JP2004089500A - Home disaster prevention system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reliably and smoothly operate a disaster preventing sprinkler by preferentially feeding water not to water usage apparatuses but to the disaster preventing sprinkler when a fire occurs, while keeping a configuration wherein a pre-existing water supply pipe is branched and connected to the disaster preventing sprinkler. <P>SOLUTION: When a thermosensitive function or a smoke detecting function of the sprinkler is operated, the operation signal is transmitted to a water heater by cable or radio wave. When the operation signal is received, the water heater reduces a water amount with a water amount control valve, and also stops a hot water filling means, so that water is preferentially supplied to a water division pipe to be connected to the disaster preventing sprinkler. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hot water supply device that is branched from a water main to a general pipe and a disaster prevention pipe, and is provided with a water quantity control valve downstream of the general pipe and that restricts the amount of water supply or hot water supply, or the hot water supply to the bathtub in addition to the water quantity control valve. This is related to a domestic disaster prevention system in which a hot water supply device with hot water beam means for supplying water is installed, and a household sprinkler is installed downstream of the disaster prevention piping.
[0002]
[Prior art]
It has been required by the Fire Service Law to install disaster prevention sprinklers in residential areas of 11 stories or more, such as condominiums. However, in recent years, fires have caused loss of houses or casualties due to delays in escape. In order to prevent this, sprinklers for disaster prevention have been installed even in residential areas such as detached houses that are not required by the Fire Service Law enforcement order.
[0003]
As such sprinklers for disaster prevention, there are a closed sprinkler head, an open sprinkler head, a water discharge type sprinkler head, and the like.For example, in the case of a closed sprinkler head, a water supply pipe piped to each house is branched in the middle and branched. The wet type, in which water is supplied before the disaster prevention sprinkler is started inside the water pipe, and the water is not supplied before the disaster prevention sprinkler is started inside the water pipe, There are a dry type and a pre-operation type in which water is supplied when the disaster prevention sprinkler is started.
These disaster prevention sprinklers are connected to water supply pipes that branch from water supply pipes that are piped to each house, and part of the water that is supplied to each house from the water supply pipes when the disaster prevention sprinkler operates. I use it to water the fire.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional disaster prevention sprinkler, a water supply pipe piped to each house branches off halfway, and a part of water supplied to each house from the water supply pipe is used to extinguish a fire. Since water was sprayed, there was a risk that a sufficient amount of water required for extinguishing the fire could not be sprayed in the event of a fire.
In other words, a large number of water-use appliances used in each house are connected to the water supply pipe installed in each house, and when these water-use appliances are used, a fire occurs and the disaster prevention sprinkler operates. In such a case, there was a possibility that a sufficient amount of water required for fire extinguishing could not be supplied to the disaster prevention sprinkler because the water-using equipment was still supplied.
The above-mentioned problem is caused by branching the water supply pipe and connecting it to the disaster prevention sprinkler, and cannot be solved by connecting the disaster prevention sprinkler to a dedicated pipe separate from the water supply pipe. However, supplying such dedicated piping to each house requires enormous infrastructure development and is not practical.
Therefore, the present invention has a configuration in which an existing water supply pipe is branched and connected to a disaster prevention sprinkler, but in the event of a fire, water can be preferentially sent to the disaster prevention sprinkler over water-using equipment, thereby providing a disaster prevention sprinkler. Can be operated reliably and smoothly.
[0005]
[Means for Solving the Problems and Their Functions and Effects]
In order to achieve the above object, a first aspect of the present invention is to branch from a water main to a general pipe for a faucet and a disaster prevention pipe for a sprinkler, and the general pipe is provided with water supply or hot water supply downstream from the branch portion. A household fire prevention system provided with a hot water supply device provided with a water amount control valve for reducing the amount of water, and a sprinkler having a thermal sensing function or a smoke sensing function downstream of the branch portion in the disaster prevention pipe. In the above, when a thermal sensing function or a smoke sensing function of the sprinkler is activated, an activation signal is transmitted to the hot water supply device via a wire or wirelessly, and the hot water supply device receives the activation signal. Since the amount of water is reduced by the water amount control valve, in the event of a fire, the amount of water in the water heater is reduced so that water can be preferentially supplied to the sprinkler for disaster prevention. The operation of the sprinkler can be reliably performed and smooth.
[0006]
Claim 2 is characterized in that the main pipe is branched into a general pipe for a faucet and a disaster prevention pipe for a sprinkler, and the general pipe is provided with a hot water means for supplying hot water to a bathtub downstream from the branch section. In a home disaster prevention system provided with a hot water supply device provided and a sprinkler having a thermal sensing function or a smoke sensing function downstream of the branch portion in the disaster prevention pipe, the thermal sensing of the sprinkler is provided. When the function or the smoke-type sensing function is activated, the activation signal is transmitted to the hot water supply device via a wire or wirelessly, and when the hot water supply device receives the activation signal, the hot water dispenser is stopped. In the event of a fire, the hot water supply system automatically stops hot water so that water can be preferentially sent to the disaster prevention sprinkler. Ensuring the operation and smoothly performed.
[0007]
Claim 3 is a water flow control valve which is branched from a water main to a general pipe for a faucet and a disaster prevention pipe for a sprinkler, and the general pipe is provided with a water supply or hot water supply downstream of the branch. And a hot water supply device provided with a hot water beam means for supplying hot water to the bathtub, and a household provided with a sprinkler having a thermal sensing function or a smoke sensing function downstream of the branch in the disaster prevention pipe. In the disaster prevention system, when the thermal sensing function or the smoke sensing function of the sprinkler is activated, an activation signal is transmitted to the hot water supply device via a wire or wirelessly, and the hot water supply device receives the activation signal. When receiving water, the water flow control valve is used to reduce the amount of water and stop the hot water means, so that water can be sent preferentially to the disaster prevention sprinkler. It can be carried out reliably and smoothly the operation of the disaster prevention for the sprinkler.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram in which a water heater according to one embodiment of the present invention is applied to a gas water heater.
As shown in the figure, the gas water heater supplies the water heated by the water heater main body 1, the water supply pipe 3 for supplying water from the water supply source to the water heater main body 1, and the heat exchanger 7 to the hot water tap 68. And a hot water supply pipe 5.
[0009]
Further, a heat exchange pipe is provided with a bypass pipe 43 branched from the water supply pipe 3 in the water heater main body 1 and connected to the hot water supply pipe 5 without passing through the heat exchanger 7, and a junction of the bypass pipe 43 and the hot water supply pipe 5. A mixing valve 41 is provided for mixing and controlling the hot water heated by the heater 7 and the water sent from the bypass pipe 43 by a stepping motor M driven based on a command pulse.
[0010]
In addition, the water supply pipe 3 has an incoming water temperature sensor 25 for detecting the temperature Tc of water from the water supply source, a water amount sensor 27 for detecting the amount Q of water, and an upstream side of the mixing valve 41 of the hot water supply pipe 5. A heat exchanger outlet temperature sensor 45 for detecting the temperature Th at the outlet of the heat exchanger 7, a mixed hot water temperature detection sensor 29 for detecting the mixed hot water temperature Tm after mixing, and a tapping amount downstream of the mixing valve 41. Is provided with a water amount control valve 50 for adjusting the pressure.
[0011]
The water heater main body 1 also includes a fan 9 for supplying air required for combustion.
Further, an igniter 15 necessary for ignition and a frame rod 17 for detecting the presence or absence of a flame are provided above the burner 13.
A gas supply pipe 23 for supplying gas to the burner 13 is provided. The gas supply pipe 23 has a proportional valve 19 for varying the amount of gas to be supplied and an electromagnetic valve for starting / stopping gas supply. 21 are provided respectively.
[0012]
Further, the gas water heater includes a hot-water pipe 4 connected to the additional heating pipe 2 from a hot-water pipe 5 in the hot-water heater main body 1 downstream of the mixing valve 41. A bath water amount sensor 8 for detecting a flow rate flowing through the pipe 4 and a hot water solenoid valve 6 for starting / stopping hot water supply are provided.
On the other hand, the reheating pipe 2 has an end connected to the bathtub 12, a pump P for circulating hot water in the bathtub 12, a water level sensor 10 for detecting a water level in the bathtub 12, and a hot water temperature in the bathtub 12. A bath temperature sensor 49 for detection is provided.
[0013]
The remote controller 33 also includes an operation switch 35, a temperature setting switch 39 for setting a set temperature Ts of the hot water supplied from the hot-water tap 68 and a bath set temperature Tfs of the hot water to be supplied to the bathtub 12, and a bathtub for the bathtub. A hot water filling switch 36 that is turned on when the hot water in the bathtub 12 is reheated, and a display unit 37 that displays a set temperature Ts, a bath set temperature Tfs, and the like.
[0014]
The gas water heater further includes a proportional valve 19, a solenoid valve 21, and a solenoid valve 21 based on detection signals (Tc, Q, Th, Tm, Ts, and Tfs) from the sensors 25, 27, 45, and 29 and the temperature setting switch 39. A control unit 31 for controlling the fan 9, the mixing valve 41 and the like is also provided.
[0015]
The controller 31 and each sensor and the proportional valve 19, the solenoid valve 21, the fan 9, the mixing valve 41, and the like can transmit and receive signals by wire or wireless (not shown).
Further, an operation signal 69 of the sprinkler 66 is sent to the control unit 31 by wire or wirelessly.
[0016]
The configuration of the present invention will be specifically described with reference to FIG.
From the water main 61, a general pipe 62 for a faucet and a disaster prevention pipe 63 for a sprinkler are provided in a branched manner.
Further, a hot water supply device 65 that supplies hot water to a hot water tap 68 via a hot water supply pipe 70 is connected to the general pipe 62.
Then, when a sprinkler 66 provided in the disaster prevention pipe 63 is activated in the event of a fire, an activation signal 69 is sent to the hot water supply device 65.
[0017]
Next, the operation during the operation of the sprinkler will be described with reference to FIG.
In step S1, it is determined whether the sprinkler 66 having the thermal sensing function or the smoke sensing function has sensed a fire.
If it is determined in step S1 that the sprinkler 66 has detected a fire, an operation signal 69 is transmitted to the control unit 31 of the water heater main body 1 in step S2.
Then, in step S3, the water amount control valve 50 for adjusting the amount of hot water from the water heater main body 1 is fully closed, and in step S4, the hot water electromagnetic valve 6 is closed when the water heater main body 1 is feeding hot water to the bathtub. Stop the hot water beam.
Therefore, water can be preferentially sent to the disaster prevention sprinkler, and a home disaster prevention system that can operate the disaster prevention sprinkler reliably and smoothly can be constructed.
[Brief description of the drawings]
FIG. 1 is a block diagram in which a water heater according to one embodiment of the present invention is applied to a gas water heater. FIG. 2 is a control block diagram of a control unit 31 according to one embodiment of the present invention. FIG. 1 shows an embodiment.
DESCRIPTION OF SYMBOLS 1 ... Water heater main body 8 ... Hot water electromagnetic valve 31 ... Control part 50 ... Water amount control valve 61 ... Water main pipe 62 ... General piping 63 ... Disaster prevention piping 65 ... Hot water supply device 66 ... Sprinkler 69 ... Operating signal

Claims (3)

A branch is provided for branching a water supply pipe drawn from a water main into a household into a general pipe for a faucet and a disaster prevention pipe for a sprinkler, and the general pipe has a water supply or hot water supply amount downstream from the branch. A hot water supply device provided with a water flow control valve for restricting air flow, wherein the disaster prevention piping includes a sprinkler having a thermal sensing function or a smoke sensing function downstream of the branch portion, When the thermal sensing function or the smoke sensing function is activated, an activation signal is transmitted to the hot water supply device via a wire or wirelessly, and the hot water supply device receives the activation signal, and the water control valve A home-use disaster prevention system characterized by reducing the amount of water. A hot water supply device is provided, which is branched from a water main to a general pipe for a faucet and a disaster prevention pipe for a sprinkler, and the general pipe is provided with a hot water means for supplying hot water to a bathtub downstream from the branch section. Along with being provided, in the home fire prevention system provided with a sprinkler having a thermal sensing function or a smoke type sensing function downstream of the branch portion in the disaster prevention pipe, the thermal sensing function of the sprinkler or a smoke type When the sensing function is activated, the activation signal is transmitted to the hot water supply device via a wire or wirelessly, and the hot water supply device stops the hot water beaming means when receiving the activation signal. For disaster prevention system. The main pipe is branched into a general pipe for a faucet and a disaster prevention pipe for a sprinkler. A hot water supply device provided with a hot water beam means for supplying is provided, and the disaster prevention pipe is provided with a thermal sensing function or a sprinkler having a smoke sensing function downstream of the branch portion in a home disaster prevention system, When the thermal sensing function of the sprinkler or the smoke sensing function is activated, an activation signal is transmitted to the hot water supply device via a wire or wirelessly, and when the hot water supply device receives the activation signal, A domestic disaster prevention system, characterized in that the amount of water is reduced by the water amount control valve and the hot water stirrer is stopped.

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