KR20190002765U - Cistern Tank for Condensing Boiler - Google Patents

Abstract

The present invention relates to a cistern tank of a condensing boiler, and includes a cistern tank of a condensing boiler having a heating water storage unit and a condensate collecting unit and discharged through a single line of the heating water and the condensate collection unit of the heating water storage unit. The purpose is to provide.
The present invention for realizing this, the heating water storage unit for storing the heating water, the condensate collection unit for collecting the condensate generated in the latent heat exchanger, the heating water and the condensate of the condensate collection unit of the heating water storage unit It consists of a common discharge that is discharged to.

Description

Cistern Tank for Condensing Boiler}

The present invention relates to a cistern tank of a condensing boiler, and includes a cistern tank of a condensing boiler having a heating water storage unit and a condensate collecting unit, and the condensate of the heating water and the condensate collection unit of the heating water storage unit discharged through one discharge unit. It is about.

A boiler is a device for heating a heating medium to supply heating to a heating place or to supply hot water through a faucet.

The type of boiler is classified according to the characteristics such as heating method of heating medium, control method or sealed state.

In particular, according to the type used for heating the heat medium, it is divided into an oil boiler using oil and a gas boiler using gas. Recently, a gas boiler having a low air pollution and easy to use is mainly used.

Gas boilers are divided into condensing boilers and non-condensing boilers according to the method of heating the heating water.

The condensing boiler is a boiler having a sensible heat exchanger in which heating water is directly heated by heat generated from a gas burner, and a latent heat exchanger which absorbs latent heat of exhaust gas passing through the sensible heat exchanger and heats the heating water. Refers to a boiler equipped only with a sensible heat exchanger without a latent heat exchanger.

The condensing boiler may be classified into a down combustion boiler and an up combustion boiler according to the supply direction of heat generated from the gas burner, and the up combustion boiler is a structure in which a sensible heat exchanger and a latent heat exchanger are sequentially provided on an upper side of the gas burner located at the bottom. Is done.

Referring to FIG. 1, the conventional combustion upstream condensing gas boiler 1 includes a gas burner 10 that burns gas and generates heat in the combustion chamber 20, and is generated from the gas burner 10. A sensible heat exchanger (30) for transferring heat to the heating water (71) and a latent heat exchanger (40) for transferring latent heat of exhaust gas passing through the sensible heat exchanger (30) to the heating water (71). It is made to include.

The heating water 71 is stored in the cisterne tank 70, and flows from the cisterne tank 70 to the latent heat exchanger 40 through a second heating and water return pipe 92 so as to provide latent heat of the exhaust gas. By the primary heat, and then flows to the sensible heat exchanger 30 to be heated secondary by heat generated from the gas burner (10).

The heated heating water 71 flows to the heating pipe 90 through the heating water transfer pipe 93 to supply heating to the heating destination 100, and the cistern through the first heating water return pipe 91. The circulation structure is returned to the tank 70.

The exhaust gas that provides latent heat to the heating water in the latent heat exchanger 40 is condensed to generate condensate 61, and the condensate 61 is the latent heat exchanger 40 and the sensible heat exchanger 30. A) flows to the condensate transfer line 63 along the condensate receiving partition wall 50 provided between) and is collected in the condensate collection container 60.

At this time, the condensate collection container 60 is a separate configuration that is additionally provided in the boiler, additional installation space, manufacturing cost and assembly labor was required, and ways to save it have been sought.

The present invention is devised to solve the above problems, the tank of the condensing boiler is provided with a heating water storage unit and a condensate collector, the condensed water of the heating water and the condensate collector of the heating water storage unit is discharged through the common discharge unit To provide that purpose.

In addition, it is to provide a cistern tank of the condensing boiler to prevent the inflow of exhaust gas to the condensate collector and the common discharge of the cistern tank.

The cistern tank of the condensing boiler of the present invention for realizing the above object includes a heating water storage unit for storing the heating water, a condensate collecting unit for collecting condensate generated from a latent heat exchanger, and storing the heating water. It may include a common discharge unit for discharging the condensed water of the heating water and the condensate collector of the outside to the outside.

In addition, one side of the heating water storage unit includes a first bulkhead extending upward from the bottom of the cisterns tank, and a first communication unit for the heating water overflows between the upper end of the first bulkhead and the top of the cisterns tank. Can be done.

In addition, the second partition is provided on one side of the condensate collection unit extending downward from the upper end of the cisterns tank and spaced apart from each other at a predetermined interval, and provided between the first partition and the second partition. And an upper end connected to the first communication part and an open lower end of the heating water discharge part, wherein the inlet of the common discharge part is provided at the condensate collecting part to be formed below the heating water discharge part 231. Can be.

In this case, the inlet of the common discharge portion may be provided on a lower extension line of the heating water discharge portion 231.

In addition, the second partition is provided on one side of the condensate storage portion extending from the upper end of the cisterns tank and spaced apart from the first partition to face a predetermined interval, and provided between the first partition and the second partition. And an upper end of the heating water discharge part connected to the first communication part, and an inlet of the common discharge part provided at a lower end of the heating water discharge part to overflow the condensate water, including the lower end of the second partition wall. Is located below the inlet of the common discharge, the outlet of the condensate transfer line may be located on the opposite side to the inlet of the common discharge with the second partition wall.

In addition, the second partition is provided on one side of the condensate storage portion extending from the upper end of the cisterns tank and spaced apart from the first partition to face a predetermined interval, and provided between the first partition and the second partition. And an upper end connected to the first communication unit and a heating water discharge part having a lower end, and an inlet of the common discharge part provided at a lower end of the heating water discharge part to overflow the condensate, wherein the condensate transfer line The outlet of may be located on the opposite side to the inlet of the common discharge portion with the second partition wall therebetween.

In addition, the common discharge portion may be provided outside the condensate collection unit, the inlet of the common discharge portion may pass through one side wall of the condensate collection unit.

In addition, a second partition wall is provided on one side of the condensate storage unit to connect the upper and lower ends of the cisterns tank and face the first partition wall at a predetermined interval, and the condensate overflows through the second partition wall. And a second communicating part, and a heating water discharge part and the common discharge part provided vertically between the first partition wall and the second partition wall, wherein the heating water discharge part has an upper end connected to the first communication part and a lower end. The common discharge part may be connected to an upper end, and the common discharge part may have an upper end connected to a lower end of the heating water discharge part and the second communication part, and a lower end penetrating the lower end of the cisterne tank to be connected to the outside.

In this case, the heating water discharge portion and the common discharge portion may be formed in a tubular shape, the heating water discharge portion of the tubular form and the common discharge portion of the tube form may be provided to be spaced apart from the first partition and the second partition by a predetermined interval. have.

In addition, a second partition wall provided on one side of the condensate storage unit extending downward from an upper end of the cisterns tank and spaced apart from the first partition wall to face the first partition wall, and the condensate overflows through the second partition wall. The second communication unit is provided between the first and second partitions, the upper end is connected to the first communication unit and extends to the height of the second communication unit is located below the second communication unit It includes a heating water discharge portion connected to, but may be provided to the inlet of the common discharge portion at the lower end of the second communication portion adjacent from the second communication portion.

At this time. The heating water discharge unit may be formed in a tubular shape, and the heating water discharge unit may be provided to be spaced apart from the first and second partition walls by a predetermined interval.

In addition, in the condensate transfer line for connecting the latent heat exchanger and the condensate collection unit to transfer the condensate to the condensate collection unit, the condensate transfer line is extended downward inside the condensate collection unit, the outlet of the condensate transfer line It may be located below the inlet of the common discharge.

The shared tank of the condensing boiler, wherein the common discharge part is provided to penetrate the cisterna tank in a horizontal direction, or the inlet of the common discharge part is to penetrate an outer wall of the cistern tank.

The common discharge part may be provided in the condensate collecting part so as to penetrate the lower end of the condensate collecting part and be connected to the outside.

In addition, the condensate transfer line may extend below the condensate collection unit, and the outlet of the condensate transfer line may be located below the second communication unit.

In addition, the condensate transfer line may extend downward inside the condensate collection unit, so that a horseshoe-shaped channel bent downward on the condensate transfer line may be formed.

The cistern tank of the condensing boiler according to the present invention includes a heating water storage unit and a condensate collection unit, and is provided with a common discharge unit for discharging the heating water stored in the heating water storage unit and the condensate stored in the condensate collection unit to the outside. In addition, the installation space and manufacturing cost can be saved, and the assembly labor can be reduced.

In addition, the outlet of the condensate transfer line extending downward inside the condensate collector may be immersed in the condensate stored in the condensate collector to prevent the inflow of exhaust gas to the condensate collector.

In addition, the second tank extends downward from the upper end of the cisterns tank and the lower end is immersed in the condensate stored in the condensate collecting unit, thereby preventing the inflow of the exhaust gas to the common discharge part.

In addition, it is provided with a convex horseshoe-shaped flow path down on the condensate transfer line, it is possible to prevent the inflow of exhaust gas to the condensate collection unit.

1 is a view showing the structure of an upstream combustion condensing boiler according to the prior art.
2 is a view showing the structure of the cisterns tank according to the first embodiment of the present invention.
Figure 3 is a view showing the structure of a cistern tank according to a second embodiment of the present invention.
4 is a view showing the structure of a cistern tank according to a third embodiment of the present invention.
5 is a view showing the structure of a cistern tank according to a fourth embodiment of the present invention.
6 is a view showing the structure of a cisterns tank according to a fifth embodiment of the present invention.
7 is a view showing the structure of a cistern tank according to a sixth embodiment of the present invention.
8 is a view showing the structure of a cistern tank according to a seventh embodiment of the present invention.
9 is a view showing the structure of a cistern tank according to an eighth embodiment of the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention with reference to the accompanying drawings in detail as follows. Here, the same reference numerals are used for the same components as those of the prior art, and the detailed description of the same components as those described in the prior art will be omitted, and the components newly added to the present invention will be described. Let's explain.

Referring to Figure 2 will be described with respect to the cistern tank 200 of the condensing boiler according to the first embodiment of the present invention.

According to the first embodiment of the present invention, the cistern tank 200 of the condensing boiler 1 includes a heating water storage unit 210 in which the heating water 71 is stored, and condensate collecting the condensate 61. The collection unit 220, the heating water 71 of the heating water storage unit 210 and the condensate 61 of the condensate collection unit 220 is composed of a common discharge unit 230 discharged to the outside.

The heating water 71 stored in the heating water storage unit 210 of the cisterne tank 200 flows to the latent heat exchanger through the second heating and water return pipe 92 during heating operation, and is primarily driven by the latent heat of the exhaust gas. It is heated and flows to the sensible heat exchanger and is heated secondarily by the heat generated from the gas burner.

The heated heating water flows to the heating pipe to supply heating to the heating destination, and the circulation structure is returned to the heating water storage unit 210 of the cisterns 200 through the first heating and return pipe 91. Achieve.

In addition, the condensate 61 is generated by the exhaust gas condensed in the latent heat exchanger during heating operation, and flows along the condensate transfer line 63 to the condensate collection unit 220 of the cisterns 200. Is collected.

The condensate collection unit 220 may be provided with a neutralizing agent for neutralizing acidic substances such as CO 2, NO x, and SOx contained in the condensate 61, and the condensate introduced into the condensate collecting unit 220 to the neutralizing agent. 61 is reacted and neutralized.

The first partition 211 and the second partition 221 are spaced apart from each other by the heating water storage 210 and the condensate collector 220.

The first partition 211 is provided at one side of the heating water storage unit 210 to extend upward from the lower end of the cisterns tank 200, the upper end of the first partition 211 and the The first communication portion 241 is formed between the upper ends of the cisterns tank 200.

In addition, the second partition 212 is provided on one side of the condensate collector 220 to connect the upper and lower ends of the cisterns 200, the second partition 212 is the second A second communication portion 242 penetrating the partition wall 212 is formed.

The heating water discharge part 231 and the common discharge part 230 in which the heating water 71 is discharged are disposed vertically between the first partition wall 211 and the second partition wall 221.

The heating water discharge unit 231, the upper end is connected to the first communication unit 241 and the lower end is made to be connected to the upper end of the common discharge unit 230, the common discharge unit 230, the upper end It may be connected to the lower end of the heating water discharge unit 231 and the second communication unit 242 and the lower end penetrates the lower end of the cisterns 200.

During heating operation, the amount of the heating water 71 stored in the heating water storage unit 210 is increased or decreased in the heating water storage unit 210, and in some cases, the pressure inside the heating pipe increases to increase the heating water ( When the height of the liquid level A of the 71 increases to the height of the first partition 211, the heating water 71 overflows to the first communication part 241, thereby discharging the heating water discharge part 231. Through the flow to the common discharge unit 230 is discharged to the outside.

In addition, during heating operation, as the amount of the condensate 61 stored in the condensate collection unit 220 increases, the second overflow portion 242 overflows, and the common discharge unit 230 flows to the outside. Discharged.

At this time, the second communication unit 242 is formed at a sufficient height from the lower end of the cisterns tank 200, the second condensate 61 introduced to the condensate collection unit 220 is sufficiently neutralized after the second It may be made to overflow to the communication unit 242.

In addition, a trap may be formed to prevent the exhaust gas of the latent heat exchanger including the toxic component from being discharged to the outside through the common discharge unit 230.

The trap prevents the exhaust gas from flowing into the condensate collecting unit 220 through the condensate collecting line 63 or prevents the common discharge unit 230 from being inside the condensate collecting unit 220. It can be made in the form of preventing the discharge through the outside.

The trap is provided such that the condensate transfer line 63 extends inwardly downward of the condensate collection unit 220, and an end outlet 63b of the extended condensate transfer line 63 is connected to the second communication unit. It is formed by being provided below 242.

At this time, the exhaust gas flowing through the condensate transfer line 63 is blocked by the liquid level B of the condensate 61 so that the inflow into the condensate collector 220 is blocked.

3 to 9, the second to eighth embodiments of the present invention are described.

In the second to eighth embodiments of the present invention, a detailed description of the contents overlapping with the above-described embodiments will be omitted, and description will be made based on elements having differences.

Referring to Figure 3 will be described with respect to the cistern tank 200 of the condensing boiler according to a second embodiment of the present invention.

According to the second embodiment, a tubular heating water discharge part 231 and a tubular common discharge part 230 are disposed vertically between the first partition 211 and the second partition 221. Can be.

The tubular heating water discharge part 231 has an upper end connected to the first communication part 241 and a lower end connected to an upper end of the common discharge part 230. 230 has an upper end connected to the lower end of the heating water discharge part 231 and the second communication part 242 and the lower end penetrating the lower end of the cisterns 200.

In this case, the pipe-type heating water discharge unit 231 and the pipe-type common discharge unit 230 may be provided so that a predetermined distance from the first partition 211 and the second partition 211. .

Referring to Figure 4 will be described with respect to the cistern tank 200 of the condensing boiler according to a third embodiment of the present invention.

According to the third embodiment, a tubular heating water discharge part 231 may be provided between the first partition wall 211 and the second partition wall 221.

The pipe-type heating water discharge part 231 has an upper end connected to the first communication part 241 and extended downwardly to a height at which the second communication part 242 is located, so that the second communication part 242 is provided. It can be made to be connected to).

In this case, an inlet 230a of the common discharge part connected to the outside is provided at a lower end of the heating water discharge part 231 adjacent to the second communication part 242 and overflows to the first communication part 241. The condensed water 61 overflowing the heating water 71 descending along the heating water discharge part 231 and the second communication part 242 is discharged to the outside through the inlet 230a of the common discharge part. do.

The inlet 230a of the common discharge part may be provided to penetrate an outer wall of the cisterns 200, and may be connected to the common discharge part 230 and connected to the outside.

A description will be given of the cisterne tank 200 of the condensing boiler according to the fourth embodiment of the present invention with reference to FIG.

According to the fourth embodiment, the second partition 221 may be provided at one side of the condensate collector 220 to extend downward from the top of the cisterns 200.

The heating water discharge part 231 having an upper end connected to the first communication part 241 and having an open lower end is provided between the first partition 211 and the second partition 212, and discharges the heating water. The inlet 230a of the common discharge part may be provided below the part 231.

During heating operation, as the amount of condensate 61 stored in the condensate collection unit 220 increases, the condensate 61 overflows to the inlet 230a of the common discharge part and is discharged to the outside.

Therefore, the trap for preventing the exhaust gas from flowing into the condensate collection unit 220 through the condensate transfer line 63 is an end outlet 63b of the extended condensate transfer line 63. Is formed by being located below the inlet (230a) of the common discharge portion.

In addition, the heating water 71 overflows to the first communication unit 241 and flows into the condensate collecting unit 220 through the heating water discharge unit 231 and enters the condensate collecting unit 220. Mixed with the stored condensate 61 is discharged to the outside through the inlet 230a of the common discharge.

In addition, the inlet 230a of the common discharge part may be formed on a lower extension line of the heating water discharge part 231.

In this case, the heating water 71 descending through the heating water discharge unit 231 may be introduced into the inlet 242 of the common discharge unit 230 without being mixed in the condensate 61. have.

A description will be given of the cisterne tank 200 of the condensing boiler according to the fifth embodiment of the present invention with reference to FIG.

According to the fifth embodiment, the common discharge part 230 may be formed to penetrate the lower end of the condensate collection part 220 to be connected to the outside.

In addition, since the second partition 221 and the heating water discharge part 231 are not provided, the heating water 71 overflowing to the first communication part 241 is outside the first partition 211. Will descend.

The lowered heating water 71 may be mixed in the condensate 61 stored in the condensate collecting unit 220, and the condensate 61 in which the heating water is mixed overflows to the inlet 230a of the common discharge part. And is discharged to the outside through the common discharge unit 230.

A description will be given of the cisterne tank 200 of the condensing boiler according to the sixth embodiment of the present invention with reference to FIG.

According to the sixth embodiment, the second partition wall 221 may be provided at one side of the condensate collector 220 to extend downward from the top of the cisterns tank 200.

A heating water discharge part 231 having an upper end connected to the first communication part 241 is provided between the first partition wall 211 and the second partition wall 221. An inlet 230a of the common discharge part is provided at the bottom.

In addition, the lower end of the second partition 212 is located below the common outlet inlet (230a), the outlet (63b) of the condensate transfer line 63 with the second partition 221 therebetween. It is located on the side opposite to the inlet 230a of the common discharge.

The outlet 63b of the condensate transfer line 63 may be located above the inlet 230a of the common discharge portion, wherein the exhaust gas is collected through the condensate transfer line 63. May be introduced into the atmospheric layer.

At this time, the lower end of the second partition 212 is formed to be lower than the inlet 230a of the common discharge portion to form a trap for preventing the exhaust gas from entering the inlet 230a of the common discharge portion. do.

That is, during heating operation, the condensate 61 passes through the space 222 spaced between the lower end of the second partition 221 and the lower end of the cisterns 200 to the inlet 230a of the common discharge part. It reaches and overflows to the inlet 230a of the common discharge part and is discharged to the outside.

However, since the exhaust gas is blocked by the second bulkhead 221 and the liquid level B of the condensate 61, the exhaust gas is blocked from flowing to the inlet 230a of the common outlet part. It is possible to prevent the flow into the 230a.

Referring to Figure 8 will be described with respect to the cistern tank 200 of the condensing boiler according to the seventh embodiment of the present invention.

According to the seventh exemplary embodiment, the second partition wall 221 may be provided at one side of the condensate collector 220 to extend downward from an upper end of the cisterns 200.

A heating water discharge part 231 having an upper end connected to the first communication part 241 and having an open lower end is provided between the first partition 211 and the second partition 221, and the heating water discharge part is provided. The inlet 230a of the common discharge part is provided at the lower end of the 231.

In addition, the outlet 63b of the condensate transfer line 63 may be positioned to be opposite to the inlet 230a of the common discharge part with the second partition 221 interposed therebetween.

A description will be given of the cisterne tank 200 of the condensing boiler according to the eighth embodiment of the present invention with reference to FIG.

According to the eighth embodiment, the common discharge part 230 is provided to the outside of the condensate collecting part 220, and the inlet 230a of the common discharge part penetrates one side wall of the condensate collecting part 220. It is formed to.

The outlet 63b of the condensate transfer line 63 may be located above the inlet 230a of the common discharge portion, and has a horseshoe-shaped flow path 63-1 bent downward on the condensate transfer line 63. Can be formed.

At this time, the condensate 61 flows through the transfer line 63 and accumulates in a portion bent downward of the horseshoe-shaped flow path 63-1, and condensed water accumulated in the horseshoe-shaped flow path 63-1. By the flow of the exhaust gas is blocked by the trap is formed to prevent the exhaust gas from entering the condensate collector 220.

In addition, the condensate transfer line 63 may extend into the condensate collector 220, and the horseshoe-shaped flow path may be formed on the extended transfer line 63.

In addition, the horseshoe-shaped flow path may be formed on the transfer line of the portion connecting the condensate collection unit 220 and the latent heat exchanger (40).

In addition, the second partition 221 is provided on one side of the condensate collection unit 220 extends from the upper end of the cisterns tank 200 to the lower side, the lower end of the second partition 221 is the common It is made to be located below the inlet 230a of the discharge portion, it is possible to block the flow of the exhaust gas of the condensate collection unit 220 to the heating water storage unit 210.

As described above, according to the cistern tank 200 of the condensing boiler according to the present invention, the cistern tank 200 including the heating water storage unit 210 and the condensate collection unit 220 is provided with an installation space. And the manufacturing cost can be saved and assembly labor can be reduced.

In addition, the heating water 71 stored in the heating water storage unit 210 and the condensate 61 stored in the condensate collection unit 220 is provided with a common discharge unit 230 is discharged to the outside, installation space and manufacturing cost It can save cost and reduce assembly work.

In addition, the outlet 63b of the condensate transfer line 63 extending downward inside the condensate collecting unit 220 is immersed in the condensate 61 stored in the condensate collecting unit 220 so as to condense the condensate collecting unit 220. It is possible to prevent the inflow of exhaust gas to.

In addition, the common discharge part 230 is provided with a second partition wall 221 extending downward from an upper end of the cisterns 200 and having a lower end immersed in the condensed water 61 stored in the condensed water collector 220. It is possible to prevent the inflow of exhaust gas to).

In addition, the condensate transfer line 63 may be provided with a convex downwardly shaped horseshoe passage 63-1 to prevent the inflow of exhaust gas to the condensate collection unit 220.

As described above, the present invention is not limited to the above-described embodiments, and modifications apparent by those skilled in the art to which the present invention pertains may be made without departing from the technical spirit of the present invention claimed in the claims. Possible, such modifications are within the scope of the present invention.

63: condensate transfer line 63b: condensate transfer line outlet
200: cistern tank 210: heating water storage unit
211: first bulkhead 220: condensate collection unit
221: second bulkhead 230: common discharge portion
230a: inlet for common outlet 231: outlet for heating water
241: first communication unit 242: second communication unit
A: liquid level of heating water B: liquid level of condensate

Claims (16)

In the cistern tank of the condensing boiler equipped with a sensible heat exchanger and a latent heat exchanger for heating the heating water,
A heating water storage unit storing the heating water; Wow
A condensate collector for collecting condensate generated in the latent heat exchanger;
A common discharge unit configured to discharge the heating water of the heating water storage unit and the condensate of the condensate collection unit to the outside;
Cistern tank of the condensing boiler comprising a. The method of claim 1,
A first partition wall extending upward from a lower end of the cisterne tank on one side of the heating water storage part;
A first communication portion in which the heating water overflows between an upper end of the first partition wall and an upper end of the cistern tank;
Cistern tank of the condensing boiler, comprising a. The method of claim 2,
A second partition wall provided at one side of the condensate collection unit and extending downward from an upper end of the cisterns tank and facing the first partition wall at a predetermined interval;
And a heating water discharge part provided between the first partition wall and the second partition wall, the upper end of which is connected to the first communication part and whose lower end is opened.
The inlet of the common discharge portion is provided in the condensate collection unit, the tank of the condensing boiler, characterized in that formed in the lower side of the heating water discharge. The method of claim 3,
The inlet of the common discharge portion is a continuous tank of the condensing boiler, characterized in that provided on the lower extension line of the heating water discharge portion. The method of claim 2,
A second partition wall provided at one side of the condensate storage unit and extending downward from an upper end of the cisterns tank and facing the first partition wall at a predetermined interval;
A heating water discharge part provided between the first partition wall and the second partition wall and having an upper end connected to the first communication part;
Included at the bottom of the heating water discharge portion is the inlet of the common discharge portion of the condensate overflow;
The lower end of the second partition is located below the inlet of the common discharge,
The tank of the condensing boiler, characterized in that the outlet of the condensate transfer line for transferring the condensate from the latent heat exchanger to the condensate collection unit on the opposite side to the inlet of the common discharge portion with the second partition wall. The method of claim 2,
A second partition wall provided at one side of the condensate storage unit and extending downward from an upper end of the cisterns tank and facing the first partition wall at a predetermined interval;
A heating water discharge part provided between the first partition wall and the second partition wall, the upper end of which is connected to the first communication part and whose lower end is opened;
Included in the lower end of the heating water discharge portion is the inlet of the common discharge portion of the condensate overflow;
The tank of the condensing boiler, characterized in that the outlet of the condensate transfer line for transferring the condensate from the latent heat exchanger to the condensate collection unit on the opposite side to the inlet of the common discharge portion with the second partition wall. The method of claim 2,
The common discharge portion is provided outside the condensate collector, the inlet of the common discharge portion of the condensing boiler, characterized in that the tank tank of the condensing boiler. The method of claim 2,
A second partition wall provided at one side of the condensate storage unit to connect an upper end and a lower end of the cisterns tank to face the first partition wall at a predetermined interval;
A second communication portion through which the condensate overflows through the second partition wall;
And a heating water discharge part and the common discharge part provided vertically between the first partition wall and the second partition wall.
The heating water discharging unit has an upper end connected to the first communication unit and a lower end connected to the upper end of the common discharge unit, and the shared discharge unit has an upper end connected to the lower end of the heating water discharge unit and the second communication unit, and the lower end is the It is made to be connected to the outside through the bottom of the cistern tank;
Cistern tank of the condensing boiler, characterized in that. The method of claim 8,
The heating water discharge portion and the common discharge portion is made in the form of a tube,
The tank of the condensing boiler, characterized in that the pipe-type heating water discharge portion and the pipe-type common discharge portion is provided to be spaced apart from the first partition and the second partition by a predetermined interval. The method of claim 2,
A second partition wall provided at one side of the condensate storage unit and extending downward from an upper end of the cisterns tank and facing the first partition wall at a predetermined interval;
A second communication portion through which the condensate overflows through the second partition wall;
A heating water discharge part provided between the first partition wall and the second partition wall, the upper end of which is connected to the first communication part and extends to a height at which the second communication part is located below and connected to the second communication part; Including,
The tank of the condensing boiler, characterized in that the inlet of the common discharge portion is provided at the lower end of the second communication portion adjacent to the second communication portion. The method of claim 10,
The heating water discharge portion is made in the form of a tube,
The tank of the condensing boiler, characterized in that the heating water discharge portion of the tubular shape is provided to be spaced apart from the first partition and the second partition by a predetermined interval. The method according to any one of claims 1 to 7,
A condensate transfer line for transferring the condensate from the latent heat exchanger to the condensate collection unit extends downward inside the condensate collection unit,
The outlet tank of the condensate transfer line is a lower tank of the condensing boiler, characterized in that located below the inlet of the common discharge. The method according to any one of claims 1 to 7,
The inlet of the common discharge portion is a tank of the condensing boiler, characterized in that the penetrating through the outer wall of the tank. The method according to any one of claims 1 to 7,
The common discharge part is provided in the condensate collection unit, the tank of the condensing boiler, characterized in that connected to the outside through the lower end of the condensate collection unit. The method according to any one of claims 8 to 11,
A condensate transfer line for transferring the condensate from the latent heat exchanger to the condensate collection unit extends downward inside the condensate collection unit,
The outlet tank of the condensate transfer line is a lower tank than the second communication portion, characterized in that the tank of the condensing boiler. The method according to any one of claims 1 to 11,
A condensate transfer line for transferring the condensate from the latent heat exchanger to the condensate collection unit extends downward inside the condensate collection unit,
Cistern tank of the condensing boiler, characterized in that the condensing water transfer line is formed with a horseshoe-shaped flow path bent downward.

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