KR101088143B1 - Boiler using thermal transfer oil - Google Patents

Abstract

The present invention is a storage tank for forming a storage space therein; A heat medium oil stored in a storage space of the storage tank; A heat conductor powder mixed with the heat medium oil, having thermal conductivity and having a relatively high heat storage capacity; Heating means provided in the storage tank and heating the heat medium oil and the thermal conductor powder; Heat exchange means provided in the storage tank for heat-exchanging the heat medium oil, the thermal conductor powder, and external raw water; And a stirring means provided in the storage tank to stir the thermal conductor powder so that the thermal conductor powder mixed in the heat medium oil does not precipitate.

According to the present invention, a metal powder having a relatively high heat storage capacity is mixed with the heat medium oil, and thus the heat storage capacity of the heat medium oil is relatively large, and thus the external raw water can be sufficiently heated and supplied even in the amount of hot water rapidly increased in a short time. There is this.

Boiler, Thermal Oil, Heat Storage, Thermal Conductor Powder, Agitation, Copper

Description

Boiler using thermal oil {BOILER USING THERMAL TRANSFER OIL}

The present invention relates to a boiler using a heat medium oil, and more particularly to a boiler using a heat medium oil in which the heat storage capacity of the heat medium oil is increased.

In general, a boiler is a device that heats a room or a floor by circulating heated water, or supplies hot water to a bathroom.

Such a boiler is composed of a combustion section of a complex structure in which a flame is generated by burning oil or gas in a boiler body, and a tank in which a heating pipe passing through the floor of a room or a floor is connected and the water heated by the combustion section is accommodated. have.

However, recently, a boiler using heat medium oil that minimizes heat loss and reduces fuel costs has been developed by using a heat medium that has a lower specific heat than water and thus heats up quickly and maintains a constant temperature. It is used.

Conventional technologies for boilers using thermal oils are disclosed in Korean Patent Application Publication No. 88-14327, Korean Utility Model Publication No. 1998-014609, and Korean Utility Model Registration No. 0050525.

However, since the above-mentioned prior art is configured to circulate the heat medium oil directly through the heating pipe passing through the floor of the room or the floor, a large amount of heat medium oil is required, and there is a possibility of leakage of oil during the circulation of the heating pipe. There was also a difficult problem in terms of maintenance and repair. In addition, the prior art has an unreasonable problem of heating a large amount of heat medium oil even when only hot water is required.

Thus, a boiler using a thermal oil that heats heating water through a heating pipe without heat by using a small amount of thermal oil has been developed. As a conventional technique, Korean Patent Laid-Open Publication No. 2001-0025466 Is disclosed.

However, the boiler using the heat medium oil of the prior art which does not circulate using a small amount of heat medium oil has a problem that the heat storage capacity of the heat medium oil is relatively small because it uses a small amount of heat medium oil.

Therefore, when the amount of hot water used for hot water supply is increased in a short time, there is a problem that the heat medium oil is rapidly cooled to sufficiently heat external raw water. Of course, in order to solve this problem, the heating capacity of the heating means for heating the heat medium oil can be increased, but there is a difficulty in that the heating capacity can be inadvertently increased in order to reduce thermal efficiency and fuel cost.

The present invention is to solve the problems of the prior art, an object of the present invention is to provide a boiler using a heat medium oil with a relatively increased heat storage capacity of the heat medium oil without circulating using a small amount of heat medium oil. .

The present invention for achieving the above object and the storage tank for forming a storage space therein; A heat medium oil stored in a storage space of the storage tank; A heat conductor powder mixed with the heat medium oil, having thermal conductivity and having a relatively high heat storage capacity; Heating means provided in the storage tank and heating the heat medium oil and the thermal conductor powder; Heat exchange means provided in the storage tank for heat-exchanging the heat medium oil, the thermal conductor powder, and external raw water; And a stirring means provided in the storage tank to stir the thermal conductor powder so that the thermal conductor powder mixed in the heat medium oil does not precipitate.

The heat exchange means includes a raw water tank surrounding the outer surface of the storage tank and storing the external raw water therein and primarily heat-exchanging the waste heat radiated from the outer surface of the storage tank and the external raw water; It is installed inside the storage tank, and connected to the raw water tank includes a heat exchanger for secondary heat exchange between the external raw water, the heat medium oil and the thermal conductor powder.

The thermal conductor powder is a metal powder, and comprises at least one of copper powder, iron powder, and nickel powder.

The stirring means is located in the upper portion of the storage tank and the drive motor for generating a rotational force; It receives a rotational force of the drive motor is rotated in the storage tank includes a stirring blade for stirring the heat medium oil and the thermal conductor powder.

In addition, the stirring means includes a stirring pump for pumping the heat medium oil stored in the storage tank; And a spray nozzle for spraying the heat medium oil pumped by the stirring pump onto the heat conductor powder precipitated in the storage tank to stir the heat conductor powder.

According to the present invention, a metal powder having a relatively high heat storage capacity is mixed with the heat medium oil, and thus the heat storage capacity of the heat medium oil is relatively large, and thus the external raw water can be sufficiently heated and supplied even in the amount of hot water rapidly increased in a short time. There is this.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

1 and 2 show the structure of a boiler using a heat medium oil according to an embodiment of the present invention.

Referring to FIG. 1, the present embodiment includes a storage tank 10 forming a storage space therein, a heat medium oil 20 stored in the storage tank, and a thermal conductor powder mixed with the heat medium oil and having a relatively high heat storage capacity ( 30), the heating water stage 40 for heating the heat medium oil and the heat conductor powder, the heat exchange means 50 for heat exchange between the heat medium oil and the heat conductor powder and the external raw water, and the heat conductor powder mixed in the heat medium oil. Stirring means 60 for stirring so as not to settle is provided.

As the thermal conductor powder 30, a metal powder having a relatively high heat storage capacity is used. As the metal powder, copper powder, iron powder, and nickel powder may be used, and they may be mixed and used. The thermal conductor powder 30 has a particle size of 8 to 30 micrometers. The heat conductor powder 30 and the heat medium oil 20 are preferably mixed in a volume ratio of 1 (heat conductor powder): 3 (heat medium oil). But. It can be mixed in the range of the ratio of the thermal conductor powder 0.1 to 0.5L per 1L of the thermal medium oil.

Heating means 40 is drawn into the storage space of the storage tank 10, an electric heater rod is used that generates heat by receiving external power. However, the heating means 40 is not limited to an electric heater rod, and any heating medium 40 such as an electric heating wire or a burner can be heated.

The heat exchange means 50 is installed in the storage tank 10, the inlet 52 and the outlet 53 of the external raw water are installed on the outer surface of the storage tank 10, the tubular shape to which the external raw water is transferred. Heat exchanger 51 is applied. Preferably, the heat exchanger 51 is formed spirally to increase the contact area between the heat medium oil 20 and the thermal conductor powder 30, and a plurality of protruding fins are formed on the outer surface. The heat exchanger 51 uses a copper pipe having good thermal conductivity.

On the other hand, referring to Figure 2, the heat exchange means 50 is further provided with a raw water tank 54 to surround the outer surface of the storage tank 10 and the external raw water is stored. The raw water tank 54 is provided with a raw water inlet 55 through which external raw water is introduced, and a raw water outlet 56 through which the introduced raw water is discharged. The raw water outlet 56 is connected to the inlet 52 of the heat exchanger 51. That is, the external raw water stored in the raw water tank 54 is preheated by primary heat exchange with the waste heat radiated from the outer surface of the storage tank 10.

Therefore, the external raw water preheated by the primary heat exchange is heat-exchanged by the secondary heat exchanger with the heat medium oil 20 and the thermal conductor powder 30 in the heat exchanger 51 in a short time.

The stirring means 60 is a thermal conductor powder 30 mixed in the heat medium oil 20 is precipitated in the storage tank 10 by its own weight, in order to prevent this heat medium oil 20 and the heat conductor powder 30 It is for stirring.

As shown in FIGS. 1 and 2, the bottom surface of the storage tank 10 is formed in a conical shape with a pointed center so that the heat conductor powder 30 is precipitated to the bottom center of the pointed storage tank 10, and the collected heat conductor powder. By stirring the 30 by the stirring means 60, the stirring efficiency of the stirring means 60 is improved.

1, the stirring means 60 stores the stirring pump 61 for pumping the heat medium oil 20 stored in the storage tank 10, and the heat medium oil 20 pumped by the stirring pump 61. It consists of a spray nozzle 62 is installed in the bottom center portion of the storage tank 10 to be sprayed on the thermal conductor powder 30 precipitated in the bottom center portion of the tank (10). The injection nozzles 62 are provided in a plurality of radially so that the heat medium oil 20 is ejected radially, or a plurality of injection holes are formed radially.

Since the stirring pump 61 mixes the heat conductor powder 30 which is a metal powder with the heat medium oil 20, it is good to use the rotary gear pump for the high temperature liquid transfer with a viscosity.

In addition, referring to FIG. 2, another embodiment of the stirring means 60 includes a driving motor 63 positioned above the storage tank 10 to generate a rotational force, and a rotational storage tank that receives the rotational force of the driving motor. It consists of the stirring blade 64 which stirs the thermal conductor powder 30 precipitated in the bottom center part of (10). The stirring blade 64 is connected to the power transmission shaft 65 shaft-connected to the rotating shaft of the drive motor 63, and is inclined in a side-by-side direction to the bottom surface of the inclined storage tank 10 to increase the stirring efficiency.

Meanwhile, reference numerals 70 and 80 which are not described are expansion tanks 70 and pressure valves 80 for adjusting the pressure of the heat medium oil 20 that are expanded due to heating, and reference numeral 71 denotes an inside of the expansion tank 70. It is a see-through window 71 which can be confirmed.

Hereinafter, the operation and effects of the present embodiment configured as described above will be described.

The heating medium 40 is driven to heat the heat medium oil 20 and the thermal conductor powder 30. When the external raw water is supplied to the heat exchanger 51 while the heat medium oil 20 and the heat conductor powder 30 are heated, the external raw water is heated by heat exchange with the heat medium oil 20 and the heat conductor powder 30. . The heated external raw water is used as heating water or hot water.

In particular, since the external raw water is heated by the primary heat exchange by the waste heat radiated from the outer surface of the storage tank 10 in the raw water tank 54 surrounding the outer surface of the storage tank 10, the heat exchange efficiency in the heat exchanger 51 is increased. Is improved.

On the other hand, the heat storage capacity of the heat medium oil 20 is relatively increased by the heat conductor powder 30 which is a metal material having a larger heat storage capacity than the heat medium oil 20. Thus, even if the amount of hot water is rapidly increased in a short time, the heat medium oil 20 is not easily cooled, and the external raw water can be heated to a desired temperature by heat exchange without increasing the heating amount of the heating means 40.

Then, the thermally conductive powder 30 is spread evenly through the heat medium oil 20 by the stirring means 60, thereby preventing heat storage from being biased in the heat medium oil 20, and the heat conductor powder 30 is convexed. The heating efficiency of the heat medium oil 20 is improved.

The embodiments of the present invention described above should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

1 is a view showing an embodiment of a boiler using a heat medium oil according to the present invention,

2 is a view showing another embodiment of a boiler using a heat medium oil according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: storage tank 20: heat medium oil

30: thermal conductor powder 40: heating means

50: heat exchange means 51: heat exchanger

54: raw water tank 60: stirring means

61: stirring pump 62: injection nozzle

63: drive motor 64: stirring blade

Claims (5)

delete A storage tank forming a storage space therein; A heat medium oil stored in a storage space of the storage tank; A heat conductor powder mixed with the heat medium oil, having thermal conductivity and having a relatively high heat storage capacity; Heating means provided in the storage tank and heating the heat medium oil and the thermal conductor powder; Heat exchange means provided in the storage tank for heat-exchanging the heat medium oil, the thermal conductor powder, and external raw water; And stirring means provided in the storage tank to stir the thermal conductor powder such that the thermal conductor powder mixed in the heat medium oil does not precipitate. The heat exchange means A raw water tank surrounding the outer surface of the storage tank and storing the external raw water therein and primarily heat-exchanging the waste heat radiated from the outer surface of the storage tank and the external raw water; And a heat exchanger installed inside the storage tank and connected to the raw water tank to heat-exchange the external raw water with the heat medium oil and the heat conductor powder. 3. The method of claim 2, The thermal conductor powder is a metal powder, the copper powder, iron powder, nickel powder using a boiler, characterized in that at least any one of powder. 3. The method of claim 2, The stirring means A drive motor positioned above the storage tank and generating rotational force; Boiler using a thermal fluid oil characterized in that it comprises a stirring blade for receiving the rotational force of the drive motor is rotated in the storage tank to stir the heat medium oil and the heat conductor powder. 3. The method of claim 2, The stirring means A stirring pump for pumping the heat medium oil stored in the storage tank; And a spray nozzle for spraying the heat medium oil pumped by the stirring pump onto the heat conductor powder precipitated in the storage tank to stir the heat conductor powder.

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