JPS59180229A - Water heater - Google Patents

Abstract

PURPOSE:To enable to supply the hot water with predetermined temperature and flow rate by only selecting a hot water supplying site by a method wherein the error in feed water flow rate due to the change of feed water temperature is corrected. CONSTITUTION:When a hot water supplying site is selected and a hot water tap is open, the downward movement of the valve body of a valve mechanism 13a closes the contacts of a microswitch 13b, resulting in outputting a water flow detection signal to detect the start of feeding of water to a controller 12, which transmits the water flow detection signal to detect the start of feeding of water to a gas flow control valve 9 so as to open the valve body of the gas flow control valve 9 in order to start the combustion of a burner 8. On the other hand, immediately water starts to be fed to a feed water pipe 3, the flow of the water rotates an impeller 10, in response to the rotation of which a reed switch 11 is turned on and off, resulting in sending the pulse-shape feed water flow detection signals to the controller 12. The controller 12 counts the number of pulses for a predetermined period of time in order to calculate the feed water flow. The calculated feed water flow is compared with the set value of feed water flow, which is preset in accordance with the hot water supplying site and the error between said calculated flow and set value is calculated by the controller in order to control the feed water flow.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a water heater, and more particularly, to a water heater that supplies hot water at a preset hot water temperature and hot water flow rate depending on the hot water supply location.

[Technical background of the invention and its problems]

Conventional water heaters detect the temperature of hot water during hot water supply and supply gas)
I+ was adjusted appropriately to control the hot water source.

Therefore, if the water supply flow k changes greatly due to adjustment of the opening degree of the valve body of the hot water supply port, the load may exceed the capacity. In such a case, hot water is supplied at a lower temperature than the preset hot water source, which is extremely inconvenient in practical terms.

By the way, generally kitchens, washrooms, bathrooms (bathtub sinks,
It is known that the required hot water supply flow rate and hot water supply source according to each place of use (such as a shower) and the state of use are approximately constant, as shown in an example of the table below.

Table 1 Therefore, for example, kitchen/washroom, bath (tub sink)
In addition to displaying each hot water supply location, the hot water supply flow rate and hot water supply source according to each hot water supply location can be set in advance, and the user can select this hot water supply location display in advance, and the hot water supply location will be displayed. It is practical and convenient to supply hot water at the desired hot water source and flow rate regardless of external changes. - In addition, hot water sources have different grades depending on people's preferences, and hot water supply flow rate varies slightly depending on the usage of hot water, so the set values for hot water source and hot water IL amount If adjusted appropriately, the obtained value is even more convenient for practical use.

[Purpose of the invention]

The present invention has been developed in view of the above-mentioned circumstances, and it is possible to maintain water supply temperature in a stand HI, washroom, bathroom (shower), etc., regardless of changes in water supply temperature due to external changes such as differences in seasons with large temperature differences such as winter. It is possible to supply hot water from a hot water supply source of 19 degrees depending on the valley water supply facility far, and it is possible to supply hot water from a hot water supply source of 19 degrees depending on the temperature of the hot water supply facility. Hot water can be supplied with the desired hot water source and hot water flow rate by simply selecting the hot water supply H1 setting without any control, and the set values for the hot water source and hot water flow rate can be adjusted as appropriate. The purpose is to provide water heaters.

[Summary of the invention]

4 In order to achieve the above-mentioned object, the invention is as follows (it
¥ will be made.

Water supply flow when hot water is supplied! i: a water supply flow rate detector that detects
A hot water supply source detector detects the hot water supply source during hot water supply, and the water supply flow rate detection signal output from the water supply flow rate detector is compared with the water supply flow rate set value appropriately set according to the hot water supply location, and the water supply source detector detects the hot water supply source. A water supply flow rate controller that compares the hot water source detection signal output from the detector with the hot water source set value that is set appropriately according to the hot water supply location, and adjusts the hot water source and hot water flow rate to the respective set values. a controller that outputs a number and a hot water temperature control signal, respectively; a water supply flow rate controller that controls the water supply flow rate in accordance with the number 1' control fFi for the water supply flow that can be output from this controller; and a gas amount controller that controls the supply gas according to the hot water temperature control signal,
It is configured to supply hot water at a preset hot water source and hot water supply flow rate depending on the hot water supply location.

[Practice of the invention]

The water heater according to the VC of the present invention will be explained below with reference to FIGS. 11A to 3.

FIG. 1 is an overall configuration diagram showing the configuration of an actual example of a water heater according to the present invention, and the reference numeral "" in the figure indicates the water heater. water heater 1
A water supply pipe 3 and a gas supply pipe 4 are accommodated in the goose song 2. One end of this water supply pipe 3 is connected to a water supply source, for example, a water supply pipe 3.
5, and one end of the external gas supply pipe 4 is connected to a gas pipe 6 of a gas supply source, so that tap water and gas are supplied to the water heater 1. . The other end of the above water supply hunting '3 is a heat exchanger! It is connected to the inlet of a7, and a VC is connected to supply water to the heat twister 7. Other cac J
1 work 11. Is the heat exchange mentioned above one end of 隘郎゛4? Below A 7↑
'115 is connected to a burner 8 which is disposed adjacently on all four sides, and the combustion of this burner 8 causes the above-mentioned thermal drinker 7 to be heated.
It is designed to heat the water supplied to the A gas flow controller M'9 consisting of a solenoid valve is interposed in the middle of the gas supply pipe 4 (11) to adjust the gas level supplied to the burner 8.

Upstream side (water pipe 4 connection side)
From the downstream side, the blade j! 10. Water flow detector 1
3. A water supply flow rate controller 14 is installed. The impeller 10 is installed so as to rotate in a fixed direction due to the flow of water in the water supply pipe 3. A reed switch 11 is disposed adjacent to the impeller 10. This reed switch 11 (c) is a proximity switch whose contacts are opened and closed by 100 rotations of the impeller, and the water supply 6f detection signal of the ξ pulse waveform formed by the opening and closing operation of this contact is transmitted. Control described later? Send to 1÷12. The controller 12 counts the number of pulses of this flow rate detection signal within a predetermined period of time, for example, about 2 seconds to 3 seconds, and detects the water supply flow rate of the three water supply pipes.

A water flow detector J3 provided downstream of the impeller 10 detects the start and stop of water supply. This water flow detector 13i1-4 is a valve mechanism 1.3a provided with a valve body that moves up and down in accordance with the start and stop of water supply flowing inside the water supply pipe 3.
The microswitch 13b which opens and closes the contacts according to the vertical movement of the valve body of this valve mechanism 13a sounds, and when the water supply to the water supply pipe 3 is started, the valve body is moved in the radial direction by the water flow of this supply water. It is pushed downward (see FIG. 1), and the downward movement of the valve body closes the contacts of the microswitch 131), which outputs a water flow detection signal to the controller 12 to start water supply. Water supply pipe 3 further downstream of this water flow detector 13
The water supply flow rate controller 14 provided at The water supply flow rate control motor 14 b O) is driven by the valve mechanism 14 . The opening degree of the valve body a is controlled to control the water supply flow rate.

The outlet of the heat exchanger 7 is connected to one end of the discharge pipe 15, and the other end is connected to the hot water supply pipe 1 which is piped outside the casing 2.
6, and this hot water supply pipe 6 is provided with an appropriate number of hot water faucets 17, for example, in the kitchen, 7 sinks, a bathroom, etc.A hot water supply faucet 17 is installed in the middle of the discharge pipe 15 to detect the hot water temperature. The controller 18 is installed to detect the entire temperature of the hot water discharged from the heat exchanger 7, and outputs the hot water source detection number 8 to the control number 12.The controller 12 receives this hot water source detection signal. It compares the water supply source set value set in advance according to all the hot water supply locations, calculates the error, and outputs a hot water source control signal in the direction of correcting this error to the above set value to the nozzle meter 9. do.

The set values for the hot water supply temperature and the water supply flow rate described above are set, for example, within the ranges shown in FIG. 2.

Figure 2 shows the hot water supply characteristics of the water heater. In the figure, A shows all the set values for the hot water temperature and hot water flow rate for the kitchen/washroom, B for the bathroom (shower), and CH bathroom (bathtub). . In other words, the hot water temperature setting is around 40C in kitchen/washroom A, and around 40T in bathroom (shower) B. The front and rear bathroom (tub sink) C is set at around 70υ. On the other hand, the set value for the hot water supply flow rate is 5 to 617 m for bathroom H [・washroom A! n,
Bathroom (shower) B is approximately 10 t-/M, and area 7 and 8 (bathtub sink) C is 5-6 t7n moe. The solid line in FIG. 2 shows all the hot water supply characteristics in summer, and the broken line shows the characteristics in winter. Also, the arrows attached to points B and C indicate the range of the hot water source set value, and the range of this set value is the same as that of the controller electrically connected to the controller 12. It can be adjusted by repeating step 2f). The hot water supply flow rate can be adjusted by operating a fine flow rate adjustment probe 21 provided on the controller 19.

The operation of the above-described embodiment of the present invention will now be described with reference to the flowchart of FIG.

First, when a hot water supply location such as the kitchen, washroom or shower is selected for hot water supply and the hot water faucet is opened, tap water is supplied to the water supply pipe 3 and water supply begins. When the water supply starts, the valve body of the valve 13a is pushed down toward the lower blade in the radial direction (see Figure 1), and the downward movement of the valve body closes the contact of the micro switch 13b, and the water flow is measured to start the water supply. The signal is output to the total controller 12. The controller 12 transfers this water supply start signal to the full gas control valve 9, fully opens the valve body of the gas control valve 90, and turns on the burner 8.
Let the combustion start completely.

On the other hand, when water supply to the water supply pipe 3 is started, the impeller 10 rotates due to the flow of this water supply, and in response to the rotation of the impeller 10, the reed switch 11 opens and closes, and the water supply flow rate of the −ξ pulse waveform is detected. A signal is sent to the controller 12.

The i++lI controller J2 calculates the water supply flow rate by counting the number of pulses of this water supply flow rate controller % for a predetermined period of time, compares it with the water supply flow rate setting value set in advance according to the hot water supply location, and calculates the total error between the two. , the water supply H in the direction to correct this error, and the quantity control number are output to the water supply flow rate control motor 14b. Water supply flow rate control motor 14. b Valve mechanism 14 a O)
The opening degree of the valve body is appropriately controlled to control the water supply flow rate. The supplied water whose flow rate has been appropriately controlled flows into the inlet of the heat exchanger 7, and the hot water heated by the heat exchanger 7 is transferred to the discharge pipe 15. @
Hot water is supplied from the above-mentioned hot water faucet 17 via the hot water supply 16.

In the discharge pipe 15, the hot water supply temperature is detected by the hot water supply source detector 18, and the hot water supply source detection number a is outputted to the controller 2.

The controller] 2 compares this hot water temperature detection signal with a hot water source setting value preset according to the hot water supply location, calculates the error between the two, and adjusts the gas amount with a hot water source control signal in the direction of completely correcting this error. M) Send to square 9. The gas amount control valve 9 appropriately controls the opening degree of the valve body (not shown) of the valve mechanism based on the hot water supply temperature control side 1-8 to control the gas supply, and adjusts the gas supply according to the hot water supply location. Hot water is supplied by the hot water source and hot water flow rate.

〔Effect of the invention〕

As explained above, the present invention value is 1, and hot water is supplied explicitly with the hot water supply source and hot water supply flow rate set in advance according to the hot water supply location, so hot water supply locations such as the kitchen / situation shield, bathroom (shower) etc. are displayed. Just by making a selection, it is possible to stably supply hot water at a preset hot water source and amount of hot water θ1 regardless of changes in water supply temperature due to seasonal changes such as winter or winter. Unlike traditional water heaters, there is no need to operate the hot water supply faucet to control the flow of water. Just select the hot water supply location and you will be able to supply hot water at a constant flow rate. do.

[Brief explanation of the drawing]

FIG. 1 is a schematic overall configuration diagram of an embodiment of a water heater according to the present invention, and FIG. 2 is a water heater hot water supply characteristic diagram for explaining the hot water supply source of the water heater and the set values of the hot water supply flow rate. 3 is a flowchart for explaining the control of the hot water supply source and hot water flow rate. 1...Water boiler, 2...Casing, 3...Water supply pipe, 4...Gas supply pipe, 5...Water pipe, 6...Gas couple, 7...Heat exchanger , 8...Burner, 9...Gas amount control valve, 1()...Impeller, Moon...Reed switch, ]2...Controller, 13...Water flow detector, 14
...Water supply flow rate controller, 14b...Water supply flow rate 1 mo 1]
Control motor, 15...Discharge fan, 16...Hot water pipe, 1
7... Hot water faucet, 18... Hot water source detector, 19...
・Controller, 20...Hot water source fine adjustment legitimate child, 2】・
...Hot water supply flow rate'v1. Adjustment legitimate child, A... Setting values for the kitchen and washroom, B... Setting values for the bathroom, C.
...Bathroom (bath cypress drop) setting value.

Claims (1)

[Scope of Claims] A water supply flow rate detector that detects the entire water supply flow rate during one hot water supply, a hot water temperature detector that detects the hot water source during hot water supply, a water supply flow rate detection signal output from the water supply flow rate detector and hot water supply. In addition to comparing the water supply flow rate setting value set appropriately according to the location,
Compare the hot water supply detection signal output from the hot water temperature detector with the hot water source setting values set appropriately according to each hot water supply location, and adjust the water supply flow rate to the respective set values for the hot water source and hot water flow rate. A controller that outputs all control signals and water supply flow control signals, a water supply flow rate controller that controls the water supply flow rate in accordance with the water supply flow rate control signal output from the controller, and a hot water supply source control that is output from the controller. It has a gas amount controller that controls the amount of gas supplied according to a signal, and is configured to supply hot water to each hot water supply location at a preset hot water temperature and hot water flow rate depending on the hot water supply location. water heater. 2. The water supply flow rate controller is a valve 8 installed in the water supply line-way.
& structure, and a control motor that appropriately controls the opening degree of this valve mechanism, and is configured to control the water supply flow rate by controlling the opening degree of the valve mechanism of the control motor in response to a water supply flow rate control signal. A water heater according to claim 1. 3. The controller has a controller electrically connected to the controller, and the set values of the hot water source and the hot water flow rate are adjusted by appropriately adjusting the controller. A water heater according to scope 1.