KR200473707Y1 - Solar heat collector device installed fronzen protect function - Google Patents

Abstract

More particularly, the present invention relates to a solar collecting apparatus capable of preventing the freezing of a working fluid on a pipe exposed to the outside, such as a water tank, when the water tank is formed at the lower end of the solar heat collecting pipe, All of which can be recovered to the inside of the heat storage tank, thereby preventing the freezing of the solar radiation.
According to the solar heat collection apparatus of the present invention, when the temperature of the working fluid is lowered to a certain temperature or lower by the freezing prevention temperature sensor, the operation of the circulation pump is stopped and all the working fluid is recovered to the heat storage tank. , The breakage of the apparatus is small and the maintenance cost is low.

Description

SOLAR HEAT COLLECTOR DEVICE INSTALLED FRONZEN PROTECT FUNCTION

More particularly, the present invention relates to a solar collecting apparatus capable of preventing the freezing of a working fluid on a pipe exposed to the outside, such as a water tank, when the water tank is formed at the lower end of the solar heat collecting pipe, All of which can be recovered to the inside of the heat storage tank, thereby preventing the freezing of the solar radiation.

Generally, the method of using solar energy is a method of producing and using electricity by forming a solar panel and a method of directly using the solar heat to heat the working fluid and storing the heat in the heat storage tank and using the heat as it is.

A method of accumulating the solar heat in the heat storage tank and using heat is provided with a variety of heat collection devices that can be used as a direct or indirect heating source. Examples of the heat collection device include a structure for absorbing sunlight inside a vacuum tube having a double- A solar heat collecting device has been developed that collects heat by applying black chrome or the like and increases heat efficiency by reducing heat loss due to convection in a vacuum state.

A plurality of solar heat collecting tubes are formed in the solar heat collecting apparatus, a water tank connected to the upper ends of the solar heat collecting tubes is formed, and a storage tank is formed to collect the working fluid inside the water tank.

A water pipe is inserted into the heat storage tank so that water in the water pipe can be drained by heat exchange and utilized.

The technology of the conventional solar heat collecting apparatus has been disclosed in Korean Patent Registration Nos. 1220917 and 0368135.

However, the conventional solar heat collecting apparatus has the following problems.

(1) Since the working fluid is always in the inside of the solar heat collecting tube, when the weather is cold, cool air continuously flows into the heat storage tank.

(2) If the temperature falls below the freezing point of the working fluid, the working fluid freezes and the connecting hose or other devices are damaged.

In order to solve the above-mentioned problem, there is provided a water treatment apparatus comprising a water storage tank in which a water pipe is inserted, a circulation pump connected to a supply pipe at a lower end of the water storage tank, a water tank connected to the supply pipe, A plurality of solar heat collecting tubes are connected,

A return pipe having an operation valve is formed on a pipe of the supply pipe in connection with a heat storage tank, a temperature sensor is formed in the water tank, and the operation valve is configured to be operated by a temperature sensor.

According to the solar heat collection apparatus of the present invention, which is prevented from freezing, the following effects occur.

(1) When the temperature of the working fluid drops below a certain temperature by the temperature sensor, all the working fluid in the solar heat collecting tube and the water tank is recovered to the heat storage tank, so that the freezing is prevented.

(2) Since the damage to the apparatus is prevented, the maintenance cost is reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a solar heat collection apparatus which is formed by a preferred embodiment of the present invention and which is prevented from freezing. FIG.
FIG. 2 is a conceptual view of a solar heat collection apparatus that is formed by a preferred embodiment of the present invention and is prevented from freezing. FIG.
FIG. 3 is an enlarged view of a portion A of a solar heat collecting apparatus which is formed by a preferred embodiment of the present invention and which is prevented from freezing.

A preferred embodiment of the present invention includes a heat storage tank 10 into which a water pipe 11 is inserted and a circulation pump 20 connected to a supply pipe 22 at a lower end of the heat storage tank 10 A plurality of solar heat collecting tubes 40 are connected to the upper portion of the water tub 30,

A recovery pipe 25 having an operating valve 26 is formed on the pipe of the supply pipe 22 in connection with the storage tank 10 and a freezing prevention temperature sensor 35 is formed inside the storage tank 30, The actuation valve 26 is formed to be operated by the freeze prevention antifreeze prevention temperature sensor 35.

The heat storage tank 10 is formed so that the water pipe 11 can be heat-exchanged with a working fluid supplied with heat by solar heat.

A supply pipe 22 is connected to the lower end of the thermal storage tank 10 and the supply pipe 22 is connected to the lower end of the water tank 30. A circulation pump 20 is formed on the pipe of the supply pipe 22 .

A check valve 24 is formed so as to be spaced apart from the circulation pump 20 and the check valve 24 is formed so that the working fluid does not flow back to the circulation pump 20.

The recovery pipe 25 is formed to connect the supply pipe 22 and the storage tank 10 and is connected to the upper end of the check valve 24 of the supply pipe 22.

The operation valve 26 is connected to the freeze prevention temperature sensor 35 to be operated by the operation of the freeze prevention temperature sensor 35. The operation valve 26 is connected to the freeze prevention temperature sensor 35, do.

An external return pipe (12) having an air outlet (14) at an end thereof is formed at the upper end of the heat storage tank (10).

The water tank 30 is formed with a body 31 and a return pipe 32 is formed therein. A lower end of the solar heat collecting tubes 40 is connected to the upper end of the body 31.

The solar heat collecting tube 40 is composed of an outer glass tube 41 whose upper end is closed and whose lower end is opened and an inner flow tube 42 whose upper end is opened and whose lower end is communicated with the return pipe 32.

The lower end of the inner flow pipe 42 communicates with the inside of the body 31 of the water tub 30. The lower end of the inner flow pipe 42 is connected to the return pipe 32 of the water tub 30, Respectively.

The recovery pipe 32 of the water tank 30 is connected to an external recovery pipe 12 connected to the heat storage tank 10.

The freezing prevention temperature sensor 35 is formed outside the water tub 30 and the operation of the circulation pump 20 and the operation valve 26 are determined by the temperature of the freezing prevention temperature sensor 35. [

A plurality of temperature sensors are formed in the water tank 30 or the solar heat collecting tube 40 so that the circulation pump 20 is operated by a temperature sensor and is stored in the storage tank 10 .

A timer is formed in the thermal storage tank 10 so as to control the operation valve 26 and the circulation pump 20. When the timer is stopped, the operation valve 26 is opened and the circulation pump 20 is stopped The operation fluid is returned to the heat storage tank 10 and the operation of the operation valve 26 and the circulation pump 20 is controlled by the temperature sensors or the freezing prevention temperature sensor 35 when the timer is activated.

Hereinafter, the operation of the solar heat collection apparatus, which is formed by the preferred embodiment of the present invention, is described as follows.

When the temperature of the solar heat collecting tube (40) rises, the working fluid circulates by the circulating pump (20) by the temperature sensor and heat is stored in the heat storage tank (10).

At this time, the operating valve 26 is closed so that the working fluid does not flow through the return pipe 25.

The working fluid flows into the water tub 30 from the lower part of the thermal storage tank 10 and at the same time the working fluid starts to flow upward into the outer glass tube 41 as well.

Thereafter, the working fluid rises while being heated, moves to the return pipe 32 through the internal flow pipe 42, and then exits to the heat storage tank 10 through the external return pipe 12.

At this time, all the air inside the solar heat collecting tube 40 is discharged through the air outlet 14, and the pure working fluid is stored while being rotated.

The tap water contained in the water pipe 11 inserted into the heat storage tank 10 is used in a heated state by heat exchange.

When the temperature of the freezing prevention temperature sensor 35 is lower than the set temperature, the circulation pump 20 is stopped and the operation valve 26 is opened and the water tank 30 All of the working fluid in each solar heat collecting tube 40 is collected in the heat storage tank 10.

When all of the working fluid is recovered in the heat storage tank 10 as described above, the inside of the water tank 30 and the solar heat collecting tube 40 are both empty, so that they can not be frozen even if the temperature falls.

The working fluid can be completely recovered because the water tank 30 is located at the lower end than the solar heat collecting pipe 40 when all of the working fluid is recovered into the heat storage tank 10. [ This is a remarkable difference from conventional solar heat collectors.

A timer is formed in the solar heat collecting device and a time can be set so that the solenoid can be operated only while the sun is floating. When the timer is stopped, the circulation pump 20 is stopped and the operation valve 26 is opened, All of the working fluid can be recovered to the heat storage tank 10 through the opening 25.

According to the solar heat collection apparatus of the present invention, when the temperature of the working fluid drops below a predetermined temperature by the temperature sensor, the operation of the circulation pump is stopped and all the working fluid is recovered to the heat storage tank, So that the effect of, for example, reducing the cost of maintenance is small.

Although the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention as defined by the appended claims.

10: heat storage tank 11: water pipe
12: External recovery pipe 20: Circulation pump
22: supply pipe 24: check valve
25: Return pipe 26: Operation valve
30: Water tank 35: Frost protection temperature sensor
40: solar heat collector tube 41: external glass tube
42: Internal flow tube

Claims (3)

A circulation pump connected to a supply pipe is formed at a lower end of the storage tank, a water tank connected to the supply pipe is formed, and a plurality of solar collector pipes are connected to the upper part of the water tank. However,
A recovery pipe having an operation valve is connected to the heat storage tank on the pipe of the supply pipe, a freeze prevention temperature sensor is formed in the water tank, the operation valve is configured to be operated by the freeze prevention temperature sensor,
The solar heat collecting tube includes an outer glass tube whose upper end is closed and whose lower end is open; Wherein the upper end is opened and the lower end is formed as an inner flow pipe communicating with the return pipe. delete delete

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