KR20150115985A - Boiler - Google Patents

Abstract

Disclosed is a multilayer heating type boiler which heats water step by step through heat exchange while a heating tank is divided into several tanks and a hot water pipe successively passes through each heating tank to heat the heating tank to a predetermined temperature by a separate heater. As the multilayer heating type boiler has a structure where hot water is gradually heated to a desired temperature by the circulation of the hot water around heating tanks, the volume of each of the heating tanks can be reduced. The amount of heating medium oil to be heated in each of the heating tanks can be reduced. Energy used for heating the heating medium oil is reduced to improve the heat efficiency.

Description

Multi-stage heating boiler {BOILER}

The present invention relates to a multi-stage heating boiler, and more particularly, to a multi-stage heating boiler, and more particularly, to a multi-stage heating boiler, which not only heats heated water in a single heating tank but also gradually The present invention relates to a multi-stage heating boiler with improved efficiency.

Generally, a boiler used for heating or making hot water is provided with a burner installed in a heating tank, heating water or heat medium oil in a heating tank by using heat generated by burning fuel such as petroleum, coal, or pellets from a burner Or an electric heater is provided inside the heating tank to heat the water or the heating oil in the heating tank. The heating water or hot water is heated by heat exchange using heated water or heat medium oil.

Examples of such boilers are Korean Patent No. 10-0398050, Japanese Patent No. 10-0393917, Japanese Patent No. 10-0696168, and the like.

However, in most boilers disclosed in the prior art, when water or heat medium oil is put into one heating tank and the heating water or hot water pipe passes through the inside of the heating tank in a zigzag or coil form, Water or hot water is heated. Therefore, since the heating water or the hot water pipe is heated in one heating tank at one time, the volume of the heating tank becomes large, and a high temperature heat source is required to heat a large amount of water or heat medium oil. A large amount of energy is wasted, and thermal efficiency is poor. In other words, there is a limit to reduce energy and increase thermal efficiency.

1) Korea Patent No. 10-0393917 (Registered Jul. 25, 2003), entitled "Electric boiler using thermal oil" 2) Korea Patent No. 10-0696168 (Registered on Mar. 12, 2007), entitled "Electric Boiler Using Heat Medium" 3) Korean Patent No. 10-0626540 (Registered on Sep. 14, 2006), entitled "Heat-oil storage boiler that combines thermal oil boiler and water heater in one" 4) Korean Patent Laid-Open No. 10-2004-0108281 (Published on Dec. 23, 2004), entitled "Heat medium for boiler apparatus and boiler apparatus using the same,

The present invention has been proposed in order to solve the above-mentioned problems. The object of the present invention is to divide the heating tank into a plurality of heating tanks, and each heating tank is individually heated to a set temperature through a separate heater, (Or hot water) through heat exchange while sequentially passing through each of the heating tanks, thereby saving energy and improving heat efficiency.

The above-mentioned objects can be accomplished by a casing; An inlet pipe installed in the case and connected to a heating water inlet hose; A discharge pipe installed in the case and connected to a heating water discharge hose; A first heating tank installed in a lower portion of the case, in which a heating oil is stored, and a first electric heater is installed to heat the heating oil to a first predetermined temperature; A second heating tank installed at an intermediate side portion in the case, in which a heating medium oil is stored, and a second electric heater is installed to heat the heating medium oil to a second set temperature; A third heating tank installed in an upper portion of the case, in which the heating oil is stored, and a third electric heater is installed to heat the heating oil to a third predetermined temperature; A first transfer pipe installed to pass through the inside of the first heating tank and connected to the inlet pipe via an end of the pump; A second conveyance pipe installed to penetrate the inside of the second heating tank; A third conveying pipe installed to penetrate the inside of the third heating tank and having an end connected to the discharge pipe; A first connection pipe connecting an end of the first conveyance pipe and an end of the second conveyance pipe; And a second connection pipe connecting the end of the second conveyance pipe and the end of the third conveyance pipe. When the heating water is supplied through the inlet pipe, the first heating tank, the second heating tank and the third heating tank And the steam is sequentially heated and discharged through the discharge pipe in a stepwise manner.

The first electric heater is installed on the inner bottom of the first heating tank, the first transfer pipe is installed to penetrate the inner upper end of the first heating tank, and the second electric heater is installed inside the second heating tank And the second conveyance pipe is installed to penetrate the upper end of the inside of the second heating tank, the third electric heater is installed on the inner bottom of the third heating tank, 3 is installed so as to pass through the upper end of the inner portion of the heating tank, and the first transfer pipe, the second transfer pipe, and the third transfer pipe are configured to pass through the hottest part of the heat medium oil heated by the convection.

A first auxiliary connection pipe for connecting the first transfer pipe and the discharge pipe is provided and a second auxiliary connection pipe for connecting the second transfer pipe and the discharge pipe are provided, The auxiliary connecting pipe, the first conveying pipe, and the second conveying pipe are provided with opening and closing valves for selectively opening and closing the pipes, respectively. The heating water passing through the first heating tank is guided to the second heating tank or the third heating tank And can be discharged directly through the discharge pipe.

Since the multi-stage heating boiler according to the present invention has a structure in which the heating water is heated stepwise to a desired temperature while passing through a plurality of heating tanks, the volume of each heating tank can be reduced and the amount of the heating oil to be heated in each heating tank So that the energy used for heating the heating oil is reduced and the heat efficiency is improved as compared with the structure of the conventional boiler in which the heating water is heated in one heating tank at one time.

1 is a cross-sectional view illustrating an internal structure of a multi-stage heating boiler according to the present invention,
2 is a schematic view for explaining an operation path of a multi-stage heating boiler according to the present invention,
3 is a sectional view showing another embodiment of the multi-stage heating boiler according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 and 2, a multi-stage heating boiler according to the present invention includes a case 10, and an inlet pipe 100 connected to a heating water inlet hose H1 is installed at a lower side of the case 10 And a discharge pipe 110 to which the heating water discharge hose H2 is connected is provided on the other side of the lower part.

Subsequently, the first heating tank 200, the second heating tank 300, and the third heating tank 400 are vertically disposed in the case 10 at predetermined intervals. In the first heating tank 200, heat medium oil is stored, a first electric heater 210 is installed, and electricity is supplied to the first electric heater 210 to heat the heating medium oil to a first set temperature do. In the second heating tank 300, the heating oil is stored, the second electric heater 310 is installed, and electricity is supplied to the second electric heater 310 to heat the heating oil to the second set temperature do. The third heating chamber 400 is provided with a heating medium oil reservoir and a third electric heater 410. The third electric heater 410 is operated to heat the heating medium oil to a third predetermined temperature do.

Here, the first electric heater 210 is installed on the inner bottom of the first heating tank 200, the first transfer pipe 500 is installed to penetrate the inner upper end of the first heating tank 200, The electric heater 310 is installed on the inner bottom of the second heating tank 300. The second conveyance pipe 510 is installed to penetrate the upper end of the inner portion of the second heating tank 300. The third electric heater 410 Is installed on the inner bottom of the third heating tank 400 and the third transfer pipe 520 is installed to penetrate the inner upper end of the third heating tank 400. This is to allow the first conveyance pipe 500, the second conveyance pipe 510, and the third conveyance pipe 520 to pass through the hottest part of the heat medium oil heated by the convection.

The first set temperature is set to 40 to 50 ° C, the second set temperature is set to 60 to 70 ° C, and the third set temperature is set to 80 to 90 ° C. This is because the heating water supplied to the room temperature can be gradually heated and discharged.

A first transfer pipe 500 is connected to the end of the inlet pipe 100 through a pump 20 so that the first transfer pipe 500 passes through the inside of the first heating tank 200 Respectively. Of course, the pump 20 pumps heated water supplied to the inlet pipe 100 and guides the heated water to the first transfer pipe 500. A second transfer pipe 510 is installed in the second heating tank 300 and a third transfer pipe 520 is installed in the third heating tank 400 so as to penetrate the interior of the second heating tank 300. The end of the first conveyance pipe 500 and the end of the second conveyance pipe 510 are connected to each other through the first connection pipe 530 and the end of the second conveyance pipe 510 and the end of the third conveyance pipe 510 520 are connected to each other through the second connection pipe 540. The end of the third conveyance pipe 520 is connected to the discharge pipe 110. Accordingly, when the heating water is supplied through the inlet pipe 100, the first transfer pipe 500, the first connection pipe 530, the second transfer pipe 510, the second connection pipe 540, the third transfer pipe 520 And is sequentially heated through the first heating tank 200, the second heating tank 300, and the third heating tank 400, and is gradually heated and discharged through the discharge pipe 110.

For example, the heating water supplied to the normal temperature passes through the first heating tank 200 and is heat-exchanged with the heating medium oil heated to the first predetermined temperature, that is, 40 ° C. While passing through the second heating tank 300, The heat exchange with the heat medium oil heated to 60 ° C is performed and the heat exchange with the heat medium oil heated to the third predetermined temperature, that is, 80 ° C, is performed while passing through the third heating tank 400, And discharged through the discharge pipe 110. As described above, according to the present invention, the heating water supplied to the room temperature is not directly heated by a high-temperature electric heater in one heating tank but is heated at a high temperature in a single step, but the first heating tank 200, the second heating tank 300, The third heating tank 400 is sequentially heated, and is gradually heated and discharged at a high temperature. That is, the heating water at room temperature is heated only to 40 ° C in the first electric heater 210, and the heating water heated to 40 ° C in the second electric heater 310 is heated only to 60 ° C And the third electric heater 410 can heat the heating water heated to 60 ° C only to 80 ° C, so that the heating water can be quickly heated to a high temperature without applying any load to the electric heater.

3, a first auxiliary connection pipe 550 for connecting the first conveyance pipe 500 and the discharge pipe 110 is installed, and the second transfer pipe 510 and the discharge pipe 110 The second auxiliary connection pipe 560, the first transfer pipe 500 and the second transfer pipe 510 are provided with a second auxiliary connection pipe 560 connecting the first auxiliary pipe 560 and the second auxiliary pipe 560, A known on-off valve V for selectively opening and closing the pipes is provided so that the heated water passing through the first heating tank 200 is not guided to the second heating tank 300 or the third heating tank 400 But may be configured to be discharged directly through the discharge pipe 110.

In the present invention, a pressure control valve (40) is installed at the upper end of the discharge pipe (110) to selectively discharge air and gas. An auxiliary water tank (30) And the auxiliary water tank 30 is connected to the pump 20 through the guide pipe 32 so that the heating water can be supplemented through the auxiliary water tank 30 when the heating water is reduced. The outer surface of the discharge pipe 110, the first transfer pipe 500 and the second transfer pipe 510 is installed to surround the insulating member 50 so that the heat of the heated heated water is minimized to the outside . In the case 10, a separate control unit 60 for controlling the pump 20, the first electric heater 210, the second electric heater 310, and the second electric heater 310 is provided.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: Case 20: Pump
100: inlet pipe 110: outlet pipe
200: first heating tank 210: first electric heater
300: second heating tank 310: second electric heater
400: third heating tank 410: third electric heater
500: first conveying pipe 510: second conveying pipe
520: Third transfer pipe 530: First connection pipe
540: second connector 550: first auxiliary connector
560: Second auxiliary connector

Claims (3)

case;
An inlet pipe installed in the case and connected to a heating water inlet hose;
A discharge pipe installed in the case and connected to a heating water discharge hose;
A first heating tank installed in a lower portion of the case, in which a heating oil is stored, and a first electric heater is installed to heat the heating oil to a first predetermined temperature;
A second heating tank installed at an intermediate side portion in the case, in which a heating medium oil is stored, and a second electric heater is installed to heat the heating medium oil to a second set temperature;
A third heating tank installed in an upper portion of the case, in which the heating oil is stored, and a third electric heater is installed to heat the heating oil to a third predetermined temperature;
A first transfer pipe installed to pass through the inside of the first heating tank and connected to the inlet pipe via an end of the pump;
A second conveyance pipe installed to penetrate the inside of the second heating tank;
A third conveying pipe installed to penetrate the inside of the third heating tank and having an end connected to the discharge pipe;
A first connection pipe connecting an end of the first conveyance pipe and an end of the second conveyance pipe; And
And a second connection pipe connecting an end of the second conveyance pipe and an end of the third conveyance pipe,
Wherein when the heating water is supplied through the inlet pipe, the heating water is sequentially heated through the first heating tank, the second heating tank, and the third heating tank and discharged through the discharge pipe.
The method according to claim 1,
Wherein the first electric heater is installed on the inner bottom of the first heating tank, the first transfer pipe is installed to penetrate the inner upper end of the first heating tank,
The second electric heater is installed on the inner bottom of the second heating tank, the second transfer pipe is installed to penetrate the inner upper end of the second heating tank,
The third electric heater is installed on the inner bottom of the third heating tank, the third feeding pipe is installed to penetrate the inner upper end of the third heating tank,
Wherein the first conveyance pipe, the second conveyance pipe, and the third conveyance pipe are configured to pass through the hottest part of the heat medium oil heated by the convection phenomenon.
The method according to claim 1,
A first auxiliary connection pipe connecting the first transfer pipe and the discharge pipe is provided,
And a second auxiliary connection pipe connecting the second transfer pipe and the discharge pipe,
The first auxiliary connection pipe, the second auxiliary connection pipe, the first transfer pipe, and the second transfer pipe are each provided with an opening / closing valve for selectively opening and closing the pipe,
Wherein the heating water passing through the first heating tank is discharged without being guided to the second heating tank or the third heating tank through the discharge pipe.

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