KR20220103453A - oil boiler - Google Patents

Abstract

The present invention relates to an oil boiler. More specifically, according to a provided heat exchanger, the longitudinal direction of a plurality of pipes is formed in a zigzag pattern, and one side of the plurality of pipes is disposed at a predetermined distance from each other in the longitudinal direction of a first distribution pipe and connected to communicate with each other. In addition, the other sides of the plurality of pipes are disposed at a predetermined distance from each other in the longitudinal direction of a second distribution pipe and connected to communicate with each other. Each of the plurality of pipes is formed into an elliptical shape so that the vertical direction of the elliptical shape is directed vertically. Accordingly, the plurality of elliptical pipes are disposed in the longitudinal direction of the first and second distribution pipes at the predetermined distance from each other.

Description

oil boiler

The present invention relates to an oil boiler, and more particularly, the longitudinal direction of a plurality of pipes is formed in a zigzag, and one side of the plurality of pipes is disposed at a predetermined distance from each other in the longitudinal direction of the first distribution pipe and connected to communicate with each other. And the other side of the plurality of pipes is arranged at a predetermined distance from each other in the longitudinal direction of the second distribution pipe and connected to communicate with each other,

It provides a heat exchanger having a configuration in which each of the plurality of pipes is formed into an elliptical shape, and the plurality of elliptical pipes are disposed in the longitudinal direction of the first and second distribution pipes at a predetermined distance from each other with the vertical direction of the oval elongated in the vertical direction.

Among the oil boilers (including LNG or LPG boilers) in circulation, some boilers generate residual heat and latent heat from the exhaust gas that has undergone heat exchange in the main heat exchange part, which directly absorbs the burned heat of the burner, and the main heat exchange part, in order to increase thermal efficiency. There is provided a heat exchanger composed of a sub-heat exchange unit that absorbs, and a boiler of this type is called a condensing boiler.

Currently, many condensing boilers have been put to practical use using gas fuel such as LNG or LPG, contributing to an increase in boiler efficiency and a reduction in fuel costs.

Looking at the condensing oil boiler of registration number 10-0484123 among conventional boilers

The main heat exchange unit 31 is provided with a first water tank 33 in which heating water is stored along the periphery of the combustion chamber 20 on the inside and a heating outlet is installed on the outer side.

A secondary heat exchange part 32 integrally formed with the main heat exchange part 31 is formed below the main heat exchange part 31 .

The sub-heat exchange part 32 communicates with the first water tank 33 on the inside, and the second water tank 34 in which the heating inlet is installed is formed on the lower side of the outer surface.

The second water tank 34 is provided with a plurality of pipes 40 communicating with the combustion chamber 20 on the inside in the vertical direction.

Heating water flows into the first water tank 33 and the second water tank 34 that are communicated with each other through the heating water inlet, and is communicated with the combustion chamber 20 and the combustion chamber 20 so that the high-temperature exhaust gas passes. After being heated by circulating around (40), it flows out through the heating water outlet

do.

In this way, by forming the main heat exchange part as the secondary heat exchange part, the volume of the boiler becomes larger and the heating space becomes larger and the heating space becomes larger, so that more heat loss occurs. Since the flue 60, which is the gas outlet, is inverted, the volume is further increased, which causes problems such as an increase in manufacturing cost and an increase in installation space.

As devised to solve the above conventional problems,

The present invention configures the boiler to be compact and small even if a large number of pipes for heat exchange are accommodated in a narrow boiler body internal space. That is, to provide a boiler with improved thermal efficiency while providing a compact oil boiler, it is configured as follows.

The longitudinal direction of the plurality of pipes is formed in a zigzag, and one side of the plurality of pipes is disposed at a predetermined distance from each other in the longitudinal direction of the first distribution pipe to communicate with each other, and the other side of the plurality of pipes is a second distribution pipe Arranged at a certain distance from each other in the longitudinal direction of the

It provides a heat exchanger having a configuration in which the plurality of pipes are respectively formed into an elliptical shape, and the plurality of elliptical pipes are disposed in the longitudinal direction of the first and second distribution pipes at a predetermined distance from each other so that the elliptical elongated vertical direction is vertically oriented.

As devised in order to achieve the problems of the prior art as described above,

In the present invention, the longitudinal direction of the plurality of stainless pipes 200 is formed in a zigzag manner, but one side 200a of the plurality of pipes 200 is the first distribution pipe 210 through which water flows from the water pipe 300a in the longitudinal direction They are placed at a certain distance from each other and connected to communicate with each other.

The other side 200b of the plurality of stainless pipes 200 is in the longitudinal direction of the second distribution pipe 220 connected to the water conduit 300b in which the water heated in the plurality of stainless pipes 200 is collected and moved to the place where the hot water is used. Arranged at a certain distance from each other and connected to communicate with each other,

Each of the plurality of stainless pipes 200 is molded into an elliptical shape so that the elongated vertical direction is vertically oriented in the oval shape.

a heat exchanger 230 for arranging a plurality of stainless pipes 200 in the longitudinal direction of the first and second distribution pipes 210 and 220 at a predetermined distance from each other;

a rectangular body 240 for accommodating the heat exchanger 230;

a burner 250 connected in communication with one side 240a of the body 240 and spraying a flame to the heat exchanger 230;

a combustion gas outlet 260 through which combustion gas generated from the burner 250 is discharged to the other side 240b of the body 240;

A latent heat exchanger 270 is connected to the combustion gas outlet 260 so that latent heat contained in the combustion gas discharged through the combustion gas outlet 260 is received and heat exchanged.

The latent heat exchanger 270 is a first formed in both directions of the heat exchanger body 280 by the heat exchanger body 280 formed in a rectangular or cylindrical shape and the internal partition walls 280a and 280b of the heat exchanger body 280 . , and 2 distribution spaces (280c, 280d);

A plurality of waterway pipes 290 are disposed between the first and second distribution spaces 280c and 280d.

Connecting one side 290a of the plurality of waterway pipes to each other at a predetermined distance from each other so as to communicate with the first distribution space 280c,

The other side 290b of the plurality of waterway pipes 290 is connected by passing through the second distribution space 280d at a predetermined distance from each other:

The first and second distribution spaces 280c and 280d are respectively connected to water channel pipes 300 and 301 through which water flows,

The first and second distribution spaces ( The other side 280h of the body 280f corresponding to between 280c and 280d) is a combustion gas outlet 310 through which the combustion gas introduced into the combustion gas outlet 260 is discharged via the plurality of water pipe 290. is the formed configuration.

The plurality of waterway pipes 290 are each formed in an oval shape so that the elongated vertical direction is vertically oriented in an elliptical shape.

It is a configuration in which a plurality of stainless pipes 290 are arranged in the longitudinal direction between the first and second distribution spaces 280c and 280d at a predetermined distance from each other.

The waterway pipe 300 of any one of the waterway pipes 300 and 301 receives water from the outside, and the waterway pipe 301 is connected to the first distribution pipe 210 of the heat exchanger 230 as a waterway pipe 300a. In the connected state, the water flowing into the waterway pipe 300 is dispersed in the second distribution space 280d, moved to a plurality of waterway pipes 290, respectively, and then collected in the first distribution space 280c, and the waterway pipe ( 300a) and is introduced into the first distribution pipe 210 .

As described above, in the oil boiler of the present invention, the longitudinal direction of the plurality of pipes is formed in a zigzag, and one side of the plurality of pipes is disposed at a predetermined distance from each other in the longitudinal direction of the first distribution pipe to communicate with each other, The other side of the plurality of pipes is arranged at a predetermined distance from each other in the longitudinal direction of the second distribution pipe and connected to communicate with each other,

Each of the plurality of pipes is molded into an elliptical shape so that the vertical direction of the oval elongated is vertically oriented so that the plurality of elliptical pipes are arranged at a predetermined distance from each other in the longitudinal direction of the first and second distribution pipes, and the first and second distribution pipes are arranged in the longitudinal direction. By arranging a plurality (many) of elliptical pipes over a short distance (gili) of

By disposing the compact heat exchanger in the width direction of the boiler, a plurality of pipes can be arranged in the width direction of the narrow boiler.

The advantage of this is that a plurality of oval pipes are arranged at a distance corresponding to the width direction of the flame outlet of the burner mounted on the boiler body, so that the flame of the burner can be sprayed over the entire plurality of oval pipes, so that there is no loss of flame. It is effective in terms of energy efficiency as it can heat the oval pipe of the same time and evenly.

If a plurality of circular pipes are disposed in the width direction, a small amount of circular pipes are disposed in the width direction (diameter direction) of the flame outlet of the burner.

As a result, the flame is discharged to the outside after heating only a small amount of the pipe. Then the energy loss is large.

Therefore, as described above, according to the present invention, a large amount of elliptical pipes are disposed in the direction of the outlet by forming them in an oval shape.

1 is a perspective view of an oil boiler of the present invention, in which two bodies corresponding to the boiler are installed;
2 is a perspective view showing a heat exchanger of the present invention and a partial cross-sectional view of the heat exchanger;
3 is a cross-sectional view of a body corresponding to the boiler of the present invention;
4,5 is a perspective view showing the inside of the latent heat exchanger of the present invention;
6 is an understanding of the present invention;
7 is an explanatory view of the stainless pipe of the present invention.

1 to 5, the configuration will be reviewed again and an embodiment thereof will be described.

In the present invention, the longitudinal direction of the plurality of stainless pipes 200 is formed in a zigzag manner, but one side 200a of the plurality of pipes 200 is the length of the first distribution pipe 210 through which water is introduced from the water channel 300a. They are placed at a certain distance from each other in the direction and connected to communicate with each other.

The other side 200b of the plurality of stainless pipes 200 is in the longitudinal direction of the second distribution pipe 220 connected to the water conduit 300b in which the water heated in the plurality of stainless pipes 200 is collected and moved to the place where the hot water is used. Arranged at a certain distance from each other and connected to communicate with each other,

Each of the plurality of stainless steel pipes 200 is formed in an elliptical shape so that the elongated vertical direction is vertically oriented in the oval shape.

a heat exchanger 230 for disposing a plurality of stainless pipes 200 in the longitudinal direction of the first and second distribution pipes 210 and 220 at a predetermined distance from each other;

a rectangular body 240 for accommodating the heat exchanger 230;

a burner 250 connected in communication with one side 240a of the body 240 and spraying a flame to the heat exchanger 230;

A combustion gas outlet 260 through which combustion gas generated from the burner 250 is discharged on the other side 240b of the body 240; (1)

An example of the configuration is as follows.

When power is applied to the burner 250 , the burner 250 is ignited by the oil to heat the plurality of stainless steel pipes 140 .

As such, in the heating process, water flows into the first distribution pipe 210 through the water channel 300a and is dispersed, then passes through the plurality of stainless pipes 140 and is collected in the second distribution pipe 220 through the water channel 300b. Go to the hot water source.

This movement is pumped by a motor pump (not shown) connected to the water pipe.

The following configuration is as follows.

A latent heat exchanger 270 is connected to the combustion gas outlet 260 so as to receive latent heat (heat remaining in the exhaust gas) contained in the combustion gas discharged through the combustion gas outlet 260 to exchange heat.

The latent heat exchanger 270 is a first formed in both directions of the heat exchanger body 280 by the heat exchanger body 280 formed in a rectangular or cylindrical shape and the internal partition walls 280a and 280b of the heat exchanger body 280 . , and 2 distribution spaces (280c, 280d);

A plurality of waterway pipes 290 are disposed between the first and second distribution spaces 280c and 280d.

Connecting one side 290a of the plurality of waterway pipes to each other at a predetermined distance from each other so as to communicate with the first distribution space 280c,

The other side 290b of the plurality of waterway pipes 290 is connected by passing through the second distribution space 280d at a predetermined distance from each other:

The first and second distribution spaces 280c and 280d are respectively connected to water channel pipes 300 and 301 through which water flows,

The first and second distribution spaces are connected in communication with one side (280g) of the body (280f) corresponding to the first and second distribution spaces (280c, 280d) to the discharge port (260a) of the combustion gas outlet (260), and the first and second distribution spaces The other side (280h) of the body (280f) corresponding to between (280c, 280d) is a combustion gas discharge hole ( 310) is formed.

An example of the configuration is as follows.

The flame generated from the burner 250 is heat-exchanged with the plurality of stainless pipes 200 , but latent heat remains in the exhaust gas generated from the flame of the burner.

Exhaust gas containing this latent heat passes between the plurality of water pipe 290 through the combustion gas outlet 260 via the plurality of stainless pipes 200 and is discharged to the atmosphere at the combustion gas discharge hole 310 do.

In this process, the plurality of waterway pipes 430 are heated by the latent heat of the exhaust gas, and the heated plurality of waterway pipes 430 exchange heat with water flowing into the plurality of waterway pipes.

When the water is pumped from an external (not shown) motor pump, the water passes through the water pipe (300).

It is dispersed in the second distribution space 280d and moved to a plurality of waterway pipes 290, respectively.

Collected in the first distribution space (280c).

The collected water passes through the water pipe 300a and is dispersed in the first distribution pipe 210 and moves to the plurality of stainless pipes 290 .

In this way, there is an energy utilization effect in that the latent heat of the exhaust gas discarded is heated through the latent heat exchanger 270 to warm the cold water.

The configuration is as follows.

The plurality of waterway pipes 290 are each formed in an elliptical shape so that the elongated vertical direction is vertically oriented in an elliptical shape.

It is a configuration in which a plurality of stainless pipes 290 are arranged in the longitudinal direction between the first and second distribution spaces 280c and 280d at a predetermined distance from each other.

The waterway pipe 300 of any one of the waterway pipes 300 and 301 receives water from the outside, and the waterway pipe 301 is connected to the first distribution pipe 210 of the heat exchanger 230 as a waterway pipe 300a. In the connected state, the water flowing into the waterway pipe 300 is dispersed in the second distribution space 280d, moved to a plurality of waterway pipes 290, respectively, and then collected in the first distribution space 280c, and the waterway pipe ( 300a) and is introduced into the first distribution pipe 210 .

In this way, by forming a plurality of pipes in an elliptical shape, each of the plurality of elliptical water pipes is placed at a predetermined distance from each other in an elliptical elongated vertical direction, and arranging the plurality of waterway pipes in the width direction inside the latent heat exchanger 270 It can be arranged in the width direction of a narrow space.

For this reason, it is possible to install the latent heat exchanger 270 of the present application in a water pipe line without the need for a separate latent heat exchanger room.

By forming the latent heat exchanger of the present invention as thin (diameter 100mm ~ 150mm) and long (1000mm ~ 1500mm), it is possible to achieve product perfection when connected to waterway piping.

The plurality of oval-shaped stainless pipes 200 and the stainless pipes 200 are spaced apart from each other within the range of 5 mm to 10 mm, and arranged closely in the width direction of the body 240 of the boiler,

The diameter in the inner width direction of the stainless pipe 200 is within the range of 4 mm to 7 mm so that water or the wind of the blower is in close contact with the inner wall of the stainless pipe and heat exchange is made while moving.

When the diameter of the inner width direction of the stainless pipe 200 is within 4 mm, it was confirmed through an experiment that water resistance occurs and water does not move smoothly,

When the diameter of the inner width direction of the stainless pipe 200 is 7 mm or more, water resistance does not occur, but it was confirmed that the water temperature is lowered because heat exchange is not performed in the central portion of the water.

And it is possible to accommodate a large number of stainless steel pipes 200 for heat exchange in a narrow space by arranging the plurality of stainless pipes 200 and the intervals between the stainless pipes 200 within the range of 5 mm to 10 mm.

However, when the distance is within 5 mm, the burner does not burn smoothly due to resistance generated by the discharge flame of the burner,

When the distance is within 5 mm, the cleaning tool cannot be pushed between the plurality of stainless pipes 200 and the stainless pipes 200 .

And when the distance between the plurality of stainless pipes (including copper pipes) and the stainless pipes 200 is in the range of 5 mm to 10 mm or more, the flame of the burner 250 does not receive resistance, so heat exchange is not performed smoothly and the combustion gas outlet 260 ) was confirmed to be moved.

1. The plurality of stainless pipes 200 are characterized in that the arrangement of the plurality of stainless pipes 200 is arranged in a zigzag manner so that the flame discharged from the burner 250 is dispersed in a zigzag inside the body 240 .

2. By disposing the plurality of stainless pipes 200 in a zigzag manner in this way, the flame of the burner 250 collides with the plurality of stainless pipes 200 arranged in a zigzag manner and is dispersed throughout the inside of the body 240 and the plurality of stainless pipes (200) is heated. Therefore, heat exchange is performed smoothly.

3. A plurality of first upper stainless steel pipes 201a are respectively disposed on the upper center between the plurality of zigzag stainless steel pipes 200, and the second upper side in the center between the plurality of first upper stainless steel pipes 201a It means arranging each of a plurality of stainless steel pipes 201b .

200a: one side
200b: the other side
210: first distribution pipe
220: second distribution pipe
230: heat exchanger
240: body
250: burner
260: combustion gas outlet
270: latent heat exchanger
280: heat exchanger body

Claims (2)

The longitudinal direction of the plurality of stainless pipes 200 is formed in a zigzag manner, but one side 200a of the plurality of pipes 200 is spaced apart from each other in the longitudinal direction of the first distribution pipe 210 through which water is introduced from the water pipe 300a. Place them at a distance and connect them to communicate with each other.

The other side 200b of the plurality of stainless pipes 200 is in the longitudinal direction of the second distribution pipe 220 connected to the water conduit 300b in which the water heated in the plurality of stainless pipes 200 is collected and moved to the place where the hot water is used. Arranged at a certain distance from each other and connected to communicate with each other,

Each of the plurality of stainless steel pipes 200 is molded into an oval shape so that the elongated vertical direction is vertically oriented in the oval shape.
a heat exchanger 230 for disposing a plurality of stainless pipes 200 in the longitudinal direction of the first and second distribution pipes 210 and 220 at a predetermined distance from each other;
a rectangular body 240 for accommodating the heat exchanger 230;
a burner 250 connected in communication with one side 240a of the body 240 and spraying a flame to the heat exchanger 230;

Oil boiler, characterized in that it comprises a combustion gas outlet (260) through which combustion gas generated from the burner (250) is discharged on the other side (240b) of the body (240).
The method of claim 1,
A latent heat exchanger 270 is connected to the combustion gas outlet 260 so that latent heat contained in the combustion gas discharged through the combustion gas outlet 260 is received and heat exchanged.

The latent heat exchanger 270 is a first formed in both directions of the heat exchanger body 280 by the heat exchanger body 280 formed in a rectangular or cylindrical shape and the internal partition walls 280a and 280b of the heat exchanger body 280 . , and 2 distribution spaces (280c, 280d);

A plurality of waterway pipes 290 are disposed between the first and second distribution spaces 280c and 280d.
Connecting one side 290a of the plurality of waterway pipes at a predetermined distance from each other so as to communicate with the first distribution space 280c,

The other side 290b of the plurality of waterway pipes 290 is connected by passing through the second distribution space 280d at a predetermined distance from each other:

The first and second distribution spaces 280c and 280d are respectively connected to the water channel pipes 300 and 301 through which water flows,
The first and second distribution spaces ( The other side 280h of the body 280f corresponding to between 280c and 280d) is a combustion gas outlet 310 through which the combustion gas introduced into the combustion gas outlet 260 is discharged via the plurality of waterway pipes 290 . Oil boiler comprising a configuration in which is formed.

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