JP2003279144A - Water heater - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water heater for recognizing a saving quantity of fuel saved by a solar heat water heater by solving a problem wherein a user cannot recognize how much the fuel can be saved by the solar heat water heater since the saving quantity of the fuel saved by the solar heat water heater is not wholly displayed by only displaying operation time by turning-on of a lamp arranged in a remote controller for displaying a hot water supply time state though supplying hot water of a preset temperature when setting a hot water supply temperature in the remote controller when remotely controlling a heat source machine in a conventional water heater. <P>SOLUTION: The remote controller remotely controls the water heater, and is provided with a display part for displaying a quantity of the fuel saved by the solar heat water heater. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a solar water heater,
The present invention relates to a hot water supply device provided with a heat source device that heats hot water supplied from the solar water heater and water supplied without passing through the solar water heater by burning fuel to supply hot water.

[0002]

2. Description of the Related Art Conventionally, the amount of heat recovered by a solar water heater greatly depends on the climate and weather, so when the amount of heat recovered by a solar water heater is insufficient for the amount of heat used, a water heater. When the amount of heat recovered by the solar water heater is excessive with respect to the amount of heat used, the water to be supplied is mixed to obtain the required amount of heat. Are known.

[0003]

However, in the conventional hot water supply apparatus, when the hot water supply temperature is set in the remote control for remote operation of the heat source device, hot water is supplied at the set temperature, but the display of the state during hot water supply is distributed to the remote control. It only shows that it is in operation by turning on the installed lamp, and does not show the amount of fuel saved by the solar water heater at all. Therefore, there is a problem that the user cannot recognize how much fuel has been saved by the solar water heater. Therefore, the present invention has been made to solve the above problems, and an object of the present invention is to provide a water heater capable of recognizing the amount of fuel saved by the solar water heater.

[0004]

[Means for Solving the Problems and Their Actions / Effects] In order to achieve the above-mentioned object, claim 1 provides a solar water heater, hot water supplied from the solar water heater and water supplied without passing through the solar water heater. A hot water supply device provided with a heat source device for heating hot water by burning fuel to supply hot water, wherein the heat source device detects a hot water temperature supplied from the solar water heater, and a solar heat source. A water temperature detector that detects the temperature of water supplied without passing through a water heater, a water temperature detector that detects the temperature after mixing the hot water and the water by a mixing valve, and the temperature of hot water A hot water supply temperature detector and a hot water temperature detector, a hot water temperature detector, and a hot water temperature detector are provided, which are provided with a hot water temperature detector, a hot water supply detector, or a water supply detector that detects either the hot water supply amount or the sum of the hot water supply amounts. , Water temperature detector, hot water supply Of the amount of fuel saved by the solar water heater based on the detection values of the water temperature detector and the water amount detector, and the calculation result is displayed on the display unit of the remote controller for remote operation of the water heater. So the user
It is possible to recognize the amount of fuel saved by the solar water heater.

Further, according to the present invention, the display unit of the remote controller for remote operation of the hot water supply device converts the amount of carbon or carbon dioxide that has not been discharged into the environment into the display, so that the user can use the solar heat. It is possible to recognize the amount of carbon or carbon dioxide that has not been discharged into the environment by the water heater. Further, according to claim 3, since the remote control for remotely controlling the water heater is provided with the speaker as the sound generating means, the user can save the amount of fuel and the environment saved by the solar water heater without looking at the remote control. It is possible to recognize the amount of carbon or carbon dioxide that has not been discharged into the air.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a block diagram showing a first embodiment of the present invention. The water heater is provided with a solar water heater 1, and a heat source device 10 for heating hot water supplied from the solar water heater 1 and water supplied without passing through the solar water heater 1 to supply hot water. In addition, one hot water supply device is configured by the remote controller 40 as a remote control means for remotely operating the hot water supply device. The heat source device 10 includes a hot water temperature detector 11 for detecting the temperature of hot water supplied from the solar water heater 1, and a feed water temperature detector 12 for detecting the temperature of water supplied without passing through the solar water heater 1.
, A hot water temperature detector 14 for detecting the temperature of hot water, a water amount detector 15 for detecting the amount of hot water supplied from the solar water heater 1, and a heat amount used by the amount of heat recovered by the solar water heater 1. On the other hand, when there is an excess, the mixing valve 19 for mixing the water to be supplied, the water temperature detector 13 for detecting the temperature after passing through the mixing valve 19, and the heat quantity recovered by the solar water heater 1 are used. The burner 16 burns fuel when the amount of heat is insufficient, the heat exchanger 17 that transfers the amount of heat from the burner 16, and the controller 18 that controls the main body of the heat source device 10. Further, the remote controller 40 for remote operation of the hot water supply device includes a button 42 operated by the user and a display unit 41 for displaying the amount of fuel saved by the solar water heater 1. Further, a remote controller 40 for remotely controlling the control unit 18 and the hot water supply device.
Are linked by a transmission / reception cable 43, and necessary information is exchanged. Although not shown in the figure, the remote control 40 is provided with an up / down switch for setting hot water temperature, and after setting the desired hot water temperature, the hot water tap 3
When 0 is opened, the burner 16 is burned and the hot water temperature detector 11, the feed water temperature detector 12, the incoming water temperature detector 13,
The burner 16 is proportionally controlled based on the detection values of the hot water supply temperature detector 14 and the water amount detector 15, so that hot water of a desired temperature can be obtained. Further, the hot water temperature detector 1
1. Based on the detection values of the feed water temperature detector 12, the incoming water temperature detector 13, the hot water supply temperature detector 14, and the water amount detector 15, the control unit 18 calculates the fuel saving amount saved by the solar water heater 1. , The calculation result is transmitted and received by the cable 43
Is output to the remote controller 40 and displayed on the display unit 41. Specifically, the calculation method will be described. The heat quantity Qa when the solar water heater 1 is passed and the heat quantity Qb when the solar water heater 1 is not passed are compared, and the fuel saving amount is obtained based on the difference. First, the heat quantity Q when passing through the solar water heater 1.
a is calculated based on the following [Formula 1]. Water temperature Tn
Is a temperature obtained by mixing the hot water temperature Th supplied from the solar water heater 1 and the water temperature Tc supplied without passing through the solar water heater 1, and the flow rate Qc is the flow rate of the hot water supplied from the solar water heater 1. Indicates. Next, the amount of heat Qb when the solar water heater 1 is not passed is calculated based on the following [Equation 2]. Then, the fuel saving amount S by the solar water heater 1 is calculated from the calculation result of the heat amount Qa when the solar water heater 1 is passed and the heat amount Qb when the solar water heater 1 is not passed, based on the following [Equation 3]. To do. (Formula 1) Qa = (TM-Tn) × Qc (Formula 2) Qb = (TM-Tc) × Qc (Formula 3) S = (Qb-Qa) ÷ (N × K) Note that N is generally Known fuel consumption (8,24
0 kcal / L), K indicates the efficiency (90%) of the heat source device 10. Therefore, the user can recognize how much fuel has been saved by the solar water heater 1.

FIG. 2 is a block diagram showing a second embodiment of the present invention. The difference from FIG. 1 is that the water amount detector 15 is installed in the middle of the water supply pipe 20, and the configuration is the same as in FIG. Explaining the calculation method specifically, the heat quantity Qa when passing through the solar water heater 1
And the amount of heat Qb when the solar water heater 1 is not passed through are compared, and the amount of fuel saved is calculated based on the difference. First, the heat quantity Qa when passing through the solar water heater 1 is calculated based on the following [Equation 4]. The incoming water temperature Tn is a temperature obtained by mixing the hot water temperature Th supplied from the solar water heater 1 and the feed water temperature Tc supplied without passing through the solar water heater 1, and has a flow rate Q.
d shows the flow rate of the water supplied without going through the solar water heater 1. Next, the heat quantity Qb when the solar water heater 1 is not passed
Is calculated based on the above [Formula 2]. Then, the fuel saving amount S by the solar water heater 1 is calculated from the calculation result of the heat amount Qa when the solar water heater 1 is passed and the heat amount Qb when the solar water heater 1 is not passed, based on the above [Formula 3]. To do. (Formula 4) Qc = Qd × (Tn−Tc) ÷ (Th−Tc) Note that N is a generally known fuel consumption amount (8,24).
0 kcal / L), K indicates the efficiency (90%) of the heat source device 10. Therefore, the user can recognize how much fuel has been saved by the solar water heater 1.

FIG. 3 is a block diagram showing a third embodiment of the present invention. The difference from FIG. 1 is that the water amount detector 15 is installed in the middle of the hot water supply pipe 23, and the water amount detector 15 has the same water amount even if it is installed in the middle of the water inlet pipe 22. But it can be installed. The configuration is the same as in FIG. Explaining the calculation method specifically, the heat quantity Qa when passing through the solar water heater 1
And the amount of heat Qb when the solar water heater 1 is not passed through are compared, and the amount of fuel saved is calculated based on the difference. First, the heat quantity Qa when passing through the solar water heater 1 is calculated based on the following [Equation 5]. The incoming water temperature Tn is a temperature obtained by mixing the hot water temperature Th supplied from the solar water heater 1 and the feed water temperature Tc supplied without passing through the solar water heater 1, and has a flow rate Q.
e indicates the flow rate of hot water supply. Next, the amount of heat Qb when the solar water heater 1 is not passed is calculated based on the above [Formula 2]. Then, the fuel saving amount S by the solar water heater 1 is calculated from the calculation result of the heat amount Qa when the solar water heater 1 is passed and the heat amount Qb when the solar water heater 1 is not passed, based on the above [Formula 3]. To do. (Formula 5) Qc = Qe × (Tn−Tc) ÷ (Th−Tc) Note that N is a generally known fuel consumption amount (8,24).
0 kcal / L), K indicates the efficiency (90%) of the heat source device 10. Therefore, the user can recognize how much fuel has been saved by the solar water heater 1.

Further, the display section 41 of the remote controller 40 shown in FIGS. 1, 2 and 3 can be displayed by converting it into the amount of carbon or carbon dioxide which has not been discharged to the environment by the solar water heater 1. The calculation method will be specifically described below. [Formula 3]
Since the fuel saving amount is calculated from the calculation result of, the carbon C not discharged into the environment is calculated based on the following [Equation 6]. Further, the carbon dioxide CO2 not discharged into the environment is calculated based on the following [Equation 7]. (Equation 6) C = S × 0.68 (kg / L) (Equation 7) CO2 = S × 1.51 (kg / L) Therefore, the user does not emit carbon that is not discharged into the environment by the solar water heater 1 or , Can recognize the amount of carbon dioxide.

FIG. 5 is a block diagram of a remote control device showing an embodiment of claim 3. A speaker 44 as a sound generating means is added to the remote controller 40 shown in FIG. The hot water temperature detector 11, the feed water temperature detector 12, the incoming water temperature detector 13, the hot water temperature detector 14, the water amount detector 1
Based on the detected value of 5, the amount of fuel saved by the solar water heater 1 and the amount of carbon or carbon dioxide not discharged to the environment are calculated by the control unit 18 of the heat source device 10, and the calculation result is calculated. Output to the remote controller 40 via the transmission / reception cable 43, and a speaker 44 as a sound generating means.
To announce. Therefore, the user can recognize the amount of fuel saved by the solar water heater 1 and the amount of carbon or carbon dioxide not discharged to the environment without looking at the remote controller 40.

[Brief description of drawings]

FIG. 1 is a block diagram of a water heater showing a first embodiment of the present invention.

FIG. 2 is a block diagram of a water heater showing a second embodiment of the present invention.

FIG. 3 is a block diagram of a water heater showing a third embodiment of the present invention.

FIG. 4 is a block diagram of a remote controller (remote operation device) showing an embodiment of the present invention.

[Explanation of symbols]

1 ... Solar water heater 10 ... Heat source machine 11 ... Hot water temperature detector 12 ... Water temperature detector 13 ... Inlet temperature detector 14 ... Hot water temperature detector 15 ... Water quantity detector 16 ... Burner 17 ... Heat exchanger 18 ... Control unit 19 ... Mixing valve 20 ... Water pipe 21 ... Hot water pipe 22 ... Inlet pipe 23 ... Hot water supply pipe 30 ... tap 40 ... Remote control 41 ... Display section 42 ... button 43 ... Transmission / reception cable 44 ... speaker

Continued front page    (72) Inventor Michio Ochi             43-1, Uozakihama-cho, Higashinada-ku, Kobe-shi, Hyogo             Inside this Yupro Co., Ltd. F-term (reference) 3L034 CA04

Claims (3)

[Claims] 1. A water heater provided with a solar water heater, and a heat source device for heating hot water supplied from the solar water heater and water supplied without passing through the solar water heater by burning fuel to supply hot water. In the heat source device, a hot water temperature detector for detecting the temperature of hot water supplied from the solar water heater, and a water temperature detector for detecting the temperature of water supplied without passing through the solar water heater, An inlet water temperature detector that detects the temperature after mixing the hot water and the feed water with a mixing valve, a hot water temperature detector that detects the temperature of hot water, the amount of the hot water, or the amount of the water supply, or a total thereof. And a water amount detector for detecting any of the amount of hot water supply, which is saved by the solar water heater based on the detection values of the hot water temperature detector, the hot water temperature detector, the hot water temperature detector, and the water amount detector. Fuel savings achieved And a calculation result is displayed on a display unit of a remote controller for remotely operating the water heater. 2. The hot water supply apparatus according to claim 1, wherein the display unit of the remote controller for remote operation of the hot water supply apparatus displays the amount of carbon or carbon dioxide that has not been discharged into the environment. Water heater 3. The hot water supply apparatus according to claim 1,
The remote control for the remote control of the water heater was equipped with a speaker as a sound generating means that announces by converting the amount of fuel saved by the solar water heater and carbon or carbon dioxide that was not discharged into the environment into an announcement. Water heater characterized by