KR101939988B1 - Antifreeze concentration control device for prevention of frost damage to solar collectors - Google Patents

Abstract

The present invention relates to an antifreeze concentration control apparatus for preventing the freezing of a solar heat collector, and more particularly, to an antifreeze concentration control apparatus for preventing freezing of a supplementary water supplied to a heat storage tank of a solar heat collection section in accordance with an external temperature value sensed by a temperature sensing section for sensing an external temperature around the solar heat collection section It is possible to more easily prevent the possibility that the heat storage tank of the solar heat collecting part is frozen in the freezing weather in winter.

Description

[0001] The present invention relates to an antifreezing concentration control device for prevention of frost damage to a solar heat collector,

According to the present invention, the concentration of the antifreeze of the replenishing water supplied to the heat storage tank of the solar heat collecting part can be automatically adjusted according to the external temperature value sensed by the temperature sensing part for sensing the external temperature around the solar heat collecting part. And more particularly to an antifreeze concentration control device for preventing solar heat collection from being frozen in a heat storage tank of the solar heat collecting part.

Generally, there is a part of the solar heat collecting part exposed to the outside, and there is a risk that the solar heat collecting part can be frozen if the outside temperature falls below zero at the outside exposed part.

Therefore, in the prior art, a replenishing water containing an antifreeze solution is injected into the solar heat collecting part, and accordingly, a system is constructed so that even if the temperature of the solar heat collecting part falls below minus 15 degrees, it does not freeze and circulates smoothly.

In recent years, the amount of the antifreeze delivered to the makeup water tank is automatically supplied according to the concentration of the water of the antifreeze diluted in the makeup water, so that the antifreeze concentration control device for preventing freezing of the solar heat collecting part is a registered patent registration number 10-1618334.

However, the above-mentioned Korean Patent Registration No. 10-1618334 merely describes that the concentration of the antifreeze can be arbitrarily changed according to the demand of the user or the solar heat collecting part. Specifically, There is a problem that the solar heat collecting part is likely to be frozen when the concentration of the antifreeze liquid supplied to the solar heat collecting part is low, especially in the subzero winter weather.

Korean Registered Patent Publication No. 10-1618334

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for controlling the concentration of an antifreeze of a makeup water supplied to a heat storage tank of a solar heat collecting part according to an external temperature value sensed by a temperature sensing part for sensing an external temperature around the solar heat collecting part And it is an object of the present invention to provide an antifreeze concentration control device for preventing the freezing of the solar heat collecting part, which can more easily prevent the possibility that the heat storage tank of the solar heat collecting part is frozen in the cold weather in the winter.

According to an aspect of the present invention, there is provided a water supply system comprising: a makeup water tank for supplying makeup water mixed with antifreeze and water to a solar heat collection unit; And an injector for controlling an amount of the antifreeze liquid supplied to the makeup water tank and an amount of water supplied to the makeup water tank, the antifreeze concentration control device comprising: A temperature sensing unit for sensing the temperature of the battery; A concentration sensing unit provided in the replenishing water tank for sensing the concentration of the antifreeze solution in the replenishing water; And a control unit for controlling the antifreeze tank and the makeup water tank based on an external temperature value sensed by the temperature sensing unit and an antifreeze concentration value sensed by the concentration sensing unit provided in the makeup water tank. An anti-freeze antifreezing antifreeze concentration control device is provided.

It is preferable that the concentration sensor for the storage tank for sensing the concentration of the antifreeze of the replenishing water supplied to the storage tank is provided in the storage tank of the solar heat collecting part.

In addition, the notification unit informs whether the concentration value of the antifreeze solution of the makeup water supplied to the heat accumulating tank of the solar heat collecting unit is abnormal, and the control unit notifies the antifreeze concentration value sensed by the concentration sensing unit, It is preferable that the notification unit is controlled by comparing the concentration values.

A supply line connected to the injector of the antifreeze tank to supply antifreeze liquid and water to the makeup water tank and a supply line provided between the makeup water tank and the heat storage unit of the solar heat collection unit to supply the makeup water to the heat storage tank of the solar heat collection unit And the control unit is provided with a pressure measurement value of the pressure gauge and a reference pressure value or a flow rate measurement value and a reference flow rate value of the flow meter, It is preferable to control the notification unit in comparison.

Here, the notification unit may include any one or all of a light emitting member that emits light or an alarm member that outputs an alarm sound.

Alternatively, the notification unit may include an SMS transmission unit that transmits an error to the administrator's terminal through a communication network.

Further, it is preferable that supplemental water supplied to the heat storage tank of the solar heat collecting part is mixed with 60 to 70 volume ratio of water to 100 volume ratio of the antifreeze.

A replenishing water receiving portion in which replenishing water leaking from the heat accumulating tank of the solar heat collecting portion is stored; A recovery line for recovering the make-up water leaking from the heat storage tank of the solar heat collecting portion stored in the makeup water receiving portion to the makeup water tank; A pump provided in the recovery line for pumping supplemental water leaked from the thermal storage tank of the solar heat collection part stored in the replenishing water storage part; And a sensing unit provided in the replenishing water receiving unit to sense replenish water leaked from the thermal storage tank of the solar heat collecting unit stored in the replenishing water receiving unit, and the control unit controls the pump in accordance with a sensing signal of the sensing unit, .

The upper portion of the replenishing water receiving portion is opened and the upper portion is connected to the lower front side of the heat accumulating tank on the front side of the replenishing water receiving portion and the swash plate is inclined upwards toward the lower front side of the accumulating tank .

A camera unit for photographing a heat storage tank of the solar heat collecting unit; And an MMS transmission unit for transmitting the photographed image photographed by the camera unit to an administrator's terminal through a communication network, and the control unit controls the camera unit and the MMS transmission unit according to a sensing signal of the sensing unit.

A management server for storing a photographed image photographed by the camera section by year, date, and day, and requesting a photographed image of the camera section; And an output unit for outputting a captured image stored in the management server.

According to the present invention, the concentration of the antifreeze of the replenishing water supplied to the heat storage tank of the solar heat collecting part can be automatically adjusted according to the external temperature value sensed by the temperature sensing part for sensing the external temperature around the solar heat collecting part. It is possible to more easily prevent the possibility that the heat storage tank of the solar heat collecting part is frozen.

FIG. 1 is a schematic view showing an antifreeze concentration control device for preventing solar heat collection of a frost, which is an embodiment of the present invention,
FIG. 2 is a view schematically showing a pressure gauge or a flow meter provided in the concentration sensor for the storage tank and the supply line provided in the storage tank,
3 is a block diagram schematically showing a control state of the control unit,
4 is a block diagram schematically showing a notification unit,
5 is a schematic view showing an example of a replenishment water containing section for receiving replenish water leaked from a thermal storage tank,
6 is a schematic view showing another example of the replenishment water containing section for receiving the replenishing water leaked from the thermal storage tank,
7 is a schematic view showing a camera section for photographing a thermal storage tank,
8 is a block diagram schematically showing a camera unit and an MMS transmission unit.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing an antifreeze concentration control apparatus for preventing solar heat collection of a frost, which is an embodiment of the present invention; FIG.

The antifreeze concentration control device for preventing solar heat collection of frost damage, which is an embodiment of the present invention, includes a makeup water tank (10) for supplying makeup water mixed with antifreeze and water to the solar heat collection part (3) And an injector 210 for controlling the amount of the antifreeze liquid supplied to the makeup water tank 10 and the amount of water supplied to the makeup water tank 10. The anti-

Here, the replenishing water tank 10 and the antifreeze tank 20 are well known in the Korean Registered Patent Publication No. 10-1618334, and a detailed description thereof will be omitted.

The anti-freeze concentration control device for preventing solar wind condensation of the present invention further includes a temperature sensing unit 30, a concentration sensing unit 40, and a control unit.

The temperature sensing unit 30 may be a temperature sensing sensor for sensing an external temperature around the solar heat collecting unit 3.

The temperature sensing unit 30 may be provided at various positions. For example, as shown in FIG. 1, the temperature sensing unit 30 may be provided on the outer surface of the heat storage tank 31 of the solar heat collecting unit 3.

Next, the concentration sensing unit 40 may include a concentration sensor provided in the replenishing water tank 10 to sense the concentration of the antifreeze solution in the replenishing water.

The control unit controls the antifreeze tank 20 and the antifreeze tank 20 based on the external temperature value sensed by the temperature sensing unit 30 and the antifreeze concentration value sensed by the concentration sensing unit 40 provided in the makeup water tank 10. [ And controls the makeup water tank 10.

The concentration value of the antifreeze supplied to the heat storage tank 31 may be gradually increased to prevent the freezing of the heat storage tank 31 of the solar heat collection unit 3 as the external temperature value sensed by the temperature detection unit 30 is lower have.

The concentration value of the antifreeze supplied to the heat storage tank 31 of the solar heat collecting part 3 may gradually become lower as the external temperature value of the temperature sensing part 30 is higher.

For example, the control unit may be provided with a memory unit storing a plurality of reference antifreeze concentration values each corresponding to an external temperature value sensed by the temperature sensing unit 30.

The controller may extract a reference antifreeze concentration value corresponding to an external temperature value sensed by the temperature sensing unit 30 from the memory unit and compare the reference antifreeze concentration value with the concentration value of the antifreeze detected by the concentration sensing unit 40. [

When the antifreeze concentration value detected by the concentration sensing unit 40 provided in the makeup water tank 10 is lower than the reference antifreeze concentration value extracted by the control unit, the concentration of the antifreeze in the makeup water tank 10 is increased, The antifreeze tank 20 can supply the antifreeze liquid to the replenishment water tank 10 under the control of the control unit.

If the antifreeze concentration value detected by the concentration sensing unit 40 provided in the makeup water tank 10 exceeds the reference antifreeze concentration value extracted by the control unit, the concentration of the antifreeze solution in the makeup water tank 10 is lowered The antifreeze tank 20 can supply water to the replenishing water tank 10 under the control of the control unit.

If the antifreeze concentration value detected by the concentration sensing unit 40 provided in the makeup water tank 10 is equal to the reference antifreeze concentration value extracted by the control unit, the antifreeze tank 20 is operated under the control of the control unit The replenishing water tank 10 supplies the replenishing water mixed with the water and the antifreeze to the heat accumulating tank 31 of the solar heat collecting part 3. [

The antifreeze of the replenishing water supplied to the heat storage tank 31 of the solar heat collecting part 3 according to the external temperature value sensed by the temperature sensing part 30 sensing the external temperature around the solar heat collecting part 3, It is possible to more easily prevent the possibility that the heat storage tank 31 of the solar heat collecting part 3 is frozen in the cold weather in the winter.

FIG. 2 is a view schematically showing a pressure gauge or a flow meter provided in the concentration sensor for the storage tank and the supply line provided in the storage tank.

2, a concentration sensor for detecting the concentration of the antifreeze liquid in the replenishing water supplied to the thermal storage tank 31 may be provided in the thermal storage tank 31 of the solar heat collection part 3, A sensing unit 60 may be provided.

3 is a block diagram schematically showing a control state of the control unit.

As shown in FIG. 3, the notification unit 70 may be provided to inform the manager whether the concentration value of the antifreeze of the replenishing water supplied to the heat storage tank 31 of the solar heat collecting unit 3 is abnormal.

The control unit 50 may control the notification unit 70 by comparing the antifreeze concentration value sensed by the concentration sensing unit 40 with the antifreeze concentration value sensed by the concentration sensing unit 60 for the storage tank.

The antifreeze concentration value sensed by the accumulation tank concentration sensor 60 provided in the heat storage tank 31 of the solar heat collecting part 3 is set to the antifreeze concentration value of the concentration sensing part 40 provided in the replenishment water tank 10 The notification unit 70 receives power from the power supply unit 510 under the control of the control unit 50 and generates an abnormality in the antifreeze concentration value of the makeup water supplied to the storage tank 31 to the manager And the manager can check whether or not a safety accident such as a failure has occurred in the replenishing water tank 10 and the antifreeze tank 20 or the like.

The antifreeze concentration value sensed by the accumulation tank concentration sensor 60 provided in the heat storage tank 31 of the solar heat collecting part 3 is set to the antifreeze concentration value of the concentration sensing part 40 provided in the replenishment water tank 10 The power supply of the power supply unit 510 to the notification unit 70 is interrupted under the control of the control unit 50 so that the operation of the notification unit 70 can be stopped.

2, a supply line 211, which is connected to the injector 210 of the antifreeze tank 20 and can be formed of a pipe or a hose supplying the antifreeze liquid and water to the makeup water tank 10, And a pressure gauge or a flow meter 80 are provided in a supply line 311 which can be made up of a pipe for supplying the makeup water to the replenishing water tank 10 and the heat storage tank 31 of the solar heat collecting part 3, .

The notification unit 70 can inform the administrator of the abnormality of the supply lines 211 and 311. [

The control unit 50 calculates a reference flow rate value that can be preset in the controller 50 and a reference pressure value that can be preset in the controller 50 or a flow rate measurement value of the flow meter, The notification unit 70 can be controlled.

If the pressure measurement value of the pressure gauge is less than a reference pressure value that can be preset in the controller 50 or the flow rate measurement value of the flow meter is less than a reference flow rate value that can be preset in the controller 50, The notification unit 70 receives power from the power supply unit 510 under control of the controller 50 so that the administrator can be informed by the operator that the supply lines 211 and 311 are freezing Can be notified.

When the pressure measurement value of the pressure gauge is equal to or greater than a reference pressure value that can be preset in the controller 50 or a flow rate measurement value of the flow meter is greater than or equal to a reference flow rate value that can be preset in the controller 50, The power supply of the power supply unit 510 to the notification unit 70 is interrupted under the control of the controller 50 so that the operation of the notification unit 70 can be stopped.

4 is a block diagram schematically showing a notification unit.

For example, the notification unit 70 may include a light emitting member 710 such as an LED for emitting light, an alarm member 720 such as a speaker for outputting a warning sound, (730). ≪ / RTI >

The notification unit 70 may be provided at various positions, for example, on the outer surface of the heat storage tank 31 of the solar heat collection unit 3.

The light emitting member 710 emits different colors under the control of the controller 50 to determine whether the concentration of the antifreeze liquid in the replenishing water supplied to the storage tank 31 is equal to or greater than the concentration value of the antifreezing liquid, Or notify the administrator.

For example, when an abnormality occurs in the concentration value of the antifreeze of the makeup water supplied to the storage tank 31, the light emitting member 710 may emit red light and abnormalities may occur in the supply lines 211 and 311 The light emitting member 710 may emit blue light.

The alarm member 720 outputs different types of alarm sounds under the control of the controller 50 to determine whether the concentration of the antifreeze liquid in the replenishing water supplied to the storage tank 31 is equal to or greater than the concentration value of the antifreezing liquid supplied to the supply lines 211 and 311 ) To the administrator.

For example, when an abnormality occurs in the concentration value of the antifreeze of the makeup water supplied to the heat storage tank 31, the alarm member 720 generates a warning sound such as a siren sound or ' Can be output.

When an abnormality occurs in the supply lines 211 and 311, the alarm member 720 may output a guidance sound such as a car horn sound or 'an abnormality has occurred in a supply line'.

The SMS transmission unit 730 may transmit an SMS message to the smart phone or the like via the communication network to determine whether there is an abnormality in the concentration value of the antifreeze of the supplementary water supplied to the thermal storage tank 31 and the abnormality of the supply lines 211 and 311 The terminal 5 can transmit the text.

For example, when an abnormality occurs in the concentration value of the antifreeze of the makeup water supplied to the heat storage tank 31, the SMS transmission unit 730 controls the ' The concentration of the antifreeze has been abnormally generated '.

When an error occurs in the supply lines 211 and 311, the SMS transmission unit 730 transmits an error message to the terminal 5 of the administrator under the control of the controller 50 Can be transmitted.

The supplemental water supplied to the heat accumulating tank 31 of the solar heat collecting part 3 has a volume ratio of 100 parts by volume of the antifreeze solution to the heat accumulating tank 31 of the solar heat collecting part 3, To 60 volume% of water.

5 is a schematic view showing an example of a replenishment water containing section for receiving replenish water leaked from the thermal storage tank.

Next, in order to recover the leaked supplemental water to the replenishing water tank 10 when the replenishing water has leaked from the thermal storage tank 31 due to the freeze wave generated in the heat storage tank 31 of the solar heat collecting part 3, 5, a replenishment water receiving unit 90, a collection line 100, a pump 200, and a sensing unit 300 may be provided.

For example, the makeup water receiving portion 90 may be disposed in a lower direction of the heat storage tank 31 of the solar heat collection portion 3. [

The upper part of the replenishing water receiving part 90 can be opened and the replenishing water leaked in the lower direction of the heat accumulating tank 31 of the solar heat collecting part 3 can be stored in the replenishing water receiving part 90 have.

The recovery line 100 which can be formed of a pipe, a hose or the like is provided between the replenishment water receiving portion 90 and the replenishing water tank 10 and is connected to the solar heat collecting portion 3 can be returned to the replenishing water tank 10. The replenishing water that has leaked from the heat storage tank 31 of the replenishing water tank 3 can be recovered to the replenishing water tank 10.

The pump 200 may pump the makeup water leaked from the heat storage tank 31 of the solar heat collecting unit 3 stored in the makeup water receiving unit 90 provided in the collecting line 100.

The sensing unit 300 senses the makeup water leaked from the heat storage tank 31 of the solar heat collecting unit 3 stored in the makeup water receiving unit 90 provided in the makeup water receiving unit 90 A water level sensor, and the like.

The control unit 50 may control the pump 200 according to a sensing signal of the sensing unit 300.

Although not shown in the drawing, the recovery line 100 may include a pressure gauge or a flow meter 80.

The controller 50 controls the controller 50 to measure the pressure measured by the pressure gauge provided on the return line 100 and the reference pressure value preset in the controller 50 or the measured flow rate of the flow meter, The notification unit 70 can be controlled by comparing the reference flow rate values that can be set in advance.

The light emitting member 710 of the notification unit 70 emits yellow light under the control of the control unit 50 to notify the administrator that the collection line 100 has been broken and an abnormality has occurred in the collection line 100 .

The alarm member 720 of the notification unit 70 can output a buzzer sound or a guidance sound such as 'an error has occurred in the recovery line' under the control of the control unit 50.

The SMS transmission unit 730 of the notification unit 70 can transmit characters such as 'an error has occurred to the recovery line' to the terminal 5 of the administrator under the control of the control unit 50.

Fig. 6 is a schematic view showing another example of the replenishment water receiving section for receiving the replenishing water leaked from the thermal storage tank.

As another example, the makeup water receiving portion 90 may be integrally formed on the lower portion of the heat storage tank 31 of the solar heat collection portion 3 as shown in FIG.

A swash plate 901 may be formed on the front side of the makeup water receiving portion 90 in another example.

The upper portion of the swash plate 901 may be fixedly connected to the lower front side of the heat storage tank 31 by various methods such as welding.

In order to allow the replenishment water leaking in the lower direction of the storage tank 31 of the solar heat collecting part 3 to descend down the slope swash plate 901 and to be more easily moved into the replenishing water receiving part 90, The swash plate 901 may be inclined upward toward the lower front side of the heat storage tank 31 from the lower portion of the swash plate 901 toward the upper direction.

7 is a schematic view showing a camera section for photographing a thermal storage tank.

7, a camera unit 400 for photographing the thermal storage tank 31 of the solar heat collecting unit 3 is provided on the rear side of the solar heat collecting unit 3 opposite to the front side of the thermal storage tank 31 .

8 is a block diagram schematically showing a camera unit and an MMS transmission unit.

Next, as shown in FIG. 8, an MMS transmission unit 500 may be provided to transmit the photographed image photographed by the camera unit 400 to the terminal 5 of the administrator through a communication network.

The MMS transmitting unit 500 may be provided at various positions and may be provided at an outer surface of the heat storage tank 31 of the solar heat collecting unit 3 in a state of being spaced apart from the SMS transmitting unit 730 .

The control unit 50 may control the camera unit 400 and the MMS transmission unit 500 according to a sensing signal of the sensing unit 300. [

Next, as shown in FIG. 8, the management server 600 and the output unit 700 may be provided.

The management server 600 and the output unit 700 may be provided at various positions such as a management room disposed around the solar heat collecting unit 3.

In the management server 600, photographed images photographed by the camera unit 400 may be stored by year, date, and day.

The management server 600 may provide a management program to a separate computer that may be provided in the management room. The manager may manage the camera program stored in the management server 600 through the management program provided in the computer You can request a shot image.

The output unit 700 may be of various types. For example, the output unit 700 may include a display member such as a computer monitor for outputting a photographed image stored in the requested management server 600 on a yearly, And a printer capable of outputting a photographed image stored in the server 600 on various sheets such as A4 by exceling by year, date, and day.

10; Supplemental water tanks, 20; Antifreeze tank,
30; A temperature sensing unit, 40; A concentration sensing unit,
50; Control section.

Claims (11)

A replenishing water tank for supplying the replenishing water mixed with the antifreeze and water to the solar heat collecting part; And an injector for controlling an amount of the antifreeze liquid supplied to the makeup water tank and an amount of water supplied to the makeup water tank, the antifreeze concentration control device comprising:
A temperature sensing unit for sensing an external temperature around the solar heat collecting unit;
A concentration sensing unit provided in the replenishing water tank for sensing the concentration of the antifreeze solution in the replenishing water;
And the upper portion of the swirl plate is connected to the lower front side of the heat storage tank, and the upper portion of the swirl plate is connected to the lower front side of the heat storage tank, A replenishing water receiving portion inclined upward toward a lower front side of the thermal storage tank as the swash plate goes from the lower portion of the swash plate toward the upper direction;
A recovery line for recovering the make-up water leaking from the heat storage tank of the solar heat collecting portion stored in the makeup water receiving portion to the makeup water tank;
A pump provided in the recovery line for pumping supplemental water leaked from the thermal storage tank of the solar heat collection part stored in the replenishing water storage part;
A sensing unit provided in the replenishing water receiving unit to sense replenish water leaked from a thermal storage tank of the solar heat collecting unit stored in the replenishing water receiving unit;
A camera unit for photographing a heat storage tank of the solar heat collecting unit;
An MMS transmission unit for transmitting the shot image photographed by the camera unit to an administrator terminal through a communication network;
Wherein the control unit controls the antifreeze tank and the makeup water tank based on an external temperature value sensed by the temperature sensing unit and an antifreeze concentration value detected by the concentration sensing unit provided in the makeup water tank, And a control unit for controlling the camera unit and the MMS transmission unit based on the received information.
The method according to claim 1,
And a concentration sensing unit for accumulating the antifreeze in the replenishing water supplied to the heat storage tank in the heat storage tank of the solar heat collecting unit.
3. The method of claim 2,
An annunciator is provided to notify whether the concentration value of the antifreeze of the replenishing water supplied to the heat storage tank of the solar heat collecting part is abnormal,
Wherein the controller compares the antifreeze concentration value detected by the concentration detector with the antifreeze concentration value detected by the concentration sensor for the storage tank to control the notification unit.
The method according to claim 1,
A supply line connected to the injector of the antifreeze tank to supply antifreeze liquid and water to the replenishing water tank and a supply line provided between the replenishing water tank and the heat accumulating tank of the solar heat collecting unit to supply replenish water to the heat accumulating tank of the solar heat collecting unit A pressure gauge or a flow meter is provided in the line,
A notification unit informing whether the supply line is abnormal,
Wherein the control unit controls the notification unit by comparing the pressure measurement value of the pressure gauge with a reference pressure value or a flow rate measurement value of the flow meter with a reference flow rate value.
The method according to claim 3 or 4,
Wherein the notification unit comprises any one or both of a light emitting member that emits light or an alarm member that outputs an alarm sound.
The method according to claim 3 or 4,
Wherein the notification unit comprises an SMS transmission unit for transmitting an abnormality to an administrator's terminal through a communication network.
The method according to claim 1,
Wherein the replenishing water supplied to the heat storage tank of the solar heat collecting part is mixed with 60 to 70 volume parts of water with respect to 100 volume ratio of the antifreezing liquid.
The method according to claim 1,
A management server for storing a photographed image photographed by the camera section by year, date, and day, and requesting a photographed image of the camera section;
And an output unit for outputting a photographed image stored in the management server. delete delete delete

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