JPS5824760A - Supplementary heat source arrangement of hot water system utilizing solar heat - Google Patents

Abstract

PURPOSE:To enable to control the hot water supply temperature throughout the year by a method wherein, when the temperature of water supplied from a heat absorbing part is higher than the predetermned temperature, the quantity of said supplying water is reduced and as well as the quantity of heat released from a heat source is controlled and at the same time the mixing quantity of cold water is also controlled. CONSTITUTION:An instantaneous gas hot water supplier 2 as a supplementary heat source is so constituted that a water temperature sensor 6, a water pressure responding switch 7 and a water flow rate change-over valve 8 are provided in a hot water supply pasage 5 and yet a mixing part 12, at which the water of a feed water passage 11 branched off from a feed water passage to the heat absorbing part 1 and equipped with a water flow rate controlling valve 14 therein is added, and a first hot water temperature sensor 10 are provided in a hot wate supply passage 9 as as well as a gas flow rate controller 15 controlled by means by an electronic controlling part 17 is arranged to a burner 16. When the temperature of the water supplied from the heat absorbing part is higher than the set temperature, the valve 8 is closed and the burner 16 is started to burn so as to bring the hot water temperature measured with the sensor 10 up to the predetermined value under the control of the controller 15 and finally the water flow from the feed water passage 11 is adjusted by controlling the valve 14 based upon the hot water temperature measured with a sensor 13 in order to control the temperature of the water drawn-off from a faucet 3 for hot water to the set value.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an auxiliary heat source device for a solar hot water system.

Conventionally, hot water supply using a solar hot water system (hereinafter referred to as a solar system) requires an auxiliary heat source because of the lack of heat during periods other than summer.

System I was equipped with an auxiliary heat source with a hot water temperature control function. However, in the summer, the water temperature in the solar system reaches high temperatures, and in order to use showers at the appropriate temperature, the auxiliary heat source must be turned off.

Additionally, there was the inconvenience of having to manually operate the mixing faucet.

In view of the above points, an object of the present invention is to provide an auxiliary heat source device for a solar hot water system that can automatically obtain a desired hot water temperature even in summer.

That is, in the present invention, the water temperature sensor detects the temperature of the water supplied from the solar heat absorbing part, and when the detected temperature is lower than the set temperature/degrees, h1ζ controls the heat source so that the water heater reaches the desired set temperature. Let it be.

Also, when the detected temperature is higher than the set temperature.

The water volume switching valve is closed to reduce the amount of water supplied from the heat absorption section, and the φζ heat source is controlled so that the temperature detected by the first hot water temperature detection sensor becomes a predetermined constant temperature higher than the water temperature from the previous heat absorption section. At the same time, the water supply temperature detected by the second hot water temperature detection sensor reaches the desired set temperature by controlling the opening degree of the water control valve and adjusting the mixing amount of water that does not pass through the heat absorption part. It is configured so that

An embodiment of the present invention will now be described based on the drawings. (1
) is the heat absorption part of the solar system, and the heat absorption part (1)
The water heated by 5. The hot water is supplied to the hot water tap (4) via an instantaneous gas water heater (!) as an auxiliary heat source.

A water temperature sensor (6) is installed in the hot water supply path (S) from the heat absorption part (1) to the heat exchanger (4) of the gas water heater (t).
, a water pressure response switch (7), and a water switch valve (8) are arranged in this order from the upstream side to the downstream side, and from the heat exchange @ (4) to the water supply WII tap (3). The water supply path (9) leading to the hot water supply path (9) is connected to a first hot water temperature sensor ring and a mixing section (2) connected to a water supply path (B) for mixing water that does not go through the solar system into the hot water supply path (9). ) and the 20th m temperature sensor (b) are arranged in the order of (b) from the upstream side to the F stream side. A water flow control valve (b) is installed in the water supply channel (2).
The heat exchanger (4) uses a burner (to) to which gas is supplied via the gas amount control section (2) as a heat source.

Water temperature sensor (6), water pressure response switch (7), water flow selector valve (8), fill hot water temperature sensor, @2 hot water temperature sensor (b), water flow control valve α4. and gas amount control section (to)
is electrically connected to an electronic control unit (b), and is interlocked with a hot water temperature controller for setting the temperature of hot water discharged from the hot water tap (3) via the electronic control unit (b). Note that the trout is a water supply channel for supplying water to the heat absorption section (1).

The electronic control unit (b) detects the incoming water temperature (hereinafter referred to as incoming water temperature) from the heat absorption part (1) of the solar system detected by the water temperature sensor (hereinafter referred to as the incoming water temperature) and the set water temperature of the #temperature controller (hereinafter referred to as the setting). If the incoming water temperature is lower than the set temperature, the water pressure response switch (7) is turned on, the water switch valve (8) is opened, the water flow control valve shaft is closed, Then, the burner starts to burn 8 volts.The gas amount control unit (2
) and adjust the combustion temperature of the 1ζ burner (to) so that the temperature of hot water coming out of the hot water tap (aj) reaches the set temperature.On the other hand,
If the incoming water temperature is higher than the set temperature, the water pressure response switch (7) is turned on and the water flow selector valve (8) is closed at once.
At the same time as starting the combustion of the first
The gas amount control unit (2) is controlled so that the hot water temperature detected by the hot water temperature sensor becomes a predetermined constant MKC (for example, 80° C.) to control the combustion of the burner. 8
La heat ζ @ 2 (D @ Control the water flow control valve -〇 Wa degrees based on the hot water temperature detected by the hot water temperature sensor, and supply 111!: (3)
The water o111 that can be used for Shimaai is connected to the water supply channel Soka 6 water supply channel (・) so that IIkM of the hot water coming out from the water supply is at the set temperature.

In this way, when the inlet water temperature is lower than the set temperature, the -temperature can of course be raised to the set temperature through heat exchange (-0) by the burner, but when the inlet water temperature is higher than the set temperature, The hot water is supplied from the heat absorption part (1) by the water switch valve (8), and the burner ring is combusted and the heat exchanger (4) is turned on.
The wI temperature is kept at a constant temperature higher than the incoming water temperature, and the amount of water mixed into the hot water supply path (9) is further controlled by the fisheries control valve (8). Since the temperature is made to match the hot water temperature, when the inlet water temperature is warmer than the set temperature, the hot water supplied to the mixing section (2) is at a constant temperature and a constant small water cliff.

The water supplied to the mixing part (2) via the water control valve (b) is controlled at T depending on the set temperature.
b) control #! I can do it easily and correctly. Therefore, by keeping the entire bath at a suitable temperature and keeping it warm, you can greatly improve the ease of using Ao showers, etc. Also, water and gas can be heated automatically. Since it is controlled in a timely manner, there is no waste, and it has a great effect on energy saving, which is the original purpose of the SORAF system.

In the above embodiment, an example was explained in which one instantaneous gas hot water heater 2 (2) was used as the auxiliary heat source device.

It goes without saying that various other devices can be used as the auxiliary heat source device.

As explained above, according to the auxiliary heat source device for a solar hot water system according to the present invention, when the temperature of the water supplied from the solar heat absorption part is higher than the desired set temperature, the water volume switching valve is closed to absorb heat. At the same time, the amount of heat released from the heat source is controlled so that the temperature detected by the first hot water temperature detection sensor becomes a predetermined constant value. By adjusting the mixing temperature of water without passing through the water heater, Cζ was set so that the water heater reached the desired set temperature as detected by the second hot water temperature detection sensor.

The water temperature can be brought to the desired temperature while keeping the overall amount of hot water at an appropriate level, thus greatly improving the usability of showers in the summer, etc. In addition, the amount of water and gas is automatically controlled, so there is no waste, and the original purpose of the solar system, which is energy saving, is also highly effective.

[Brief explanation of the drawing]

The drawing is an overall configuration diagram showing an embodiment of the present invention. (1)... Endothermic part, (2)... Instantaneous gas water heater,
(4)...Heat exchanger, (6)...Hot water supply path, (6
)...Water temperature sensor, (8)...Water flow rate switching valve s('')
"" Hot water supply path, aO-... first hot water temperature sensor. (b)... Water supply channel, (b)... Second hot water temperature sensor,
α→...Water flow control valve, (16...Burner (heat source)
I(7)-"・Electronic control section, (to)...Hot water temperature controller agent Yoshihiro Morimoto

Claims (1)

[Claims] 1. A hot water supply path from a solar heat absorption part to a heat exchanger;
1ifl A hot water supply path from the heat exchanger to the hot water supply point ζ and a heat source for supplying heat to the heat exchanger are provided, the hot water supply path pot ζ, a water temperature detection sensor and a water flow rate switching valve are provided, A water supply channel that supplies water that does not pass through the heat absorption section through a water flow control valve is connected to the hot water supply channel, and first and second O hot water temperature detection sensors are arranged on the upstream and downstream sides of the connection point of the water supply channel. and when the temperature detected by the water temperature detection sensor is lower than the set temperature, the water flow switching valve is opened and the water flow control valve is closed. The heat radiation amount of the heat source is controlled so that the temperature detected by the first or second water temperature detection sensor is the same as the set temperature, and when the temperature detected by the water temperature detection sensor is higher than the set temperature, the temperature detected by the water temperature detection sensor is higher than the set temperature. Close the switching valve and control the heat radiation amount of the heat source so that the temperature detected by the first hot water temperature detection sensor becomes a predetermined temperature, and the temperature detected by the 20th hot water temperature detection sensor matches the set temperature. An auxiliary heat source device for a solar hot water system, characterized in that the opening degree of the water flow control valve is controlled so as to.