KR101797384B1 - Steam boiler - Google Patents

Abstract

The present invention relates to a continuous operational steam boiler. The purpose of the steam boiler of the present invention is to perform continuous operation without stopping the boiler by recovering condensate generated in a steam circulation process in real time. The steam boiler of the present invention comprises: a boiler main body (10) storing heating water (W) therein and having a heating unit (11) formed at a lower portion thereof to heat the heating water (W); a distributor (20) distributing steam generated and supplied from the boiler main body (10) to multiple use spaces (100) through distribution tubes (P2); a condensate storage container (30) storing condensate generated in a process of performing heating in the use spaces (100); a condensate supply tube (P4) for guiding the condensate stored in the condensate storage container (30) to the boiler main body (10); a circulation pump (31) connected to the condensate supply tube (P4) to forcibly supply the condensate to the boiler main body (10); a vacuum control unit (50) connected to the boiler main body (10) to control the degree of vacuum; and an air supply tube (P3) connected to supply air in the condensate storage container (30) to the vacuum control unit (50) by operation of a vacuum pump (P).

Description

Steam boiler capable of continuous operation

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steam boiler, and more particularly, to a steam boiler improved in thermal efficiency in which indoor heat is circulated while steam generated by heating hot water to a high temperature is circulated along a heating cycle.

As is well known, a steam boiler is one of the heating facilities that uses the high-temperature steam to heat the indoor space of a building.

As a conventional example of such a steam boiler, Patent Registration No. 1287035 discloses a boiler system equipped with a water separator for separating water contained in the steam in a heating circulation process and recovering the water content into water.

However, in the above-described prior art, there is a problem in that the boiler can not be continuously operated because the boiler must be temporarily stopped during the operation of collecting condensed water collected in the water separator (condensate water container) into water.

Also, since the water level of the boiler body is gradually reduced as the condensed water is collected in the condensate water for a predetermined time, the outflow temperature can not be maintained constant.

The present invention has been made in order to solve the above problems in the prior art, and it is an object of the present invention to provide an apparatus and a method for recovering condensed water collected in a condensate water tank without stopping operation of the boiler, The present invention relates to a steam boiler for a steam boiler, and more particularly, to a steam boiler for a steam boiler.

To achieve the above object, the present invention provides a steam boiler comprising: a boiler body having a heating water reservoir therein and a heating means for heating heating water in a lower portion thereof; A distributor for distributing the steam generated and supplied from the boiler body through a distribution pipe to a plurality of uses; A condensate storage passage through which condensed water generated during the heating process is stored; A condensed water supply pipe for guiding the condensed water stored in the condensed water storage tank to the boiler body; A circulation pump connected to the condensed water supply pipe for forcibly supplying the condensed water to the boiler body; A vacuum controller connected to the other side of the boiler body to adjust the degree of vacuum; And an air supply pipe connected to the inside of the condensed water storage container so that air can be supplied to the vacuum control unit side by a vacuum pump operation.

In the steam boiler according to the present invention, the recovery of the condensed water generated in the steam circulation process can be performed in real time by the circulation pump, so that the continuous operation can be performed without stopping the operation of the boiler, .

Particularly, since the circulation pump is controlled on and off at the same time as the vacuum pump, the water level loss due to the steam generation in the boiler body is compensated by the recovery of the condensed water, so that the heating water level of the boiler body can be maintained constant , Thereby exhibiting an advantage that the outflow temperature can be stably maintained.

1 is a schematic structural view of a steam boiler according to an embodiment of the present invention;
FIG. 2 is a detailed structural view of a vacuum control unit in the present invention. FIG.
3 is an enlarged view of the upper portion of the boiler body according to another embodiment of the present invention.

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

First, the structure of a thermal efficiency improvement type steam boiler according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG.

A heating means 11 such as a burner or an electric heating rod for heating the heating water W is formed in the lower portion of the boiler body 10 in which the heating water W is stored, An open guide pipe 12 is formed in a vertical direction to guide the generated heat and the upper portion is temporarily stored before being discharged to the outside through the flue 14 through the heat guide pipe 12 The waste heat storage unit 13 is formed in a dome shape.

The steam generating chamber 40 is provided at one side of the boiler body 10 to store the heating water W at a predetermined level. The steam generating chamber 40 senses the high and low levels of the heating water W, Two water level sensors S1 and S2 are provided. When water is detected in the high-level sensor S1, the supply of the make-up water to the boiler body 10 is stopped. If no water is detected in the low-level sensor S2, the makeup water is supplied.

A conventional steam boiler includes a distributor 20 for distributing the steam generated in the steam generating chamber 10 through the steam supply pipe P1 to a plurality of use places 100 through the distribution pipe P2, A condensed water storage tank 30 in which condensed water generated in the process of heating in the plurality of use places 100 is recovered together with air, and condensed water stored in the condensed water storage tank 30 to the boiler body 10 And the condensed water supply pipe P4 is formed.

Particularly, in the present invention, a check valve V and a circulation pump 31 are formed in the condensate water supply pipe P4 as a means for supplying condensate water to the boiler body 10 from the condensate water storage tank 30.

The circulation pump 31 is operated and stopped at the same time as the vacuum pump P so that the water level in the boiler body 10 can be maintained constant.

The vacuum control unit 50 is connected to the other side of the boiler body 10 to adjust the degree of vacuum so that the steam can be smoothly moved. The air supply pipe P3 is connected to the vacuum regulating part 50 so as to be supplied to the vacuum regulating part 50 side.

2, the heating water W filled in the boiler body 10 flows into the vacuum regulator 50 and is stored at a predetermined water level. The upper end of the vacuum regulator 50 is provided with an air outlet 51 , And a stop valve 52 for adjusting the degree of vacuum is constituted.

Hereinafter, the operation and effect of the steam boiler according to the present invention will be described.

In the present invention, the heating water W is filled in the boiler body 10 and the boiler is driven in a state where it is stored at a certain level up to the steam generating chamber 40.

That is, the heat generated in the heating means 11 is guided along the heat guide pipe 12, and the heating water W filled in the boiler body 10 is heated to a high temperature, 40, steam is generated, and at the same time, the vacuum pump P is driven so that the vacuum pressure is applied through the entire flow path, so that the cycle circulation of the high-temperature steam is performed.

Particularly, in the boiler body 10, the heat that has risen along the heat guide pipe 12 is temporarily stored in the waste heat storage unit 13 and then discharged to the outside through the flue 14. In the waste heat storage unit 13, The heating water W can be heated to a higher temperature by performing a secondary heating action on the heated water W filled in the boiler body 10 once again.

Vacuum pressure formed by the operation of the vacuum pump P is transmitted to the steam generating chamber 40 through the distribution pipe P2 and the steam supply pipe P1 so that the steam of high temperature is rapidly moved through the steam supply pipe P1 And is delivered from the distribution port 20 to various uses 100 such as livestock farms and households to perform indoor heating.

In this case, since the two water level sensors S1 and S2 are installed in the steam generating chamber 40, the water level can be maintained within a certain range. If the water level is reduced below the low water level, Is supplied to the boiler body (10).

The steam heated by the use place 100 is condensed in the heat exchanging process, so that the condensed water is collected in the condensed water storage container 30. [

Particularly, the condensed water collected in the condensed water storage tank 30 is recovered to the boiler body 10 side by driving the circulation pump 31 during the operation of the boiler.

That is, when the vacuum pump P is operated, the circulation pump 31 is operated together, so that the condensed water collected in the condensed water storage container 30 is quickly recovered to the boiler body 10, The water level can be kept constant.

As described above, the water level of the boiler body 10 is maintained to be constant so that the outflow temperature is maintained constant.

In addition, since it is not necessary to stop the operation of the vacuum pump P for recovering the condensed water, stable heating efficiency can be maintained.

Meanwhile, the air recovered together with the condensed water into the condensed water storage tank 30 is supplied to the vacuum regulating unit 50 through the air supply pipe P3, and then discharged through the air discharging unit 51. At this time, It is desirable to adjust the degree of vacuum in the boiler circulation cycle optimally by adjusting the boiler circulation cycle 52.

In addition, since the separate steam generating chamber 40 is additionally provided, the boiler body 10 can be kept filled with the heated water W at all times, 13) can be maximized and the thermal efficiency can be improved.

3 shows a boiler structure according to another embodiment of the present invention in which a waste heat storage unit 13 is formed on a top of a boiler body 10 and a boiler body The heat transfer sheet has a metal layer (13b) sandwiched between upper and lower graphite layers (13a) at the center thereof, and an integral type heat transfer sheet A plurality of thermoelectric fins 10a protrude from the upper surface of the boiler body 10 corresponding to the thermoelectric sheet at predetermined intervals, And the diffusion plate 13c is elastically supported by an elastic spring 13d.

With this structure, the heat of the waste heat storage part 13 can be efficiently transmitted to the heating water W by the thermoelectric sheet having the sandwich structure of the graphite layer 13a and the metal layer 13b, Since the heat transfer fin 10a is provided on the upper surface of the heat exchanger 10, heat exchange efficiency can be maximized between them.

In particular, due to the configuration of the diffusion plate 13c, it is possible to delay the time taken for the heat, which has risen through the heat guide pipe 12, to be discharged through the flue 14, And can be maintained in a state of being maintained.

An anti-condensation layer 40a is formed on the inner wall surface of the steam generating chamber 40 to prevent condensation of steam generated therein. The anti-condensation layer 40a is formed of Teflon powder and quartz powder in a ratio of 1: 2 Weight ratio, thereby improving the heat insulating efficiency of the steam generating chamber 40 and minimizing the phenomenon that water vapor sticks to the inner wall surface of the chamber and is condensed.

Although specific embodiments of the present invention have been illustrated and described above, it is apparent that the steam boiler structure of the present invention can be variously modified by those skilled in the art.

For example, in the above embodiment, the steam valve chamber 40 may be omitted if necessary.

Therefore, it should be understood that such modified embodiments should not be understood individually from the technical spirit and scope of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10: boiler body 11: heating means (burner)
12: Open guide pipe 13: Waste heat storage unit
14: Year 20: Dispenser
30: Condensate reservoir 31: Circulation pump
40: steam generating chamber 50: vacuum regulating part
51: air discharge portion 52: regulating valve
100: Application P: Vacuum pump
P1: Steam supply pipe P2: Distribution pipe
P3: Air supply pipe P4: Condensate supply pipe
S1, S2: Level sensor

Claims (5)

A boiler body 10 in which heating water W is stored inside and a heating means 11 for heating the heating water W is provided in a lower portion;
A distributor 20 for distributing the steam generated and supplied from the boiler body 10 to a plurality of uses 100 through the distribution pipe P2;
A condensate water reservoir (30) for storing condensed water generated in a process of heating in the plurality of use places (100);
A condensate water supply pipe (P4) for guiding the condensed water stored in the condensate water storage tank (30) to the boiler body (10);
A circulation pump 31 connected to the condensed water supply pipe P4 for forcibly supplying the condensed water to the boiler body 10;
A vacuum controller 50 connected to the other side of the boiler body 10 to control the degree of vacuum;
A waste heat storage unit 13 formed on the boiler body 10;
The heat exchange efficiency with the heating water W filled in the boiler body 10 is increased while the metal layer 13b is formed on the upper and lower portions around the central graphite layer 13a, A thermoelectric sheet forming an integral structure of the sandwich type;
A plurality of thermoelectric fins 10a protruding from the upper surface of the boiler body 10 corresponding to the thermoelectric sheet;
A diffusion plate 13c formed in the waste heat storage unit 13 and adapted to diffuse the waste heat raised through the heat guide pipe 12;
An elastic spring 13d for elastically supporting the diffusion plate 13c;
An air supply pipe P3 connected to the inside of the condensed water storage container 30 so that air can be supplied to the vacuum control part 50 side by the operation of the vacuum pump P;
Wherein the steam boiler is a steam boiler.
delete delete delete delete

Images