KR100557659B1 - Boiler Condensate Siphon Heating System - Google Patents

Abstract

The present invention relates to a condensate siphon heating device of a boiler, and is located on the bottom of the heat exchanger (11) of the boiler with a predetermined width and size, so as to neutralize and discharge the condensed water generated when the boiler is operated. In the siphon 10 which is provided with the inlet 12 and the discharge portion 13 in the lower portion and the condensate storage chamber 14 is formed inside the body;

Since the planar heater 20 having a heat generating function is formed on the outer surface portion of the siphon 10 body, the condensate siphon heating device of the boiler according to the present invention includes a control part as an outer surface portion of the storage chamber 14 of the siphon 10. Since the planar heater 20 is formed in a linked operation, it is possible to improve the condensate treatment efficiency by preventing the freezing state of the condensate siphon 10 even in a season of low temperature, such as winter.

Therefore, it is a very useful invention that can improve the reliability and ease of use of the product.

Description

Device of Heating Condensate Siphon of Boiler             

1 is a perspective view showing an installation state of the condensate siphon heating apparatus of the present invention boiler.

Figure 2 is an exploded perspective view showing an installation state of the condensate siphon heating apparatus of the present invention boiler.

Figure 3 is an enlarged view of the main portion of the condensate siphon heating apparatus of the present inventors.

Figure 4 is an enlarged cross-sectional view of the main portion of the present inventors condensate siphon heating apparatus.

      * Description of the symbols for the main parts of the drawings *

10-siphon 11-heat exchanger

12-inlet 13-outlet

14-Storage room 20-Surface heater

21-Control part 22-Adhesive member

23-Heating line 24-Finishing member

The present invention relates to a condensate siphon heating apparatus of a boiler, and more particularly, to form a heating means in the condensate siphon body in a heat recovery type boiler (aka condensing boiler) to prevent the phenomenon of condensate siphon freezing in winter. will be.

In general, a heat recovery type boiler refers to a boiler designed to facilitate condensation heat exchange by installing a burner on the top or side of a heat exchanger to make the combustion gas flow downward and to lower the dew point temperature.

Unlike the Bunsen type boiler, this heat-absorbing boiler adopts a porous premixing method and installs a heat exchanger immediately after the flame surface to suppress the generation of nitrogen compounds and emit less carbon monoxide. It absorbs sensible heat first and absorbs latent heat discharged to exhaust gas secondly. Thus, the temperature of exhaust gas of general boiler is 150 ~ 260 ℃, but heat absorption boiler recovers heat by 50 ~ 120 ℃. High heat of more than% can be obtained.

And, in such a heat absorption boiler, water vapor contained in exhaust gas condenses below the dew point temperature and is discharged to the outside of the heat exchanger. Since the acidity of the condensate is about PH2.8 to PH3.5, If it comes in contact with the components that make up the component, there is a risk of corrosion, and if such acidic condensate is discharged as it is, it may cause environmental pollution.

Therefore, in order to prevent such condensed water from causing corrosion or other environmental pollution problems, a dilution method of increasing the pH by supplying a certain amount of diluted water to the condensed water was used.

On the other hand, in recent years, a situation in which a heating means is formed in the siphon body in order to prevent freezing of the condensate siphon in winter has been proposed.

The condensed water siphon heating device of the conventional condensing boiler configured as described above has been proposed to prevent freezing by simply installing a heating rod into the siphon body, but the heating means of such a configuration is provided with a heater rod made of metal into a storage compartment. Since use, there was a problem that the durability due to corrosion is weak.

That is, since a metal heater rod is installed and used at one side of the inside of the storage chamber, corrosion of the metal rod itself occurs when used for a long time.

In addition, since the heater rod is installed to one side of the siphon storage chamber, heat transfer is limited locally instead of the entire condensate storage chamber, and thus there are many closed ends in use.

It is an object of the present invention to provide a condensate siphon heating apparatus of a boiler to prevent the phenomenon of freezing condensate siphon in winter by forming a heating means in the condensate siphon body in a heat recovery type boiler (aka condensing boiler).

Another object of the present invention is to provide a condensate siphon heating apparatus of a boiler to improve the reliability and durability of the product.

The object of the present invention is to have a predetermined width and size on the bottom surface of the heat exchanger 11 of the boiler, so that the condensate generated during boiler operation can be neutralized and discharged to the upper and lower parts of the body. 12) a siphon (10) having a discharge portion (13) and a condensate storage chamber (14) is formed inside the body;

The outer surface portion of the siphon 10 body is achieved by forming a planar heater 20 having a heat generating function.

Therefore, the condensed water siphon heating device of the present invention is formed in the outer surface portion of the storage chamber 14 of the siphon 10 is formed a planar heater 20 in conjunction with the control unit, siphoning condensed water even during the low temperature season, such as winter It is possible to improve the condensate treatment efficiency by preventing the freezing state of (10).

Therefore, it is possible to improve the reliability and ease of use of the product.

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

1 is a perspective view showing an installation state of the condensate siphon heating apparatus of the present invention boiler.

Figure 2 is an exploded perspective view showing the installation state of the condensate siphon heating apparatus of the present invention boiler.

Figure 3 is an enlarged view of the main portion of the condensate siphon heating apparatus of the present invention boiler.

Figure 4 shows the main condensate siphon heating apparatus of the present invention in an enlarged cross-sectional view.

That is, as shown in FIGS. 1 to 4, the condensate siphon heating device of the present invention boiler is used to prevent the condensate siphon 10 from freezing during winter to the outer surface of the storage chamber 14 of the condensate siphon 10. The surface heater 20 is installed to improve the condensate treatment efficiency.

Then, the planar heater 20 composed of the body outer surface portion of the condensate siphon 10 of the present invention is formed in a configuration in which the control unit 21 and the low-temperature bimetal interlocked.

In addition, the planar heater 20 is attached to the outer surface of the storage chamber 14 of the siphon 10 and arranged in a zigzag manner with a body adhesive member 22 and a predetermined interval and period to the adhesive member 22. Heating line 23 and the closing member 24 for fixing the heating line 23 while being in close contact with the adhesive member 22 on the outside of the heating line (23).

That is, the adhesive member 22 for attaching the heating line 23 to the outer surface of the storage compartment of the siphon 10 is fixed to the surface portion, but the adhesive member 22 is preferably made of a material having excellent thermal conductivity. .

In addition, a heating wire 23 interlocked with the control unit 21 in a bimetal manner is installed in a zigzag manner as a front portion of the adhesive member 22.

The heating line 23 is set to be interlocked with the control unit in a bimetal manner by the temperature difference.

Therefore, in a state in which the temperature is lowered below a predetermined temperature, such as winter, the heating line 23 generates heat in response to a signal from the control unit 21, thereby transferring heat to the outer surface of the storage chamber of the siphon 10 to condense water siphon 10. ) Is to prevent freezing.

In addition, in the above configuration, the heating line 23 is preferably arranged in a zigzag manner with a predetermined interval and arrangement so as to evenly transmit heat to the outer surface portion of the body of the siphon 10.

In addition, the outer side of the adhesive member 22 to which the heating line 23 is fixed is a closing member 24 capable of fixedly contacting the heating line 23.

As shown in FIG. 4, the finishing member 24 is configured to fix the heating line 23 having a relatively thin thickness to the outside of the storage chamber 14 of the siphon 10.

Therefore, the most important feature in the configuration of the present invention is formed by arranging the planar heaters 20 at regular intervals to the outer surface portion of the storage chamber 14 of the condensate siphon 10, while being heated at a time when the temperature is lowered, such as winter. Problems caused by freezing of the condensate siphon 10 will be prevented.

According to the configuration of the present invention as described above, by installing a rod heater made of a metal material to prevent freezing of the condensate siphon as in the prior art as a conventional surface heater to the surface surface of the storage compartment to the problem that the heat and corrosion is transmitted to the storage compartment By installing the zigzag method to maximize the condensate treatment efficiency even in winter.

Therefore, it is a very useful invention that can improve the reliability and ease of use of the product, and can prevent environmental pollution.

Claims (2)

Located in the bottom of the heat exchanger 11 of the boiler having a predetermined width and size, the inlet portion 12 and the discharge portion 13 to the upper and lower body so as to neutralize and discharge the condensate generated during the boiler operation In the siphon (10) is provided and the condensate storage chamber 14 is formed inside the body; Condensate siphon heating apparatus of the boiler, characterized in that the outer surface portion of the siphon (10) body surface heater having a heat generating function (20) is formed. The method of claim 1, wherein the planar heater 20 is interlocked with the control unit 21 in a low-temperature bimetal manner, is attached to the outer surface of the storage chamber 14 of the siphon 10 and the body adhesive member 22 and ; A heating line 23 arranged in a zigzag manner at predetermined intervals and periods in the adhesive member 22; Condensed water siphon heating apparatus of the boiler, characterized in that consisting of a closing member 24 for fixing the heating line 23 while being in close contact with the adhesive member 22 on the outside of the heating line (23).

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