JP2604222B2 - Water heater - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a non-circulating type hot water supply apparatus which supplies hot water to a hot water tap and a shower, and is provided with a remote controller for setting a tapping temperature near each of the hot water tap and the shower.

(Prior art) A non-circulating hot water supply device that unidirectionally supplies hot water from a water heater to a hot water tap or a shower, etc., is provided with a shower and a place such as a kitchen or a washroom equipped with a hot water tap. In some cases, a remote controller is provided in a bathroom or the like to set a tapping temperature at each location. In this type of non-circulating type hot water supply apparatus, there is a problem that when a high-temperature hot water is used by operating a remote controller on a hot water tap side while a shower is being used at an appropriate temperature, a hot water temperature from the shower becomes too hot. In order to avoid such a problem, for example, Japanese Utility Model Publication No. 60-8263
As shown in Japanese Patent Application Laid-Open Publication No. H11-189, there is a remote controller on the shower side provided with a switch for setting the tap water temperature in preference to the remote controller on the hot water tap side.

(Problems to be Solved by the Invention) In such a conventional technique, when the switch is switched to the shower-side remote controller prior to use and the temperature is set to a high temperature during use on the hot-water tap side (for example, in order to use a large amount of showers), When using mixed water with a mixing faucet, set the tap water temperature from the water heater to a considerably high temperature), and the tap water temperature from the hot water tap becomes too hot, which surprises the user on the hot water tap side. There's a problem. In addition, there are two types of remote controllers, one with a priority switch and its auxiliary device, and the other without this. Production is troublesome, and management of inventory and distribution is troublesome. There is.

In the present invention, the plurality of remote controllers are all the same,
It is an object of the present invention to solve each of these problems by selecting the lowest temperature among a plurality of temperatures set in this way.

(Means for Solving the Problems) For this purpose, the hot water supply apparatus according to the present invention, as shown in FIG. 1, has a non-circulating hot water supply in which a hot water tap 21 or a shower 22 is provided at each of a plurality of branched ends. Water heater 10 for supplying hot water to pipe 20
And, in the water heater provided with a plurality of remote controllers 35 each having a hot water temperature setting device 36 provided in the vicinity of each hot water tap 21 or the shower 22, all the remote controllers 35 are the same as each other, Hot water temperature selecting means 2 for selecting the lowest temperature among the temperatures set by each of the hot water temperature setting devices 36, and one hot water temperature sensor provided closer to the water heater 10 than the branch position of the hot water supply pipe 20 31 and hot water temperature control means 1 for controlling the output of the water heater 10 so that the temperature detected by the hot water temperature sensor becomes the temperature selected by the hot water temperature selecting means 2. Is what you do.

Each of the remote controllers 35 is provided with a power switch 38, and the tapping temperature selection means 2 is provided with a remote control provided with the power switch when only one of the power switches 38 is active. The temperature set by the hot water temperature setting device 36 of the heater 35 is selected, and each of the power switches is selected.
When more than one of the 38 is active at the same time, each remote controller 35 provided with the plurality of power switches
The lowest temperature among the temperatures set by the hot water temperature setting device 36 is selected. The hot water temperature control means 1 selects the temperature detected by the hot water temperature sensor 31 by the hot water temperature selecting means 2. The output of the water heater 10 may be controlled so as to reach a temperature.

(Operation) Hot water temperature selection means 2 is a hot water temperature setting device of each remote controller 35
Select the lowest temperature among the temperatures set by 36,
The hot water temperature control means 1 controls the output of the water heater 10 so that the temperature detected by the hot water temperature sensor 31 becomes the temperature selected by the hot water temperature selection means 2, and the hot water tap 21 or the shower 22
Do hot water supply. Power switch 38 on each remote control 35
When the power switch 38 is activated and the number of the remote controllers 35 is one, the tapping temperature selection means 2 selects the temperature set by the hot water temperature setting device 36 of the remote controller 35. When there are a plurality of remote controllers 35 in which the power switch 38 is activated, the tapping temperature selecting means 2 selects the lowest of the temperatures set by the hot water setting device 36 of the plurality of remote controllers 35. The hot water temperature control means 1 controls the output of the water heater 10 so that the temperature detected by the hot water temperature sensor 31 becomes the temperature selected by the hot water temperature selecting means 2, and the hot water tap 21 or Hot water is supplied to the shower 22.

(Effect of the Invention) As described above, according to the present invention, since the tap water of the lowest temperature among the hot water temperatures set by the plurality of temperature setting devices is provided, the hot water tap provided on the non-circulating hot water supply pipe or Even if the set temperature of the remote controller provided near one of the showers is increased, the temperature of the hot water from another hot water tap or shower will not be unexpectedly heated and the user will not be surprised. In addition, since all the remote controllers are the same, cost reduction by mass production is possible, and the labor required for inventory and distribution management is also reduced. Further, according to the configuration in which the power switch is provided in each remote controller, the number of hot water temperature setting devices that are simultaneously enabled is reduced, so that the possibility that the tap water temperature becomes too low than desired is reduced.

(Embodiment) Hereinafter, the present invention will be described with reference to a first embodiment shown in FIGS. 2 to 5.

As shown in FIG. 2, a gas burner 13 is provided in a lower portion of a case 11 forming a combustion chamber of the instantaneous water heater 10, and a main solenoid valve 15, a proportional solenoid valve 17 arranged in series from a gas supply source side.
Fuel gas is supplied by a gas supply path 14 having a main solenoid valve 16, and combustion air is supplied by an electric fan 18 provided below the case 11. The source solenoid valve 15 and the main solenoid valve 16 are solenoid valves that open and close only, and the proportional solenoid valve 17 has a gas burner 13 whose opening continuously changes according to the control current.
To change the amount of gas supplied to the system. Also fan 18
Is to supply combustion air in an amount corresponding to the gas supply amount by continuously changing the rotation speed.

A water flow sensor 32 is provided in a water supply pipe 23 connected to the inlet side of the fin tube type heat exchanger 12 provided in the case 11 above the gas burner 13. The non-circulating hot water supply pipe 20 connected to the outlet side is branched into a plurality, and at each end, a hot water tap 21 installed in a washroom or a kitchen and a shower 22 installed in a bathroom or the like are provided. One common to each hot water tap 21 and the shower 22 is located on the water heater 10 side from any branch position of the hot water supply pipe 20.
Individual hot water temperature sensors 31 are provided. The water supply from the water supply pipe 23 is heated by the gas burner 13 when passing through the heat exchanger 12 and reaches a predetermined temperature to supply the hot water from the instantaneous water heater 10 unidirectionally. The hot water is passed through.
Although illustration is omitted, in front of each hot water tap 21 and the shower 22,
A manual mixing tap for mixing cold water with hot water from hot water supply pipe 20 is provided. The upper part of the case 11 above the heat exchanger 12 is connected to an exhaust pipe (both not shown) via a hood.

The electronic control unit 30 for controlling the operation of the instantaneous water heater 10 includes a central processing unit (CPU), a read-only memory (ROM), a writable memory (RAM), and an interface, and includes a drive unit (all not shown) and the like. As shown in FIG.
The solenoid valves 15 to 17, the fan 18, two remote controllers 35, a water flow sensor 32 and a hot water temperature sensor 31 are connected. The ROM of the electronic control unit 30 stores a control program and various constants necessary for controlling the operation of the instantaneous water heater 10, and the RAM stores various variables to be described later. Electronic control unit 30
The CPU according to the control program inputs signals from each remote controller 35 and each sensor 31, 32, etc., performs a predetermined calculation, and sends each signal to each of the solenoid valves 15 to 17, the fan 18, each remote controller 35, etc. To control the operation of the instantaneous water heater 10.

Each remote controller 35 has exactly the same structure as each other,
In the embodiment, as shown in FIG. 3, a hot water temperature setting device 36 and indicator lamps 37a and 37b for combustion and abnormality are provided, respectively. One remote controller 35 is provided near the hot water tap 21 to adjust the temperature of hot water to the hot water tap 21, and the other remote controller 35 is provided near the shower 22 and goes to the shower 22. It is for adjusting the tapping temperature.

4 and 5 are flowcharts of a control program for controlling the operation of the instantaneous water heater 10, whereby the operation of the first embodiment will be described.

FIG. 4 is a flowchart of the main program.
When the power switch of the electronic control unit 30 is turned on, the CPU resets each variable to 0 or a predetermined initial value and starts the control operation according to the main program. First, at step 100, the CPU detects the presence or absence of a water flow through the water supply pipe 23 by the water flow sensor 32. If the hot water tap 21 and the shower 22 are both closed and no water flow is detected, the control operation does not proceed,
If the hot water tap 21 or the shower 22 is opened to detect the flow of water equal to or more than a predetermined minimum amount, the process proceeds to step 101, where the CPU opens the original and main solenoid valves 15 and 16 and sets the proportional solenoid valve 17 to a predetermined ignition opening. Then, the fan 18 is operated at a predetermined rotation speed at the time of ignition, and an ignition device (not shown) is operated for a predetermined time to ignite the gas ejected from the gas burner 13. Next, the CPU checks in step 102 whether or not the gas burner 13 is operating by a flame sensor (not shown).
Proceeding to the 103 side, steps 103 to 105 are repeated while the water flow sensor 32 detects a minimum amount of water flow.

In step 103, as described later, the CPU sets each of the temperatures T ₁ and T ₁ set by the hot water setting device 36 of each remote control device 35,
Select T ₂ from the hot water temperature T, the temperature detected by the hot water temperature sensor 31 in step 104 compares this hot water temperature T, controls the opening of the proportional solenoid valve 17 so that the detected temperature is the hot water temperature T To control the gas supply to the gas burner 13,
Further, the amount of combustion air is controlled by changing the rotation speed of the fan 18 so as to obtain a predetermined air-fuel ratio.

If both the hot water tap 21 and the shower 22 are closed, the control operation proceeds from step 105 to steps 106 and 107, and the CPU closes each of the solenoid valves 15 to 17 to stop the combustion, and stops for a predetermined time (for example, 5 to 5 minutes).
When the post-purging of (minute) is completed, the fan 18 is stopped and the control operation returns to step 100. After the start of post-purge, the above operation is repeated each time the water flow sensor 32 detects a water flow of a minimum amount or more.

If no flame is detected in step 102, the CPU advances the control operation to step 108, where each of the solenoid valves 15 to
When 17 is closed, an abnormality is displayed by the abnormality lamp 37b,
The control operation is stopped until the cause is manually eliminated in step 109. If the cause is removed and a predetermined return operation is performed, the CPU returns to step 100 and restarts the control operation.

Next, the details of the operation of selecting the hot water temperature in step 103 in the first embodiment having two remote controllers 35 shown in FIG. 3 will be described with reference to the flowchart of FIG. In step 110, the CPU sets each hot water temperature setting device 36 of both remote controllers 35.
Read each temperatures T _1, T ₂ set by, in the subsequent step 111 to 113, compares the level of both temperature and selects lower the temperatures T ₁ or T ₂ of the as tapping temperature T. Then, the CPU returns the control operation to step 104 in FIG. 4, and controls the output of instantaneous water heater 10 so that the temperature of hot water supplied to hot water supply pipe 20 becomes hot water temperature T. This first embodiment is a remote controller
Although the description has been given of the case where there are two 35s, the number of the remote controllers 35 may be three or more according to the number of the hot water taps 21 and the showers 22, and in that case, the CPU is provided with the respective hot water temperature setting devices of the respective remote controllers 35. Three
The lowest temperature among the temperatures set in 6 is selected as the tapping temperature T.

According to the first embodiment, a plurality of remote controllers 35 are provided.
Since the tap water having the lowest temperature among the tap water temperatures set by the tap water setting devices 36 is made, the tap temperature at a certain tap location is lower than the temperature set by the corresponding remote controller 35 provided. Unexpectedly high temperatures will not surprise the user.

Next, a second embodiment will be described with reference to FIGS. 4, 6, and 7. FIG. In the second embodiment, a remote controller 35 having a structure different from that of the first embodiment is used, and the flowchart of the tapping temperature selection is changed as shown in FIG. It is.

As shown in FIG. 6, each remote controller 35 of the second embodiment is obtained by adding a power switch 38 and a power lamp 37c to the remote controller 35 of the first embodiment, and all of them are the same as each other.
When each power switch 38 is turned on, the electronic control unit 30 starts operating at the same time as the remote controller 35 is activated.

The flowchart of the main program shown in FIG.
The description is omitted because it is the same as that of the first embodiment.
Only the details of the operation of tapping temperature selection 3 will be described with reference to the flowchart of FIG. The two remote controllers 35 are the same except that the installation locations are different.
Let us call it the remote controller 35 and the other the second remote controller 35.

First, a case where only the power switch 38 of the first remote controller 35 is turned on and only the first remote controller 35 is in operation will be described. Proceed with this case the CPU controls the operation from step 120 to step 121,126,127, reads the temperature T ₁ set by the first remote control 35 of hot water temperature setting unit 36, selects the temperature T ₁ as the hot water temperature T . Then, the CPU returns the control operation to step 104 in FIG. 4, and operates the instantaneous water heater 10 so that the temperature of the hot water supplied to the non-circulating hot water supply pipe 20 becomes the hot water temperature T (= T ₁ ).

Next, when only the power switch 38 of the second remote controller 35 is turned on to activate only the second remote controller 35, the CPU
The control operation proceeds from step 120 to step 128,129,130 is a temperature T ₂ that is set by the hot water temperature setting device 35 of the second remote controller 35 is selected as the hot water temperature T, the hot water temperature to the hot water supply pipe 20 is The instantaneous water heater 10 is operated so that T (= T ₂ ).

When both the power switches 38 of the first and second remote controllers 35 are turned on, the CPU advances the control operation from step 120 to steps 121 and 122, and sets the control operation by each hot water temperature setting device 36 of both remote controllers 35. The read temperatures T ₁ and T ₂ are read. In the following steps 123 to 125, the lower one of the _two temperatures T ₁ and T ₂ is selected as the tapping temperature T, and the hot water supply pipe 20 is selected.
The instantaneous water heater 10 is operated so that the temperature of the hot water to the outlet becomes T.

If both power switches 38 of both remote controllers 35 are turned off, the CPU executes the control operation from step 120.
After step 128, the process proceeds to steps 106 and 107, where the solenoid valves 15 to 17 are closed to stop combustion, and post-purging is performed for a predetermined time.

Also in the second embodiment, three or more remote controllers 35 may be provided according to the number of hot water taps 21 and showers 22, and in that case, the power switch 38 of any one of the remote controllers 35 may be provided.
When only the power is turned on, tapping of the temperature set by the hot water temperature setting device 36 of the remote controller 35 is performed, and when the power switch 38 of the plurality of remote controllers 35 is turned on,
The CPU outputs the lowest temperature of the hot water set by each hot water setting device 36 of the plurality of remote controllers 35. Similarly to the first embodiment, in the second embodiment, the tapping temperature is unexpectedly heated to a temperature higher than the temperature set by the corresponding remote controller 35, and the user is not surprised. Also, since the power switch 38 is turned on and is in an operating state, it is usually a part of all the remote controllers 35, so that the tap water temperature at a certain place can be controlled by the corresponding remote controller. It is possible that the temperature will be lower than the set temperature.
It is reduced as compared with the first embodiment.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a configuration of a hot water supply device according to the present invention.
2 to 5 show a first embodiment of the present invention, FIG. 2 is an overall view showing a schematic structure, FIG. 3 is a front view of a remote controller,
FIG. 4 is a flowchart of the main program, and FIG. 5 is a flowchart of the sub program. 6 and 7 show a second embodiment, FIG. 6 is a front view of a remote controller, and FIG. 7 is a flowchart of a subprogram. DESCRIPTION OF SYMBOLS 1 ... Hot water temperature control means, 2 ... Hot water temperature selection means, 10 ... Hot water heater (instantaneous hot water heater), 20 ... Hot water supply pipe, 21 ... Hot water tap, 22 ... Shower, 31 ... Hot water temperature sensor, 35 ... remote controller, 36 ... hot water temperature setting device, 38 ... power switch.

Claims (2)

(57) [Claims] 1. A water heater for supplying hot water to a non-circulating hot water supply pipe provided with a hot water tap or shower at each of a plurality of branched ends,
In the hot water supply device provided with a plurality of remote controllers provided near the hot water taps or showers and each having a hot water temperature setting device, the remote controllers are all the same as each other, and the hot water temperature setting devices Hot water temperature selecting means for selecting the lowest temperature among the set temperatures, one hot water temperature sensor provided closer to the water heater than the branch position of the hot water supply pipe, and a temperature detected by the hot water temperature sensor Is provided with hot water temperature control means for controlling the output of the water heater so that the temperature becomes the temperature selected by the hot water temperature selection means. 2. A water heater for supplying hot water to a non-circulating hot water supply pipe provided with a hot water tap or a shower at each of a plurality of branched ends,
In a water heater provided with a plurality of remote controllers each having a hot water temperature setting device provided near each of the hot water taps or showers, the remote controllers are all identical to each other provided with a power switch, and When only one of the power switches is active, the temperature set by the hot water setting device of the remote controller provided with the power switch is selected, and a plurality of the power switches are activated. When simultaneously operating, the tapping temperature selecting means for selecting the lowest temperature among the temperatures set by the hot water setting devices of the remote controllers provided with the plurality of power switches, and the hot water supply pipe. One hot water temperature sensor provided on the water heater side of the branch position, and the temperature detected by the hot water temperature sensor is a temperature selected by the tapping temperature selecting means. Hot water supply apparatus comprising the hot water temperature control means for controlling an output of the water heater so.