KR101969266B1 - Boiler for friction of fluid - Google Patents

Abstract

Disclosed is a fluid friction boiler. The fluid friction boiler according to the present invention is characterized by comprising: a first thermometer sensing the temperature of a thermal medium oil; a second thermometer sensing the temperature of indoor air; a fluid friction pump heating the thermal medium oil at a low temperature by using kinetic energy from a disk rotating for heating; a heating unit heating the thermal medium oil; and a control unit controlling at least one of the fluid friction pump and the heating unit according to the temperature of the thermal medium oil sensed by the first thermometer and the temperature of the indoor air sensed by the second thermometer.

Description

{BOILER FOR FRICTION OF FLUID}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluid friction boiler, and more particularly, to a fluid friction boiler for selectively controlling a fluid friction pump and a plurality of heaters according to the temperature of room air to adjust the temperature of the room air.

Generally, a heating device that heats fluids such as water, steam, or thermal oil for hot water supply or heating uses a chemical fuel or electricity to heat the fluid and to use the heated fluid directly or through a heated fluid to a constant temperature It is a device to heat indoor.

Here, the heating apparatus using chemical fuel has a problem that a large amount of pollutant is discharged during the combustion process of the chemical fuel, and the thermal efficiency is lower than that of the consumed chemical fuel.

A heating device using electric energy has a heating device that uses electric resistance and a heating device that generates heat through the flow of fluid. In this case, electric heaters using electric resistance have a problem that there is a risk of electric leakage or fire depending on the properties of fluids, and that it takes a long time to heat a large amount of fluids because the fluid can be heated only near the heating line there was.

Recently, a frictional heating method in which a fluid is flowed through electric energy and a fluid is directly heated by a fluid flow is used. At this time, it is important to increase the fluid flow rate and the turbulent flow in order to accelerate the heating of the fluid through the frictional heating and the cavitation.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0032118 (Mar. 2011), entitled " Electric boiler for producing fluid friction heat due to water molecule decomposition motion ".

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fluid friction boiler for selectively controlling a fluid friction pump and a plurality of heaters according to the temperature of room air to control the temperature of the room air.

A fluid friction boiler according to one aspect of the present invention includes a first thermometer for sensing the temperature of a heat medium oil; A second thermometer for sensing the temperature of the indoor air; A fluid friction pump that heats the low temperature thermal oil using kinetic energy of the disk rotating for heating; A heating unit for heating the thermal oil; And a controller for controlling at least one of the fluid friction pump and the heating unit according to a temperature of the heat medium oil sensed by the first thermometer and a temperature of the room air sensed by the second thermometer.

The heater of the present invention is characterized by including a first heater to a fourth heater for heating the heat medium oil.

The control unit of the present invention is characterized in that the fluid friction pump and the heating unit are operated stepwise according to the temperature of the room air.

The controller operates the fluid friction pump when the temperature of the room air is within a predetermined first set air temperature range, and when the temperature of the room air is within a predetermined second set air temperature range, The second heater, the third heater, and the second heater, and when the temperature of the room air is within a predetermined third set air temperature range, the fluid friction pump and the first heater, And the fourth heater is operated.

The control unit of the present invention detects the rate of change of the room temperature of the room air and changes the first set air temperature range, the second set air temperature range, and the third set air temperature range Is corrected.

The controller may reduce the first set air temperature range, the second set air temperature range, and the third set air temperature range as the room temperature change rate decreases.

The control unit of the present invention preferably operates the fluid friction pump and operates the first heater to the fourth heater sequentially in accordance with a predetermined set time interval in the operation of the fluid friction pump and the heating unit .

The bimetal may further include a bimetal disposed in a distributor for distributing the heat medium oil heated by the fluid friction pump of the present invention in a plurality of directions to shut off the power supplied to the fluid friction pump and the heating unit according to the temperature of the heat medium oil. .

The control unit of the present invention is characterized by detecting the rate of change of the temperature of the heat medium oil with respect to the temperature of the heat medium oil and alerting the failure of the fluid friction pump according to the rate of change of the temperature of the heat medium.

The control unit of the present invention is characterized in that the operating ratio of the fluid friction pump and the heating unit is adjusted according to the heating area.

The control unit of the present invention is characterized in that the heating area is divided and the fluid friction pump and the heating unit are respectively allocated to the divided heating areas and heated.

The fluid friction pump of the present invention further includes a motor protection relay which senses a current applied to the heating unit and cuts off power supplied to the fluid friction pump and the heating unit according to the sensed current.

The first thermometer of the present invention is characterized by cutting off power supplied to the fluid friction pump and the heating unit according to the temperature of the heat medium oil.

The first thermometer of the present invention supplies power to the fluid friction pump and the first to fourth heaters when the temperature of the heat medium oil is within a predetermined first set fluid temperature range, And supplies power to the fluid friction pump, the first heater, and the second heater when the temperature of the heat medium oil is within a predetermined temperature range of the fluid, and supplies power to the fluid friction pump, And does not supply power to the fluid friction pump and the first to fourth heaters when the oil temperature is within a predetermined fourth set fluid temperature range.

The control unit of the present invention alerts the temperature rise of the heat medium oil through the warning unit when the temperature of the heat medium oil is higher than the third set temperature after the power supplied to the fluid friction pump and the heating unit is shut off by the first thermometer .

The fluid friction boiler according to one aspect of the present invention controls the temperature of the room air by selectively controlling the fluid friction pump and the plurality of heaters according to the temperature of the room air.

The fluid friction boiler according to another aspect of the present invention can increase the heating area while minimizing the overload of the fluid friction pump by controlling the temperature of the room air through the heater by adding a heater in addition to the fluid friction pump, And can be controlled efficiently.

The fluid friction boiler according to another aspect of the present invention can more precisely control the post heat control by multi-stage control of the fluid friction pump and the heater.

1 is a block diagram of a fluid friction boiler according to an embodiment of the present invention.

Hereinafter, a fluid friction boiler according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the user, the intention or custom of the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a block diagram of a fluid friction boiler according to an embodiment of the present invention.

Referring to FIG. 1, a fluid friction boiler according to an embodiment of the present invention includes a first thermometer 10, a second thermometer 20, a motor protection relay 30, a fluid friction pump 40, a heating unit 50 A warning section 60, a bimetal 70 and a control section 80. [

The heating unit 50 heats the heating medium oil. The heating unit 50 may include a plurality of heaters. In this embodiment, the heating unit 50 includes a first heater 51, a second heater 52, a third heater 53, and a fourth heater 54 as an example.

Here, the first heater 51 and the second heater 52 may be integrally operated, and the third heater 53 and the fourth heater 54 may operate integrally. That is, the third heater 53 and the fourth heater 54 selectively operate according to the control signal of the controller 80 when the second heater 52 operates.

The first thermometer 10 senses the temperature of the heat medium oil and inputs the sensed temperature of the heat medium oil to the controller 80. Also, the first thermometer 10 cuts off power supplied to the fluid friction pump 40 and the heating unit 50 according to the temperature of the heat medium oil.

In one embodiment of the present invention, the fluid friction boiler is provided with a power controller (not shown) that interrupts the power supplied to the fluid friction pump 40 and the heating portion 50 from the power source. Accordingly, the first thermometer 10 can cut off power supplied to the fluid friction pump 40 and the heating unit 50 by controlling the power controller according to the temperature of the heat medium oil.

That is, the first thermometer 10 supplies power to the fluid friction pump 40 and the first to fourth heaters 51 to 54 when the temperature of the heat medium oil is within the predetermined first set fluid temperature range, And supplies power to the fluid friction pump 40, the first heater 51 and the second heater 52 when the temperature is within the set fluid temperature range, And does not supply power to the fluid friction pump 40 and the first to fourth heaters 51 to 54 when the temperature is within the fourth set fluid temperature range.

Wherein the first set fluid temperature range is less than 120 ° C, the second set fluid temperature range is greater than or equal to 120 ° C and less than 130 ° C, the third set fluid temperature range is less than or equal to 130 ° C and less than 140 ° C, Gt; 140 C < / RTI >

That is, the first thermometer 10 controls the fluid friction pump 40 and the first to fourth heaters 51 to 54 in a multi-stage manner according to the temperature of the heat medium oil.

The reason for cutting off the power of the heating unit 50 when the temperature of the heating medium oil is high is that the heating unit 50 may be overheated when only the heating unit 50 operates without temperature control on the heating medium oil.

The control unit 80 sequentially supplies electric power to the fluid friction pump 40 and the heating unit 50 to prevent the electric current from being overloaded, Power can be sequentially supplied to the first heater 51 and the second heater 52, the third heater 53 and the fourth heater 54 of the unit 50 as well.

The controller 80 first operates the fluid friction pump 40 and sequentially operates the first heater 51 to the fourth heater 54 sequentially at predetermined time intervals, .

The second thermometer 20 senses the temperature of the room air and inputs the sensed temperature of the room air to the control unit 80.

The fluid friction pump (40) heats the low temperature heat medium oil by using the kinetic energy of the disk rotating for heating. The temperature of the room air can be increased by heating the room temperature air while circulating the heat medium oil. The fluid friction pump 40 is not particularly limited depending on the type and operating mode, and may include any fluid that heats and supplies the heat medium oil.

The bimetal 70 is installed in a distributor that distributes heat medium oil heated by the fluid friction pump 40 in a plurality of directions so that electric power supplied to the fluid friction pump 40 and the heating unit 50 .

That is, the bimetal 70 is installed in the distributor and cuts off power supplied to the heating unit 50 when the temperature of the heat medium oil is equal to or higher than a fourth set temperature, for example, 150 ° C or more. For reference, the fluid friction pump 40 is already in a state where the temperature of the heat medium oil is 140 占 폚 or higher and the power is already cut off when it is within the fourth set fluid temperature range.

The bimetal 70 can prevent the temperature of the fluid friction pump 40 and the heating unit 50 from abnormally increasing due to the failure of the first thermometer 10.

The motor protection relay 30 senses the current applied to the fluid friction pump 40 and the heating unit 50 and cuts off the power supplied to the fluid friction pump 40 and the heating unit 50 according to the sensed current . If the fluid friction pump 40 is in an overloaded state, the heat medium oil is stagnated in the distributor. If the heating unit 50 is in operation, the temperature of the heating unit 50 may excessively rise. When the fluid friction pump 40 is overloaded, the heating unit 50 is also stopped.

The warning portion 60 warns the temperature of the heat medium oil or the failure of the fluid friction pump 40. [

The control unit 80 controls at least one of the fluid friction pump 40 and the heating unit 50 according to the temperature of the heating medium oil sensed by the first thermometer 10 and the temperature of the room air sensed by the second thermometer 20. [ .

More specifically, the control unit 80 operates the fluid friction pump 40 and the heating unit 50 step by step according to the temperature of the room air sensed by the second thermometer 20.

In this case, the control unit 80 operates the fluid friction pump 40 when the temperature of the room air is within the predetermined first set air temperature range. If the temperature of the room air is within the predetermined second set air temperature range, The pump 40 and the first heater 51 and the second heater 52 are operated and the fluid friction pump 40 and the first heater 51 are operated when the temperature of the room air is within the predetermined third set air temperature range. The second heater 52, the third heater 53 and the fourth heater 54 are operated.

For example, when the target temperature of the indoor air is set to 35 DEG C, the first set air temperature range is set to 34 DEG C or more and less than 35 DEG C, and the second set air temperature range is set to 33 DEG C or more and less than 34 DEG C, The third set air temperature range can be set to be between 32 캜 and 33 캜.

That is, the control unit 80 operates the fluid friction pump 40 when the temperature of the room air reaches 34 ° C. At this time, when the temperature of the room air rises and the temperature of the room air becomes 35 ° C., Stop.

The controller 80 operates the fluid friction pump 40, the first heater 51 and the second heater 52 when the temperature of the room air reaches 33 ° C. At this time, the temperature of the room air rises, The first heater 51 and the second heater 52 are stopped. When the temperature of the room air reaches 35 캜, the fluid friction pump 40 is also stopped.

The control unit 80 operates the fluid friction pump 40 and the first heater 51, the second heater 52, the third heater 53 and the fourth heater 54 when the temperature of the room air reaches 32 ° C At this time, the third heater 53 and the fourth heater 54 are stopped when the indoor air temperature rises to 33 ° C. When the indoor air temperature reaches 34 ° C., the first heater 51 And the second heater 52. When the temperature of the room air reaches 35 DEG C, the fluid friction pump 40 is also stopped.

That is, the control unit 80 controls the fluid friction pump 40 and the heating unit 50 in multiple stages according to the temperature of the room air as described above. In this embodiment, the operation of the first to fourth heaters 51 to 54 can be variously set according to the temperature range of the room air, and is not particularly limited.

The control unit 80 detects the rate of change of the room temperature of the room air in the process of operating the fluid friction pump 40 or the heating unit 50 and adjusts the first set air temperature range , The second set air temperature range, and the third set air temperature range.

Typically, the performance of the fluid friction pump 40 or the heating portion 50 may deteriorate as it ages. When the fluid friction pump 40 and the heating unit 50 are aged, the temperature change of the room air relatively decreases, and the heating efficiency may be lowered.

Accordingly, the control unit 80 decreases the first set air temperature range, the second set air temperature range, and the third set air temperature range as the room temperature change rate decreases, so that the operation of the fluid friction pump 40 or the heating unit 50 It is possible to prevent the heating efficiency from deteriorating due to the aging of the fluid friction pump 40 or the heating portion 50. [

Further, the control unit 80 alerts the temperature of the heat medium oil or the failure of the fluid friction pump 40 through the warning unit 60. [

For example, power supplied to the fluid friction pump 40 and the heating unit 50 is cut off by the first thermometer 10, and when the temperature of the heat medium oil is higher than the fourth set temperature, 60) to raise the temperature of the heat medium oil.

Normally, even if the fluid friction pump 40 and the heating unit 50 are stopped, the temperature of the heat medium oil can be greatly increased to, for example, 150 DEG C or more by the subsequent heat. If the temperature of the heat medium oil reaches or exceeds the third set temperature even if the power supplied to the fluid friction pump 40 and the heating unit 50 is cut off by the first thermometer 10, The temperature rise of the heat medium oil can be warned. In addition, the control unit 80 can precisely and finely control the post-heating control by controlling the fluid friction pump 40 and the first to fourth heaters 51 to 54 in a multi-stage control.

In addition, the controller 80 monitors the temperature of the heating medium oil to detect the rate of change in the heating medium oil temperature and warns the failure of the fluid friction pump 40 according to the rate of change in the detected heating medium oil temperature.

For example, the control unit 80 detects the rate of change of the heating medium oil temperature by monitoring the temperature of the fluid friction pump 40 sensed by the first thermometer 10 during operation of the fluid friction pump 40, If the rate of change in the temperature of the oil becomes less than the preset normal range, it is determined that the fluid friction pump 40 is faulty and the fault of the fluid friction pump is warned through the warning unit 60.

Further, the control unit 80 can divide the entire heating area and heat each of the divided heating areas to the fluid friction pump 40 and the heating unit 50. For example, when the heating area is 200 square meters, the control unit 80 can heat 150 square meters through the fluid friction pump 40 and 50 square meters through the heating unit 50.

In addition, the control unit 80 can adjust the operating ratios of the fluid friction pump 40 and the heating unit 50 according to the heating area. For example, when the target temperature of the room air is set to 35 DEG C, the control unit 80 controls the fluid friction pump 40 to raise the fluid friction pump 40 by 25 DEG C, The heating unit 50 can be controlled so that the portion 50 is lifted.

As described above, the fluid friction boiler according to an embodiment of the present invention controls the temperature of the room air by selectively controlling the fluid friction pump and the plurality of heaters according to the temperature of the room air.

In addition, the fluid friction boiler according to an embodiment of the present invention can increase the heating area while minimizing the overload of the fluid friction pump by controlling the temperature of the room air through the heater by adding a heater in addition to the fluid friction pump, Can be controlled efficiently.

In addition, the fluid friction boiler according to another embodiment of the present invention can more precisely control the post heat control by multi-stage control of the fluid friction pump and the heater.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Accordingly, the true scope of the present invention should be determined by the following claims.

10: first thermometer 20: second thermometer
30: motor protection relay 40: fluid friction pump
50: heating part 51: first heater
52: second heater 53: third heater
54: fourth heater 60: warning part
70: bimetal 80: control unit

Claims (15)

A first thermometer for sensing the temperature of the heat medium oil;
A second thermometer for sensing the temperature of the indoor air;
A fluid friction pump that heats the low temperature thermal oil using kinetic energy of the disk rotating for heating;
A heating unit for heating the thermal oil; And
And a controller controlling at least one of the fluid friction pump and the heating unit according to the temperature of the heat medium oil sensed by the first thermometer and the temperature of the room air sensed by the second thermometer,
Wherein the control unit divides the entire heating area and allocates one of the fluid friction pump and the heating unit to each of the divided heating areas to heat the fluid.
The fluid friction boiler according to claim 1, wherein the heating unit includes a first heater to a fourth heater for heating the heat medium oil.
3. The fluid friction boiler according to claim 2, wherein the controller operates the fluid friction pump and the heating unit step by step according to the temperature of the room air.
The air conditioner according to claim 3, wherein the controller operates the fluid friction pump when the temperature of the room air is within a predetermined first set air temperature range, and when the temperature of the room air is within a predetermined second set air temperature range, The second heater, and the second heater, and when the temperature of the room air is within a predetermined third set air temperature range, the fluid friction pump, the first heater, the second heater, 3 heater, and the fourth heater.
5. The air conditioner according to claim 4, wherein the controller detects the rate of change of the room temperature of the room air and changes the first set air temperature range, the second set air temperature range, and the third setting And the air temperature range is corrected.
The fluid friction boiler according to claim 5, wherein the controller reduces the first set air temperature range, the second set air temperature range and the third set air temperature range as the room temperature change rate decreases.
The apparatus as claimed in claim 2, wherein the control unit operates the fluid friction pump and the fourth heater in order to operate the fluid friction pump and the fourth heater sequentially Wherein the boiling point of the fluid is the boiling point.
The bimetal according to claim 1, further comprising: a bimetal disposed in a distributor for distributing the heat medium oil heated by the fluid friction pump in a plurality of directions to shut off power supplied to the fluid friction pump and the heating unit according to the temperature of the heat medium oil; Further comprising a fluid-friction boiler.
The fluid friction boiler according to claim 1, wherein the controller detects the rate of change of the temperature of the heat medium oil and changes the rate of change of the temperature of the heat medium oil to warn the failure of the fluid friction pump.
The fluid friction boiler according to claim 1, wherein the control unit adjusts the operating ratio of the fluid friction pump and the heating unit according to a heating area.
delete The apparatus according to claim 1, further comprising a motor protection relay that senses a current applied to the fluid friction pump and the heating unit and cuts off power supplied to the fluid friction pump and the heating unit according to the sensed current Fluid friction boiler.
3. The fluid friction boiler according to claim 2, wherein the first thermometer blocks power supplied to the fluid friction pump and the heating unit according to the temperature of the heat medium oil.
14. The method of claim 13, wherein the first thermometer supplies power to the fluid friction pump and the first to fourth heaters when the temperature of the heat medium oil is within a predetermined first set fluid temperature range, And supplies power to the fluid friction pump, the first heater, and the second heater when the temperature of the heat medium oil is within a predetermined third set fluid temperature range, And does not supply power to the fluid friction pump and the first to fourth heaters when the temperature of the heat medium oil is within a predetermined fourth set fluid temperature range.
15. The method according to claim 14, wherein when the temperature of the heat medium oil is higher than or equal to the third set temperature after the power supplied to the fluid friction pump and the heating unit is shut off by the first thermometer, Wherein the boiler is a boiler.

Images