JP2783904B2 - Hot water heating system - Google Patents

Description

The present invention relates to a hot water heating apparatus that circulates hot water from a hot water heating apparatus having a heat source to a heat radiating device by a pump to perform heating.

(B) Conventional technology This type of hot water heating apparatus is, for example, disclosed in Japanese Patent Publication No. 63-15493, in which a hot water heating apparatus having a heat source such as a burner, a circulation pump, and a radiator are connected by a pipe. A device in which a connected hot water circulation circuit is formed is known. Also,
There is provided control means for starting and stopping the heat source based on a comparison result between the hot water temperature of the hot water circulation circuit and a set temperature (on temperature and off temperature).

(C) Problems to be Solved by the Invention By the way, in the above-mentioned hot water heating apparatus, if the temperature difference (differential) between the ON temperature and the OFF temperature for starting and stopping the heat source is set small, the load on the heat radiating device side is light. Had the drawback that the heat source frequently started and stopped. Conversely, if the differential is increased, the hot water temperature drops significantly when the load is heavy, and there is a problem that stable hot water heating cannot be expected.

The present invention has been made in view of the above-described facts, and has as its object to enable stable hot water heating regardless of the load on the radiator side, and to prevent frequent start and stop of a heat source. And

(D) Means for Solving the Problems According to the present invention, a hot water circulation circuit is formed by connecting a hot water heating device having a heat source, a circulation pump, and a heat radiating device by a pipe, and the heated hot water is circulated to the heat radiating device. In the hot water heating device, a water temperature sensor for detecting the temperature of the hot water in the hot water circulation circuit, and when the detected temperature of the water temperature sensor is equal to or higher than a first set temperature, the heating by the heat source is stopped, and the detected temperature of the water temperature sensor is set to the first temperature. A control unit that starts heating by the heat source when the temperature is equal to or lower than a second set temperature lower than the set temperature and the heating stop time is equal to or longer than a predetermined time.

(E) Operation With this configuration, the first set temperature (off temperature)
Not only can reduce the temperature difference (differential) between the temperature and the second set temperature (ON temperature) to suppress the fluctuation of the hot water temperature to perform stable hot water heating, but also to stop the heating for a predetermined time even when the load is light. The above is ensured, and there is no fear that the heat source frequently starts and stops.

(F) Embodiment Hereinafter, embodiments of the present invention shown in the drawings will be described.

In FIG. 1, (1) is a heat source unit installed outdoors. The heat source unit (1) has a hot water tank (4) between an inlet header (2) and an outlet header (3), and a circulation unit. A hot water circuit (7) in which a pump (5) and a heat exchanger (6A) are sequentially connected by a pipeline, and a pressure adjusting valve (9) of a radiator cap (8) mounted on an upper portion of a hot water tank (4). A makeup water tank (10) connected to the hot water tank (4) via
A gas burner (11) for heating the heat exchanger (6A), a proportional valve (PV) and a solenoid valve (12) for supplying gas fuel to the gas burner (11), and an ignition provided near the gas burner (11) A water inlet (15) connected to a hot water circuit (7) between the apparatus (13) and the frame rod (14) and the heat exchanger (6A) of the circulation pump (5), and a heat exchanger (6A) A water temperature sensor (16) attached to the hot water circuit (7) on the outlet side of the device and a heat source side control device (17) are provided. Heat exchanger (6A)
The hot water heating device (6) is composed of the gas burner (11) as a heat source.

(18A) and (18B) are indoor units (radiators) installed in rooms that require heating. The indoor units (18A) and (18B) have radiators (19A) and (19B) and radiators (19A). ) A fan (20A) (20B) that circulates indoor air through (19B), a room temperature sensor (21A) (21B), and an indoor control device (22A) (22B)
And the radiator (19A) (19B) hot water inlet (23
A) (23B) and hot water outlets (24A) (24B) are connected to pipes (27A) (27B) (28A) (2
8B), it is connected to the outlet header (3) and the inlet header (2) of the heat source unit (1). Further, when the operation switch (not shown) is turned on, the room temperature is lower than the set temperature, and the thermo switch (not shown) is turned on, the indoor side control devices (22A) and (22B) blow air. The fan (20A) (20B) is operated, and an operation signal is supplied to the heat source side control device (17). The hot water circuit (7), the radiators (19A) and (19B), and the piping constitute a hot water circulation circuit (C).

As shown in FIG. 2, the heat-source-side control device (17) controls the circulating pump (5), the on-off valves (25) and (26), and the microcomputer (29) for controlling the gas burner (11) based on a program stored in advance. ) (Hereinafter referred to as a microcomputer). On the input side (I1 to I4) of this microcomputer (29), input switches (30A) (30B) such as relay switches that are turned on when the indoor control devices (22A) (22B) are emitting operation signals. , A water temperature sensor (16), and a frame rod (14). And a water temperature sensor (1
The detected temperature of 6) is compared with the two set temperatures by the comparator (31). That is, the comparator (31) emits an “H” signal when the water temperature is lower than 80 ° C. and emits an “L” signal when the water temperature is higher than 88 ° C. These signals are input ports of the microcomputer (29). (I3). The current I of the frame rod (14) is compared by the flame detector (34).
The flame detection device (34) has a flame current I of a first set value
When it exceeds I _H , an “H” signal is generated and the frame current I becomes I _H
When the signal _falls below I _L , an "L" signal is generated, and these signals are supplied to the input port (I4) of the microcomputer (29).

On the other hand, the output side (P1 to P6) of the microcomputer (29) has five drive circuits (35) to
(39) and relays (40) to (44) whose energization is controlled by these drive times (35) to (39), respectively. The proportional valve (PV) has a microcomputer (29)
The valve opening signal is supplied from the output port (P6).
(V _D ) and (V _C ) are DC power supplies. The microcomputer (29) has a built-in timer (TM).

FIG. 3 shows a drive circuit of the circulation pump (5), the gas burner (11), and the on-off valves (25) and (26). The circulation pump (5), the ignition device (13), the solenoid valve (12), and the on-off valve ( Two
5) and (26) are connected to an AC power supply (45) via relay switches (401), (411), (421), (431), and (441) of the relays (40) to (44), respectively.

The operation of the above-described hot water heating apparatus will be described with reference to FIG. Now, the indoor controller (22A) of the indoor units (18A) and (18B)
Assuming that both A) and (22B) are emitting operation signals, both input switches (30A) and (30B) are turned on,
The voltage of the DC power supply (V _D ) is supplied as an “H” signal to the input ports (I1) and (I2) of the microcomputer (29). The microcomputer (29) outputs “H” signals from the output ports (P1) (P4) (P5) to the drive circuits (35) (38) (39) to set these outputs to “L” and relays (40) ( 43) Apply power to (44). For this reason, relay switches (401) (431) (441)
Is closed, the circulation pump (5) operates, and the on-off valves (25) and (26) are opened as shown in FIG. When the water temperature at the outlet side of the heat exchanger (6A) is low (80 ° C or less) and the “H” signal is supplied from the comparator (31) to the input port (I3), the microcomputer (29) outputs the output port ( P2) (P3) sends an "H" signal to the drive circuits (36) (37) for a predetermined time,
By energizing the relays (41) and (42), the ignition device (13) is operated and the solenoid valve (12) is opened (ignition trial). Therefore, a gas mixture of gas and air is supplied to the gas burner (11), and ignition is attempted by the ignition device (13). As a result, the mixture is ignited,
Current flowing through the flame rod (14) I is more than I _H,
The flame detector (34) is the input port (I4) of the microcomputer (29)
When an "H" signal is supplied to the microcomputer (29), the microcomputer (29) issues an "H" signal from the output port (P3) even after a predetermined time has elapsed, and continues the fuel supply to the gas burner (11).

In this way, when the circulation pump (5) operates and combustion is performed in the gas burner (11), the hot water heated in the heat exchanger (6A) passes through the pipes (27A) and (27B) and passes through the indoor unit (27). 18
A) The heat is sent to the radiators (19A) and (19B) of (18B), where the indoor air circulated by the blowing fans (20A) and (20B) is heated. And the radiator (19A) (19
The hot water of (B) passes through pipes (28A) and (28B) and heat source unit (1)
After returning to the hot water circuit (7), the hot water is stored in the hot water tank (4) and then reheated by the heat exchanger (6A).

During such heating operation, the indoor control unit (22A) (22
When either one of the operation signals in B) disappears, the on-off valve (25) or on-off valve (26) corresponding to the operation signal closes, and the heating operation in the indoor unit (18A) or the indoor unit (18B) stops. I do. Also, since the valve opening signal is sent from the output port (P6) of the microcomputer (29) to the proportional valve (PV), the amount of combustion in the gas burner (11) depends on the indoor load (for example, the number of operating indoor units). It is moderately adjusted according to. The heat exchanger (6
When the water temperature at the outlet side of A) becomes 88 ℃ or more, the comparator (32)
Becomes low, and the microcomputer (29) outputs to the output port (P
Set the signal in 3) to "L" to stop the combustion in the gas burner (11). For this reason, the hot water in the hot water circuit boil,
Excessive heating can be prevented. At this time, the microcomputer (29) operates a built-in timer (TM). Then, the combustion stop time of the gas burner (11) elapses 3 minutes, the timer (TM) times out, and the water temperature sensor (1
When the detected temperature of 6) becomes 80 ° C. or less and the output of the comparator (31) becomes “H”, the microcomputer (29) causes the gas burner (11) to burn according to the above-described sequence. In such hot water temperature control, the number of operation signals (1
Or 2) regardless of whether it is carried out and the radiator (19A) (19B)
The temperature of the hot water supplied to is maintained at approximately 80-88 ° C.

When the operation signal disappears and the input switches (30A) and (30B) are both opened, the microcomputer (29) operates the circulation pump (5).
And operation of the gas burner (11) is stopped, and the on-off valve (25)
Close (26).

According to this embodiment, the temperature detected by the water temperature sensor (16) is 88.
When the temperature is higher than ℃ (first set temperature), the combustion in the gas burner (11) is stopped, and the temperature detected by the water temperature sensor (16) is 80 ° C.
Since the combustion in the gas burner (11) is started when the temperature is equal to or less than (the second set temperature) and the combustion stop time of the gas burner (11) is 3 minutes (predetermined time) or more, the combustion in the gas burner (11) is started. The differential is set to only 8 ° C., which is much smaller than the conventional differential (for example, 20 ° C.), so that the hot water temperature can always be maintained at a temperature suitable for heating, and the combustion stop time can be secured for 3 minutes or more. Regardless of the load fluctuation inside, not only stable hot water heating is performed, but also the gas burner (11) can be prevented from starting and stopping frequently,
The durability of the device can be increased.

In the above-described embodiment, the gas burner (11) is used as the heat source of the hot water heating device, but an oil burner, an electric heater, or the like can be used as the heat source.

(G) Effects of the Invention Since the present invention is configured as described above, the temperature of the hot water supplied to the heat radiating device is maintained at a temperature suitable for heating regardless of fluctuations in load, and stable hot water heating is performed. In addition to the above, it is possible to prevent the heat source of the hot water heating device from frequently starting and stopping, thereby improving the durability of the device.

[Brief description of the drawings]

The drawings relate to one embodiment of the present invention. FIG. 1 is a piping system diagram of a hot water heating device, FIG. 2 is a control system explanatory diagram of a heat source side control device, FIG. 3 is a circulation pump, a gas burner and FIG. 4 is an electric circuit diagram of a circuit for driving the on-off valve, and FIG. 4 is a flowchart for explaining the operation during the heating operation. (C)… hot water circulation circuit, (5)… circulation pump,
(6) hot water heating device, (11) gas burner (heat source), (16) water temperature sensor, (19A) (19B) radiator, (29) microcomputer (control means).

──────────────────────────────────────────────────続 き Continuation of front page (72) Inventor Masafumi Okada 2-18-18 Keihanhondori, Moriguchi-shi, Osaka Sanyo Electric Co., Ltd. (58) Field surveyed (Int. Cl. ⁶ , DB name) F24D 3 / 00

Claims (1)

(57) [Claims] 1. A hot water circulation device comprising a hot water heating device having a heat source, a circulation pump, and a radiator connected by a pipeline to circulate heated hot water to the radiator. A water temperature sensor for detecting hot water temperature,
When the detected temperature of the water temperature sensor is equal to or higher than the first set temperature, the heating by the heat source is stopped, and the detected temperature of the water temperature sensor is equal to or lower than the second set temperature lower than the first set temperature, and the heating stop time. And a control means for starting heating by the heat source when is longer than a predetermined time.