KR200370876Y1 - Combustion efficiency enlargement apparatus for a gas or oil boiler - Google Patents

Abstract

The present invention is to install a heating facility of a large-scale building such as a hospital or the above building using a gas or oil boiler as a main heat source generator, and separately heat and circulate a large amount of water in connection with the operation of one boiler and the boiler. The present invention relates to an apparatus for increasing fuel efficiency of a gas or oil boiler by maximizing fuel efficiency of a wide range of heating pipes by using auxiliary means.

The water tank 11 of the oil or gas boiler 10 is branched to the first heating water supply pipe 15 and the first heating water return pipe 18, respectively, and heats the heating water by a separate pumping means 21. The second heating water supply pipe 22 and the second heating water return pipe 23 are branch-connected to supply and return to the pipe 30, and assist in determining the capacity of the heating water according to the installation scale of the heating pipe 30. Provided with a heating water tank (20),

The auxiliary heating water tank 20 detects the heating water temperature of the collected heating water and the heating water temperature of the auxiliary heating water tank 20, and the electric heating heater 25 is lower than the temperature set by the boiler 10. ) Has a characteristic that the temperature sensor 26 for outputting a detection signal to operate.

Description

Combustion efficiency enlargement apparatus for a gas or oil boiler

The present invention relates to a fuel efficiency enhancing apparatus for a gas or oil boiler, and more particularly, in the installation of a heating facility for a large-scale building such as a hospital or the building where the gas or oil boiler is a main heat source generator. The present invention relates to a fuel efficiency enhancing apparatus for a gas or oil boiler that maximizes fuel efficiency of a wide range of heating pipes by using auxiliary means for separately heating and circulating a large amount of water in connection with a boiler and its operation.

As is well known, the gas boiler for both heating and hot water uses gas as a fuel to heat water circulating in the main heat exchanger to circulate the heated water to the heating pipe to obtain a heating output and to provide a separate hot water heat exchanger. It is to circulate to obtain the hot water output selectively.

That is, the circulation structure of the gas boiler combined with the general heating and hot water is water from the water tank 110 of the gas boiler 100 to the burner 130 by the pumping operation of the circulation pump 120 as shown in FIG. After the heat exchange while passing through the heating water supply pipe 150 staked in the heat exchanger 140 to be heated by the hot water heat exchanger 160 is guided by the three-way side 170 is branched flows to the heating pipe 200, The heating water of the heating pipe 200 is composed of a circulation line returned to the water tank 110 via the heating water return pipe 180 again.

In addition, the hot water distributor 190 may be installed to efficiently supply or return the heating water according to the scale and the number of installation of the heating pipe 200.

Although not shown in the drawings, the heating piping structure of the oil boiler is similar to that of the gas boiler except that the heat source is different.

However, in the heating piping structure of the gas or oil boiler of such a structure, the fuel efficiency varies from 30% to 40% in the length of the heating pipe, which is constructed without considering the correlation between the boiler capacity and the heating pipe length. As a matter of fact, always had a fatal problem that the fuel economy is lowered. In particular, the problem is more prominent in heating piping of a relatively large building such as a hospital or a mall building than a small building.

This is a huge waste from the national level, beyond the actual personality of our country, where all fuel must be imported.

Therefore, the present invention was created to solve the above problems, and its purpose is to install a heating facility for a large-scale building such as a hospital or the building where the gas or oil boiler is the main heat source generator, and one boiler and In connection with the operation of the boiler to provide a fuel or fuel efficiency enhancement device for gas or oil boilers to maximize the fuel efficiency of a wide range of heating piping by using an auxiliary means for heating and circulating a large amount of water separately.

1 is a block diagram showing a heating structure of a conventional gas boiler.

Figure 2 is a block diagram of a fuel efficiency enhancing device for a gas boiler suitable for large buildings according to the present invention.

*** Explanation of symbols for main parts of drawing ***

10: boiler, 11: water tank,

12: circulation pump, 13: burner,

14: heat exchanger, 15: 1st heating water supply pipe,

18: the first heating water return pipe, 20: auxiliary heating water tank,

21: circulating pump, 22: second heating water supply pipe,

23: second heating water return pipe, 25: electric heater,

26: temperature sensor, 28: hot water distributor,

30: heating piping,

The present invention for achieving the above object is branched to the first heating water supply pipe and the first heating water return pipe of the water tank of the oil or gas boiler, respectively, so as to supply and return the heating water to the heating pipe by a separate pumping means. The second heating water supply pipe and the second heating water return pipe are branched and provided with an auxiliary heating water tank for determining the capacity of the heating water according to the installation scale of the heating pipe.

The auxiliary heating water tank has an electric heat heater that heats the collected heating water and a temperature sensing sensor that detects the heating water temperature of the auxiliary heating water tank and outputs a detection signal to operate the electric heat heater when the temperature is lower than the set temperature from the boiler. It has the characteristics made.

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

2 is a block diagram of a fuel efficiency enhancing device for a gas boiler suitable for large-scale building according to the present invention.

2, the water tank 11 of the oil or gas boiler 10 is branched to the first heating water supply pipe 15 and the first heating water return pipe 18, respectively, as shown in FIG. 2. The second heating water supply pipe 22 and the second heating water return pipe 23 are branched to connect and supply the heating water to the heating pipe 30 by a separate pumping means, that is, the circulation pump 21. The auxiliary heating water tank 20 which determines the capacity of the heating water according to the installation scale of 30 is provided.

In addition, the auxiliary heating water tank 20 detects the heating water temperature of the collected heating water 24 and the heating water temperature of the auxiliary heating water tank 20 and the electric heating heater when the temperature is lower than the set temperature from the boiler 10 ( 25) has a structure in which the temperature sensor 26 for outputting a detection signal to operate.

Although not shown in detail in the drawings, the electrothermal heater 24 is operated in conjunction with the controller of the oil and gas boiler 10 to allow the heating water of the auxiliary heating water tank 20 to be heated up to 58 ° C.

The auxiliary heating water tank 20 configured as described above can be used up to 100 pyeong if the capacity of the boiler is applied to 50 pyeong if the application of 42 l capacity, 67 l capacity if the boiler capacity is more than 100 pyeong and less than 150 pyeong If it is applied, it is possible to use up to more than 200 pyeong to less than 250 pyeong can be used by varying the capacity according to the size of the heating facilities.

Referring to the operating state of the subject innovation configured as described above are as follows.

The most important point in the constitution of the present invention is to solve the problem that the heating efficiency of heating pipe () installed in the wide plain water cools down quickly in the circulation process, so that the heating efficiency is lowered by the boiler continuously applying compensation heat through the heat exchanger. First, when the boiler 10 for heating by operating a switch (not shown) is turned on, power is applied to the electric heater 25 of the auxiliary heating water tank 20 together with the ignition of the burner 13. The heating water is heated to the temperature set by the user.

In addition to the circulation pump 12 of the boiler 10, the heating water is circulated by the circulation pump 21 of the auxiliary heating water tank 20. The heating and circulating path of the heating water is the heating water of the water tank 11 Heat exchanged through the heat exchanger 14 on the burner 13 side through the first heating water supply pipe 15 and introduced into the auxiliary heating water tank 20, and the heating water stored in the auxiliary heating water tank 20; While joining, the heating water 30 is guided to the heating pipe 30 through the second heating water supply pipe 22, and the heating water passing through the heating pipe 30 is transferred to the boiler 10 through the second heating water return pipe 23. It is guided to join the auxiliary heating water tank 20 again to be first compensated for the cooled temperature through the heating pipe 30 without being directly circulated, and through the final first heating water return pipe 18, the boiler ( 10 is circulated to the water tank (11).

In the circulation process, the temperature sensing sensor 26 of the auxiliary heating water tank 20 detects the temperature of the heating water and heats the heat transfer heater 25 until the set temperature is reached. In 13), since the first heating time is introduced, the total heating time except for the initial heating time is not only reduced much compared to the heating time with the burner 13 of the conventional boiler, but also the temperature returned through the heating pipe 30. Since the lowered heating water has a piping structure flowing back into the auxiliary heating water tank 20, the thermal efficiency is remarkably improved by being compensated for the dropped temperature.

16 is a hot water heat exchanger, 17 is a three-way side, 28 is a hot water distributor.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention, as mentioned above, is introduced into the heated state in the burner of the boiler first, so that the total heating time except for the initial heating time is much reduced compared to the time of heating by the burner of the conventional boiler alone. Since the heating water whose temperature is returned through the heating pipe has a piping structure that flows back into the auxiliary heating water tank, the heating efficiency is remarkably improved by compensating for the dropped temperature, and the auxiliary heating water depends on the installation size of the heating equipment. By varying the capacity of the tank there is an effect that the fuel economy is increased by only one boiler.

Claims (1)

The water tank 11 of the oil or gas boiler 10 is branched to the first heating water supply pipe 15 and the first heating water return pipe 18, respectively, and heats the heating water by a separate pumping means 21. The second heating water supply pipe 22 and the second heating water return pipe 23 are branch-connected to supply and return to the pipe 30, and assist in determining the capacity of the heating water according to the installation scale of the heating pipe 30. Provided with a heating water tank (20), The auxiliary heating water tank 20 detects the heating water temperature of the collected heating water and the heating water temperature of the auxiliary heating water tank 20, and the electric heating heater 25 is lower than the temperature set by the boiler 10. The fuel efficiency-enhancing device for a gas or oil boiler suitable for large-scale building, characterized in that the internal temperature sensor (26) for outputting the detection signal to operate.