circulation system 6a, 6b, 6c through a hot water supply route 10 provided with a check valve 9.
In the hot water supply circulation system 6, hot water in the open hot water storage tank 1 is directly supplied to the hot water supply location 11, and is returned to the open hot water storage tank 1 through the hot water return path 14 by the circulation pump 13.
[0016]
In the above hot water supply system, since the zoning pressure reducing valves 5a, 5b and 5c are provided in the hot water supply path 2, the hot water storage tank is not installed for each zone, but the open hot water storage tank 1 installed at a high place, An optimum hot water supply pressure can be obtained for each hot water supply circulation system 6a, 6b, 6c in each zone, and each hot water supply circulation system 6a, 6b, 6c in each zone is hermetically sealed and is configured to be completed for each zone.
[0017]
As described above, in the hot water supply system according to the present invention, the hot water storage tanks may be centralized for each zone, and the open type may be installed on the rooftop of a building, a penthouse, etc., and a hot water storage tank is installed for each zone. There is an advantage as shown below.
1. Since it is not necessary to install a hot water storage tank for each zone, the required space can be reduced and the space can be effectively used for other purposes.
2. By concentrating hot water storage tanks, heat dissipation loss from the tank body can be reduced.
3. By concentrating hot water storage tanks, the peak simultaneous use rate decreases, and the overall capacity of the hot water storage tank can be reduced.
4). For this reason, the installation cost of the hot water storage tank is reduced, the installation cost as a whole is reduced, the number of maintenance is reduced, and the maintenance is facilitated.
5). By concentrating hot water storage tanks, the probability of water leakage accidents can be reduced, and even in the event of a water leakage accident, the installation of hot water storage tanks outdoors (on the roof) will affect the living room. Absent.
6). Since the hot water storage tank can be handled by a panel type tank, it is easy to carry in and out during future renewal.
7). Since the hot water circulation system in each zone is hermetically sealed and completed for each zone, the circulation pump required for each hot water circulation system may be of a small capacity, and the required power of the pump is small. Therefore, in the conventional open-type hot water supply system, the required pump head increases and the pump power increases, and the power cost increases, whereas in the hot water supply system according to the present invention, the required power of the pump as a whole can be reduced, Electricity costs are also reduced.
8). The equipment required for the intermediate floor of the building can be installed in a small space because only a small-capacity circulation pump and heating means such as a heat exchanger or heater can be installed. It is also possible to eliminate the room.
9. Since the hot water supply circulation system of each zone is completed for each zone, a plurality of zones can be stacked in the same manner, so that even a high-rise building can be installed.
[0018]
Next, FIG. 2 is a system explanatory diagram conceptually showing a second embodiment of the central hot water supply system according to the present invention.
In the second embodiment, in the configuration of the first embodiment, a hot water temperature sensor 15 is provided in each of the hot water supply circulation systems 6, 6a, 6b, 6c in each zone, and these hot water supply circulation systems 6 are provided. , 6a, 6b, 6c is controlled by the hot water temperature sensor 15, and when the hot water temperature of the hot water supply circulation system 6, 6a, 6b, 6c is lower than the set temperature, the circulation pump 7 and the heating means 8 are used. Is configured to operate. In this embodiment, the circulating pump 3 in the hot water return path 4 is also controlled by the hot water temperature sensor 15. Since other components are the same as those in the first embodiment, in FIG. 2 showing the second embodiment, the same components as those in the first embodiment are the same as those in FIG. The description which attaches a code | symbol and overlaps is abbreviate | omitted.
[0019]
In the second embodiment, as described above, when the hot water temperature of the hot water supply circulation system 6, 6a, 6b, 6c is lower than the set temperature, the circulation pump 7 and the heating means 8 are operated. This eliminates the need for continuous operation and reduces the required power. The operation of the heating means 8 may be configured to be directly controlled by the hot water temperature sensor 15 or may be configured to detect the flowing water due to the operation of the circulation pump 7 to perform the operation.
[0020]
Next, FIG. 3 is a system explanatory view conceptually showing a third embodiment of the central hot water supply system according to the present invention.
In the third embodiment, an open hot water storage tank 1 is installed at a high place of a building, and a zoning pressure reducing valve 5a, 5b, 5c is provided on the lower floor side from the open hot water storage tank 1 in a hot water supply path 2 Although it is the same as that of the said 1st Embodiment to comprise, in this 3rd Embodiment, it is an open type from the lower floor side of the hot water supply channel | path 2 indispensable in the said 1st Embodiment. The hot water supply path 4 provided with the circulation pump 3 is not configured in the hot water storage tank.
[0021]
As in the first embodiment, a hot water supply circulation system including the circulation pump 7 and the heating means 8 is configured for each zone. In the third embodiment, each hot water supply circulation system is configured. 16a, 16b, 16c has a configuration in which a part of the hot water supply path 2 is a part of the path. For this reason, in the first embodiment, the check valve 9 provided in the hot water supply path 10 is configured as a path in the hot water supply circulation system 16a, 16b, 16c. Further, as shown in FIG. 3, the hot water supply circulation system 16 configured in the zone on the uppermost floor has the same configuration as the other hot water supply circulation systems 16a, 16b, and 16c.
[0022]
In this configuration, hot water heated to a predetermined temperature by the heating means 8 is circulated by the circulation pump 7 and supplied from the hot water supply point 11 as necessary in the hot water supply circulation systems 16, 16 a, 16 b, 16 c of each zone. The hot water in the hot water supply path 2 is replenished through the check valve 9 in accordance with the amount of hot water supplied from the hot water supply location 11.
[0023]
In the third embodiment, in addition to having the advantages described in the first embodiment, each of the hot water supply circulation systems 16, 16a, 16b, and 16c uses part of the hot water supply path 2 as a route. Since it is configured as a part, in the circulation operation of each hot water supply circulation system 16, 16a, 16b, 16c, the hot water temperature in the hot water tank path 2 which is a part of the path can be set to a predetermined temperature, thus Since there is no need to configure the hot water return path 4 provided with the circulation pump 3 from the lower floor side of the hot water supply path 2 to the open hot water storage tank 1, there is an advantage that energy saving and maintenance efficiency can be further improved.
[0024]
In the third embodiment, the configuration of the second embodiment is applied, and the operation of the circulation pump 7 of each hot water supply circulation system 16, 16a, 16b, 16c in the third embodiment is changed to hot water. It can be set as the structure controlled by a temperature sensor.
[0025]
Next, FIG. 4 is a system explanatory diagram conceptually showing a fourth embodiment of the central hot water supply system according to the present invention.
In the fourth embodiment, an open-type hot water storage tank 1 is installed at a high place in a building, and a hot water supply path 2 is constructed from the open-type hot water storage tank 1 to the lower floor side. Although it is the same as that of the said 1st Embodiment to comprise the hot water return path | route 4 which provided the circulation pump 3 in the open-type hot water storage tank from this, in this 4th Embodiment, it is 1st-3rd. Unlike the embodiment, the hot water supply passage 2 is not provided with a pressure reducing valve for zoning.
[0026]
The hot water circulation systems 26a, 26b, 26c in each zone include the above-described circulation pump 3, the heating means 8, and the check valve 9, and the hot water supply path 2 and the hot water circulation systems 26a, 26b in each zone. , 26c are connected by a hot water supply path 20 provided with zoning pressure reducing valves 25a, 25b, 25c. Further, the hot water supply circulation system 26 configured in the zone on the uppermost floor side is similar to the first embodiment in that the hot water supply path 12 and the circulation pump 13 are provided between the open-type hot water storage tank 1 and the hot water supply location 11. The hot water path 14 is connected.
[0027]
In the above configuration, in the hot water supply circulation systems 26a, 26b, and 26c of each zone, hot water heated to a predetermined temperature by the heating means 8 is circulated by the circulation pump 7 as necessary, and hot water is supplied from the hot water supply station 11. The hot water in the hot water supply passage 2 is replenished via the hot water supply route 20 having the pressure reducing valve 25a in accordance with the amount of hot water supplied from the hot water supply location 11.
[0028]
In the fourth embodiment, in addition to having the advantages described in the first embodiment, the zoning pressure reducing valves 25a, 25b, and 25c are not provided in the hot water supply path 2 but from the hot water supply path 2. Since the hot water supply path 20 extending to each hot water supply circulation system 26a, 26b, 26c is provided, the size of the pressure reducing valve can be reduced, and even if the pressure reducing valve corresponding to any one of the zones breaks down, the effect is There is an advantage that it is limited to only the zone and does not affect other zones.
[0029]
Also in the fourth embodiment, the configuration of the second embodiment is applied, and the operation of the circulation pump 7 of each hot water supply circulation system 26a, 26b, 26c in the fourth embodiment is performed by a hot water temperature sensor. It can be set as the structure controlled.
[0030]
【The invention's effect】
As described above, the present invention has been installed on an intermediate floor in a conventional hot water supply system by applying a hot water supply method using an open hot water storage tank in a central hot water supply system in a high-rise building such as a hotel, etc. By eliminating the need for a hot water storage tank, the following effects can be obtained.
1. Since it is not necessary to install a hot water storage tank for each zone, the required space can be reduced and the space can be effectively used for other purposes.
2. By concentrating hot water storage tanks, heat dissipation loss from the tank body can be reduced.
3. By concentrating hot water storage tanks, the peak simultaneous use rate decreases, and the overall capacity of the hot water storage tank can be reduced.
4). For this reason, the installation cost of the hot water storage tank is reduced, the installation cost as a whole is reduced, the number of maintenance is reduced, and the maintenance is facilitated.
5). By concentrating hot water storage tanks, the probability of water leakage accidents can be reduced, and even in the event of a water leakage accident, the installation of hot water storage tanks outdoors (on the roof) will affect the living room. Absent.
6). Since the hot water storage tank can be handled by a panel type tank, it is easy to carry in and out during future renewal.
7). Since the hot water circulation system in each zone is hermetically sealed and completed for each zone, the circulation pump required for each hot water circulation system may be of a small capacity, and the required power of the pump is small. Therefore, in the conventional open-type hot water supply system, the required pump head increases and the pump power increases, and the power cost increases, whereas in the hot water supply system according to the present invention, the required power of the pump as a whole can be reduced, Electricity costs are also reduced.
8). The equipment required for the intermediate floor of the building can be installed in a small space because only a small-capacity circulation pump and heating means such as a heat exchanger or heater can be installed. It is also possible to eliminate the room.
9. Since the hot water supply circulation system of each zone is completed for each zone, a plurality of zones can be stacked in the same manner, so that even a high-rise building can be installed.
[0031]
In the invention of claim 2, by adopting a configuration in which the circulation pump and the heating means are operated when the hot water temperature of the hot water supply circulation system falls below the set temperature, it is not necessary to continuously operate, and the required power is reduced. Reduction can be achieved.
[0032]
In the invention of claim 3, since it is not necessary to form a hot water return path provided with a circulation pump from the lower floor side of the hot water supply path to the open hot water storage tank, it is possible to further improve energy saving and maintenance efficiency. .
[0033]
In the invention of claim 4, the size of the pressure reducing valve can be reduced, and even when the pressure reducing valve corresponding to any one of the zones breaks down, the influence is limited only to that zone, and the other zones Has no effect.
[Brief description of the drawings]
FIG. 1 is a system explanatory diagram conceptually showing a first embodiment of a central hot water supply system according to the present invention.
FIG. 2 is a system explanatory diagram conceptually showing a second embodiment of the central hot water supply system according to the present invention.
FIG. 3 is a system explanatory diagram conceptually showing a third embodiment of the central hot water supply system according to the present invention.
FIG. 4 is a system explanatory diagram conceptually showing a fourth embodiment of the central hot water supply system according to the present invention.
FIG. 5 is a system explanatory diagram conceptually showing an example of a conventional central hot water supply system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Open type hot water storage tank 2 Hot water supply path 3 Circulation pump 4 Hot water return path 5a, 5b, 5c Pressure reducing valve 6, 6a, 6b, 6c Hot water circulation system 7 Circulation pump 8 Heating means 9 Check valve 10 Hot water path 11 Hot water supply point 12 Hot water supply path 13 Circulation pump 14 Return hot water path 15 Hot water temperature sensors 16, 16a, 16b, 16c Hot water supply circulation system 20 Hot water supply paths 25a, 25b, 25c Pressure reducing valves 26, 26a, 26b, 26c Hot water supply circulation system

Claims (4)

An open-type hot water storage tank is installed at the height of the building, and a hot water supply path with a zoning pressure reducing valve is provided on the lower floor side from the open-type hot water storage tank, and an open-type hot water storage tank is connected from the lower floor side of the hot water supply path. A hot water supply path comprising a circulation pump and a hot water supply circulation system provided with a circulation pump and heating means for each zone, and a hot water supply path provided with a check valve between the hot water supply path and each hot water supply circulation system Central hot water supply system using an open hot water storage tank characterized by connecting by route An open hot water storage tank is installed at the height of the building, and a hot water supply path with a zoning pressure reducing valve is provided on the lower floor side from the open hot water storage tank. A hot water supply with a circulation pump and heating means for each zone A central hot water supply system using an open-type hot water storage tank, which constitutes a circulation system, and each hot water supply circulation system has a structure in which a part of the hot water supply path is a part of the path. An open-type hot water storage tank is installed at the height of the building, and a hot water supply path is constructed from the open-type hot water storage tank to the lower floor, and a circulation pump is installed in the open-type hot water storage tank from the lower floor of the hot water supply path. A hot water supply circulation system comprising a circulation pump and a heating means is configured for each zone, and the hot water supply passage and each hot water supply circulation system are connected by a hot water supply route having a pressure reducing valve. Central hot water supply system using open hot water storage tank 2. A structure in which a circulation pump of a hot water supply circulation system is controlled by a hot water temperature sensor, and the circulation pump and heating means are operated when the hot water temperature in the hot water supply circulation system falls below a set temperature. Central hot water supply system using the open type hot water storage tank of any one of -3

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