KR100268512B1 - Supplementary apparatus for solar heater - Google Patents

Abstract

PURPOSE: An auxiliary device for a solar heating is provided to maintain a uniform temperature regardless of amount of solar heat by using a burner in a boiler. CONSTITUTION: A heat medium storage chamber(2) is installed on an upper portion of a solar heat correcting plate(1). Regenerating medium liquid pipes(3,3') are connected to the solar heat correcting plate for being arranged on both sides of the heat medium storage chamber. A heat exchanging pipe(5) is installed in the storage chamber. A water supply pipe(4) connected to the heat exchanging pipe is connected to an extending pipe(5) by interposing a circulating pump(6) and a sensor(7'). A discharge pipe(4') is connected to the other end of the heat exchanging pipe for connecting an extending pipe(12') by interposing an electronic valve(8). A hot water supply pipe(4'') is connected to an end of the extending pipe(12'). An extending pipe(12'') is connected to the extending pipe(14) for being connected to a connecting tool(14'). The extending pipe(14) is connected between the connecting tool and the extending pipe(12') for connecting a water supply side of a heat exchanging pipe in a boiler(11). At the other side of the boiler, a heating pipe(15) having a distributing pipe(16) with a valve(16') is installed.

Description

Heat medium regenerative solar hot water heating auxiliary device

1 is a device schematic of the present invention.

<Explanation of symbols for main parts of drawing>

1: heat collecting plate 2: heat storage chamber

2 ': Air pin 3,3': Heat storage medium liquid pipe

4: water supply pipe 4 ': discharge pipe

4 ": hot water discharge part 5: heat exchanger tube

6: circulating pump 7,7 ': sensor

8,8 ': Solenoid valve 9: Heating auxiliary system regulator

9 ': Collector temperature display 9 ": Boiler temperature display

9a: Power indicator 9b: Circulation pump operation indicator

10,10 ': conductor 11: communication

12,12 ', 12 ": Extension pipe 13: Check valve

14: extension tube 14 ': connector

15: heating tube 16: distribution tube

16 ': Valve

[Industrial Technology]

The present invention relates to a thermal medium heat storage solar hot water heating auxiliary device.

Conventional Technology and Its Problems

In the conventional solar water heater, the solar heat collected in the heat collecting plate is thermally stored in the heat medium liquid so that the hot water is available through a heat exchanger tube installed in the heat storage heat chamber, so when the degree of solar heat is high, such as in summer, However, in case of rainy season or winter season where the sunshine time is very short, hot water temperature is low due to lack of heat storage temperature. As a result, there was a closed end that caused the temperature difference between the boiler system and the solar system.

[Technical problem to be solved by the present invention]

The present invention has been invented to solve the above problems, the present invention is to install a heat exchanger tube connected to the water supply pipe and hot water discharge pipe in the heat storage heat storage chamber connected to the heat medium liquid pipe installed in the solar heat collecting plate to the hot water heat exchanged by the living water And a sensor, a circulation pump, and an extension pipe in the water supply pipe, and an extension pipe through a sensor, an solenoid valve, and a check valve are connected to the hot water discharge pipe in order to be used as heating auxiliary water. It is connected to the heat exchanger pipe discharge part of the boiler and connects the extension pipe of the electric water supply pipe to make the ordinary gas or oil boiler and the solar collector heater as one system, so that the pecking of the solar heat is weak as in the rainy season or winter season. The lack of temperature can be compensated by the burner of the boiler. Hameuroseo will allow one in the heating pipe itself, there is no deviation of the shape of the temperature is always maintained a constant temperature.

[Technical Solution to the Invention]

This will be described in detail based on the drawings.

Heat storage medium liquid pipes 3 and 3 'connected to the solar heat collecting plate 1 are connected to the left and right sides of the heat storage heat storage chamber 2 installed on the solar heat collecting plate 1, and a heat exchange tube (2) is provided in the heat storage heat storage chamber (2). 5) is provided, but the water supply pipe 4 connected to one end of the heat exchange pipe 5 is connected to the extension pipe 12 via the circulation pump 6 and the sensor 7 ', but at the end of the boiler 11 The heat exchange pipe drain side is connected to the discharge pipe 4 'connected to the other end of the heat exchange pipe 5, which is connected to the extension pipe 12' via the solenoid valve 8, but the extension pipe 12 ' At the end of the living hot water discharge pipe (4 ") is installed and the extension pipe (12") connected to the extension pipe (14), which is connected to the fitting port (14 ') with the check valve (13) interposed, the fitting hole (14') ) And the heat exchanger pipe water supply side of the boiler 11 is connected between the extension pipe 12 'and the electric extension pipe 12' which are connected to each other through the solenoid valve 8 '. The other side of the above-described boiler 11 is a structure in which a heating tube 15 is provided via a distribution tube 16 having an on / off valve 16 '.

Embodiment of the Invention

The present invention configured as described above will be described an embodiment of the bar heat storage solar hot water heating auxiliary device as follows.

The heat medium liquid heated by the heat collecting plate 1 flows into the heat medium heat storage chamber 2 through the heat medium liquid pipes 3 and 3 'to raise the temperature of the heat storage heat storage chamber 2, and the air generated at this time is It is discharged out through the air pin 2 '.

When hot water is used, the water introduced through the water supply pipe 4 is heat-exchanged by the heat exchange tube 5 installed in the heat storage heat storage chamber 2 to become hot water. At this time, the hot water that has been heat-exchanged flows out through the extension tube 12 'when the temperature of the sensor 7 is 45 ° C. At this time, the solenoid valve 8 installed in the extension tube 12' is in the "ON" state, and thus the solenoid valve. (8 ') is in the "OFF" state and hot water is discharged through the hot water discharge pipe (4 "). (The sensor's heat sensing temperature is the set temperature.)

In the case of auxiliary heating, the temperature difference between the sensor 7 'installed in the water supply pipe 4 and the sensor 7 installed in the hot water discharge pipe 4' is 50 ° C or higher and the sensor 7 ' The deviation of) is when the auxiliary system regulator 9 operates when the temperature of 5 ° C. or higher causes the circulation pump 6 to circulate the hot water in the water supply pipe 4 so that the hot water in the water supply pipe 4 and the discharge pipe 4 'becomes the same temperature. When the same temperature is reached, the operation of the circulation pump 6 is stopped at this time. (The heat sensing temperature of the electric sensor is the set temperature of 10 ° C to 60 ° C.)

And when the temperature of the heat exchanged hot water is low because the temperature of heat exchanger is low such as rainy weather or winter time, it is impossible to meet the purpose of living hot water and heating, that is, when the temperature of the sensor 7 is 45 ° C or lower, the required temperature is higher than 45 ° C. If the boiler 11 is operated after setting this to the boiler temperature display unit 9b, the burner of the boiler 11 is ignited to heat the heat exchanger tube in the boiler 11 and the simultaneous circulation pump 6 is operated. Accordingly, the insufficient temperature in the extension pipe 12 and the water supply pipe 4 can be compensated for. That is, the heat storage heat storage chamber 2 is heated by heat dissipation of the discharge pipe 4 'and the extension pipe 12', and the insufficient temperature in the heating pipe 15 is heat-exchanged by the heat exchange pipe in the boiler 11 to compensate for the high temperature. do.

When the replenishment is completed with the set temperature as described above, at this time, the same value is shown in the heat collecting part temperature display part 9 'and the boiler temperature display part 9 "of the heating auxiliary system controller 9 by the detection of the sensors 7 and 7'. It is displayed and the operation of the boiler 11 is stopped and at the same time, there is no hot water deviation in the water supply pipe 4 and the hot water discharge pipe 4 ', so that the heating pipe 15 has no temperature difference and can maintain a uniform temperature.

[Effect of this invention]

As described above, the present invention generally uses hot water heat-exchanged in the heat storage heat storage room 2 as living water and heating auxiliary water and achieves low temperature in the heat storage heat storage room 2 as in rainy weather or winter season, thereby achieving the purpose of living hot water or heating. When it is not possible, the insufficient temperature is supplemented by the heating of the boiler 11 so that the hot water in the discharge pipe 4 'and the extension pipe 12' can be used as domestic hot water or auxiliary heating water while maintaining the same temperature. And boiler (11) because the hot water heating system composed of a single system is a very useful invention because there is no temperature difference in the heating tube and can always maintain a uniform temperature.

Claims (1)

In one end of the heat exchange tube 5 installed in the heat storage heat storage chamber 2 installed at one side of the heat collecting plate 1, a water supply pipe 4 is installed, and the other end is connected to the hot water discharge pipe 4 '. The heat exchanger tube outlet of the boiler 11 via the sensor 7, the circulation pump 6, and the extension tube 12 ′ is connected to the hot water discharge tube 4 ′ and the extension tube 12 ′, which are connected to each other. The hot water discharge part 4 "via the solenoid valve 8 is connected, and the check valve 13 and the extension pipe 12" at the end of the extension pipe 12 'and the extension pipe 12 "are connected to the boiler 11 Heat exchanger pipe water supply part is connected, and the solenoid valve (8 ") is connected to the hot water discharge part (4") at the end of the extension pipe (14) between the check valve (13) and the end of the boiler (11). Solar hot water heating auxiliary system which can be automatically controlled by heating auxiliary system controller (9) connected with (7 ').