KR20060077810A - Hot water boiler - Google Patents

Abstract

The present invention relates to a burner for a boiler, and more particularly, to provide a burner having a combustion chamber formed therein at the same time to facilitate manufacturing economically through a process compensation design, and to the interior of the boiler coupled to the burner By forming a heat collecting chamber to effectively exchange the heat supplied from the burner, a high-efficiency heat exchange is possible and the burner for the boiler to discharge the low-temperature exhaust gas of 180 ° or less.

Boiler Body, Heat Exchanger, Control Material, Cleaning Inspection, Burner

Description

Hot water boiler

1 is a front view showing the overall structure of the present invention

Figure 2 is a front cross-sectional view showing the overall structure of the present invention

Figure 3 is a side cross-sectional view showing the overall structure of the present invention

Figure 4 is a side configuration diagram showing a process in which the heat of the burner of the present invention is circulated in the boiler

5a to 5d are front configuration diagrams showing the process of FIG. 4 step by step.

6 is a cross-sectional view taken along the line A-A.

7 is a cross-sectional view taken along line B-B.

8 is a cross-sectional view taken along line C-C

9 is a plan view showing the use of the burner and the boiler of the present invention

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

 1: hot water boiler 10: boiler body

11: burner insertion hole 12: inspection window

13: hot water storage room 14: water supply port

15: outlet 16: hydraulic test door

17: support leg 18: the closing plate

20: heat exchange member 21: furnace

22: primary heat collection room 23: secondary heat collection room

24: 3rd heat collection room 25: 4th heat collection room

26: heat exchange pipe 27: discharge duct

30: control material 31: thermometer

32: pressure gauge 33: safety displacement

34: safety valve 40: cleaning inspection unit

41: cleaning door 50: burner

51: fixing plate 52: locking piece

53: Internal combustion communication 54: First housing

55: second housing 56: combustion chamber

57: fuel injection device 58: temperature sensor

59: cover 60: blower

The present invention relates to a burner for a boiler, and more particularly, to provide a burner having a combustion chamber formed therein at the same time to facilitate manufacturing economically through a process compensation design, and to the interior of the boiler coupled to the burner By forming a heat collecting chamber to effectively exchange the heat supplied from the burner, a high-efficiency heat exchange is possible and the burner for the boiler to discharge the low-temperature exhaust gas of 180 ° or less.

In general, a boiler is used as a heating means for heating the indoor space comfortably and warmly in a low temperature season such as winter, early spring or late autumn, and the boiler uses combustion heat or other heat source for water or heat medium in an airtight container. Heated by heating the heat medium such as water or steam is circulated to the heating line to heat the indoor space.

On the other hand, in the case of a hot water oil boiler that heats the room by hot water, a burner as a heating means heats the water in a closed tube for a short time or a predetermined time to burn oil or gas for heating and hot water in the room. At this time, a variety of burners are used, but in the case of a burner which is usually used, incomplete combustion frequently occurs, and combustion efficiency is low.

On the other hand, when the burner is used for a long time, foreign matters accumulate in the combustion chamber, and there is a problem in that the performance of the burner is lowered and the life is shortened due to the inability to clean the foreign substances generated at this time.

In addition, the boilers used in the prior art mostly form a combustion chamber in the boiler, and the heat of combustion supplied from the burner is discharged to the discharge duct through the heat pipe (heat exchange pipe). Wasted, there was a problem of low thermal efficiency.

Various structures have been introduced to catch the combustion heat wasted by the exhaust gas, but these methods require a separate device, which in turn increases the price of the boiler and causes a complicated boiler structure.

In addition, in order to increase the thermal efficiency of the boiler, an inlet 2-3 pass path is formed. In this case, if the burner is unreasonably operated to increase the thermal efficiency of the heat of combustion flowing along the 3-pass path, the life of the burner may be shortened or overloaded. Due to the frequent troubles and high fuel consumption, there was a disadvantage that a lot of maintenance costs are required.

The present invention has been made in view of the above-described conventional problems, and an object thereof is provided with a burner having a combustion chamber formed therein, and the heat of combustion of the burner flows along a four-pass path, thereby effectively exchanging a lot of combustion heat supplied from the burner. It is to provide a hot water boiler to improve the thermal efficiency.

Another object of the present invention is to form a housing in which the combustion chamber is formed inside the burner to be combined and separated by the first and second housings, so that foreign matters accumulated in the combustion chamber can be easily cleaned when the burner is used for a long time. At the same time, if the burner has to be replaced and the burner needs to be replaced, the hot water boiler is provided so that the maintenance cost of the burner can be reduced by replacing only the necessary parts without replacing the entire burner.

Still another object of the present invention is to provide a hot water boiler to facilitate the cleaning of the foreign matter formed in the burner by combining the flange and one side of the fixing plate of the boiler with a hinge at the same time to make it easy to combine and separate the burner and the boiler. In providing.

Still another object of the present invention is to combine a plurality of finish plates in the front so that it is possible to easily clean the foreign matter formed in the interior of the furnace and the first-fourth dust collection chamber, the cleaning inspection unit at the lower rear In providing a hot water boiler formed.

In order to achieve the object of the present invention, a burner insertion hole is formed at one side of the boiler, an inspection window is formed at the opposite side thereof, a hot water storage room is formed to store water in the boiler, and a water supply port is formed at the bottom of the hot water storage room. It is formed, the water outlet is formed on the upper side of the opposite side, the hydraulic pressure test door is formed on the rear upper portion of the boiler, the boiler body formed on the bottom so as to be spaced apart from the ground; A furnace is formed inside the boiler so that one end of the burner insertion hole is connected, and a primary heat collecting chamber is formed on the opposite side of the furnace, and a third heat collecting chamber is formed on the upper portion of the primary heat collecting chamber, A secondary heat collecting chamber and a fourth heat collecting chamber are formed at an upper portion to discharge heat to the discharge duct, and the furnace and the first to fourth heat collecting chambers are interconnected by heat exchange pipes; A control member having a thermometer and a pressure gauge formed at an upper portion of the boiler body, and a safety valve having a safety valve at one side thereof; A cleaning checker having one end connected to the primary heat collecting chamber of the heat exchange member and the other end extending outside the boiler body and having a cleaning door installed at an end thereof; And a burner installed at a burner insertion hole of the boiler body and having a combustion chamber formed therein.

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

Attached Figure 1 is a front view showing the overall structure of the present invention, Figure 2 is a cross-sectional view showing the internal structure of Figure 1, the hot water boiler of the present invention is formed in a hot water storage room () where water is stored therein and on one side Boiler body () having a burner insertion hole (), a heat exchange member () formed in the boiler body () to circulate the combustion heat generated by the burner (4) in a four-pass method, and the temperature inside the boiler () and As a control member for regulating pressure, a cleaning checker for cleaning foreign substances formed in the heat exchange member, and a burner for generating combustion inside the boiler to supply combustion heat. It is largely composed.

The conventional cylindrical boiler is a boiler suitable for generating a small amount of steam, and has a large diameter, mainly composed of a drum (hot water storage chamber) that holds water therein, and a furnace or evaporative heating surface that serves as a combustion chamber and a heating surface inside. I'm setting up an association.

However, the boiler () of the present invention is mainly designed to increase the thermal efficiency to be used for farms, a burner () suitable for this, the boiler body () is

A burner insertion hole () is formed at one side of the boiler (), and an inspection window () is formed at the opposite side thereof, where the burner insertion hole () is formed with a flange () protruding forward, and the outer periphery of the flange () is formed. Therefore, a plurality of fixing grooves () are formed, and the fixing grooves () are formed to have a flow length of a predetermined distance inwardly so that the bolts (B) can be easily fastened and inward.

The inspection window () is coupled to the rear of the boiler body (ie, the rear of the primary heat collecting chamber () to be described later to each other by a flange, wherein a plurality of safety edges () is formed on the outer periphery of the flange of the inspection window () 1 When the internal pressure of the heat shielding dust chamber () rises higher than the set pressure, the spring () operates to discharge the pressure to the outside so that the pressure can be adjusted.

Perspective window () is formed in the center of the inspection window () to check the inside, and the pressure sensor () is formed on the inner peripheral edge of the viewing window () can be installed to operate the safety valve () according to the internal pressure Make sure

In the boiler body () is formed a hot water storage room () so that water can be stored, the hot water storage room () is heated by the heat of combustion generated inside, the heat exchange member () to be described later to increase the thermal efficiency and It is designed to make direct contact.

In addition, a water outlet () is formed at the center of the bottom of the hot water storage compartment () to supply water therein, and a water outlet () is formed at the upper portion thereof to allow the water stored in the hot water storage compartment () to flow out. .

On the other hand, a water pressure inspection door () is formed at the rear upper portion of the boiler body () to see if water is stored in the hot water storage room () and whether the hot water heated by combustion heat rises above a certain temperature and pressure and leaks hot water. Form so that you can see if it is occurring.

The boiler body () is formed with a plurality of supporting legs () on the bottom so as to be spaced apart from the ground.

Heat exchange member () is formed inside the boiler body () to improve the thermal efficiency of the boiler

The furnace barrel () is formed on one side wall of the boiler body () so that one end of the burner insertion hole () is connected, and the furnace barrel () is introduced into the furnace barrel () by the heat of combustion generated by the burner (to be described later) and the heat exchange member (). To move along the heat exchange pipe ().

The upper part of the furnace (), the secondary heat collecting chamber () and the fourth heat collecting chamber () is formed inside the sealed state, respectively, on the opposite side of the primary heat collecting chamber () and the third heat collecting chamber () is the top, It is formed in the lower portion and are interconnected by a heat exchange pipe () so that the heat of combustion is heat exchanged while flowing along the four-pass path so that the thermal efficiency can be improved.

On the other hand, when looking at the flow path of the heat exchange member (2), a plurality of heat exchange pipes () are formed on the left side of the furnace () and the combustion heat introduced into the furnace () flows along the heat exchange pipe () to the primary heat collecting chamber () The combustion heat moved to the primary heat collecting chamber () is again flowed along the heat exchange pipe () formed at the middle point of the boiler body (), and then passes through the secondary heat collecting chamber () to the third heat collecting chamber () on the opposite side. Flow.

The combustion heat aggregated into the third heat collecting chamber () flows to the fourth heat collecting chamber () along the heat exchange pipe () formed on the upper part of the boiler body () and is discharged to the discharge duct (). It is possible to meet high combustion efficiency and low pollutant emission combustion conditions with low air consumption while moving along.

The control member () formed on the boiler body () is

In the upper part of the boiler body (), a thermometer () and a pressure gauge () are formed on the left and right sides, respectively, and measure the temperature and pressure inside the boiler body ().

Then, the safety valve () is formed at the rear of the boiler body (), the valve safety valve () is formed on one side thereof to prevent the generation of steam.

Cleaning check unit () is installed on the rear bottom of the boiler body () is

When foreign matter is formed inside the primary heat collecting chamber () of the heat exchange member (1), one end is connected to the lower side of the primary heat collecting chamber () so that the foreign matter can be easily cleaned, and the other end extends downward to the boiler body. It protrudes out of () and the cleaning door () is installed at the end so that it can rotate.

Burner for supplying combustion heat to the boiler () is

A fixed plate () made of a circular plate body is formed at the rear of the burner insertion hole () so that one end can be coupled and separated, and a plurality of structures are formed on the outer periphery of the fixing plate () to have the same structure as the flange () of the burner insertion hole () Fixing grooves () are formed and fastened with the mutual bolt (B).

The fixing plate () is hollow inside and a plurality of engaging pieces () are formed forward along the outer circumference of the hollow, the locking groove () is formed inside the locking piece () is a locking projection of the internal combustion communication () () Is combined.

The inner combustion cylinder () is hollow inside, one end protrudes to the rear of the fixed plate (), the other end is formed to extend a predetermined length forward, a plurality of locking projections () at the rear outer periphery of the inner combustion cylinder () Is formed.

The locking protrusion () has a structure corresponding to the locking piece () of the fixing plate (), and when the locking protrusion () is positioned between the locking piece () and the locking piece (), the locking protrusion () is rotated in a clockwise direction. ) Is fitted into the locking groove () is fixed to the internal combustion communication () to the fixed plate ().

The outer periphery of the bottom of the internal combustion cylinder () to form a reinforcement to prevent the shape of the bottom surface of the internal combustion cylinder that is heated at high heat due to the widening or narrowing of the bottom surface due to heat.

And, the first housing () formed to surround the outer periphery of the internal combustion communication () is hollow inside and is formed to extend a predetermined length in the horizontal direction, by maintaining a state spaced apart from the internal combustion communication () An air flow path is formed to allow external air to flow, and the first housing () forms a flange () () at the front and rear, wherein the rear flange () is in close contact with the front of the fixing plate () and the fixing plate (). And fix with bolt (B).

The front flange () is fastened to the second housing () and bolt (B) to be described later, wherein the second housing () to be fastened has a structure in which the rear is hollow and the front is sealed and the combustion chamber () is formed therein. The rear outer periphery is formed with a rear flange () is fixed to the front flange () and the bolt (B) of the first housing ().

When the burner 1 is used for a long time while the airtightness of the first and second housings is maintained, foreign matters accumulate in the combustion chamber, and the second housings are separated so that the foreign matters can be easily cleaned. You can clean it.

On the other hand, when the first and second housings () () are used for a long time, the burner (1) has a problem in that excessive maintenance costs are required because the entire burner (1) needs to be replaced. 2Housing () () can be combined and separated so that only parts that need to be replaced can be separated and replaced.

In addition, the first and second housings () () are coupled to one end of the front flange () of the first housing () and the rear flange () of the second housing () by a hinge (H) and separated from each other while being rotated at an angle. It is possible to, and the other side of the bolt (B) can be used to be fixed.

The second housing () is provided with a fuel injection device () in the center portion to supply a flame to the combustion chamber () of the second housing (), the fuel injection device () is formed in the injection nozzle behind the liquid level evaporation method Fuel is supplied to the other end thereof, and a fuel supply valve is formed at the other end thereof so as to receive fuel from the outside.

On the front outer periphery of the second housing () is formed a temperature sensor () to detect the low and high temperature state of the combustion chamber (). And, the outer periphery of the first and second housing () () is formed to cover () is installed to prevent the internal heat of the combustion chamber () to flow out.

On the other hand, the main air supply pipe () for supplying the outside air is connected to the rear of the first housing (), the heating air suction pipe () for sucking the heating air inside is connected to the blower () is continuously heated When the air is continuously supplied to the first and second housings () of the burner () and the external cool air is conventionally supplied, the internal temperature decreases, thereby increasing the heat loss of the combustion chamber () and the thermal efficiency of the burner (). In order to increase the temperature by injecting more fuel in order to secure the problem of excessive consumption of fuel costs.

Thus, the operation of the present invention hot water boiler will be described with reference to the accompanying drawings.

The burner for the present invention is used to combine the burner () with the boiler body (), as shown in Figure 1 and 3, wherein the fixing plate () to be smoothly combined with the burner () and the burner insertion opening () The fastening operation using the bolt to the fixing groove () of the.

When the tightening operation is completed, the operation is started in the control device (not shown), and the blower () is operated while fuel (diesel) is supplied and injected from the fuel injection nozzle (not shown) through the main air supply pipe (). In G), the fuel is ignited for 25-30 seconds to generate a spark. At this time, the photoelectric tube detects the occurrence of a spark and sends a signal to the controller so that the spark can be re-ignited if it does not occur.

The flame heated primarily in the ignition rod (G) is supplied with more air as the combustion progresses actively, thereby rotating the combustion chamber () while rotating from the top to the bottom between the inner combustion communication outer wall and the first housing. During the initial heating will generate a spark.

The combustion chamber () of the second housing () is usually heated for about 4 minutes to be heated between 400 ~ 450 ° C, wherein the flame and air primarily heated from the ignition rod (G) side in the process of flowing into the combustion chamber () As the fuel is injected by the liquid level evaporation method through the injection nozzle of the fuel injection device () supplying the main fuel, the heating operation of the combustion chamber () is performed in earnest.

As the combustion chamber is heated to a certain temperature condition, the flame generated from the fuel injection device is continuously heated to the internal combustion cylinder, and only the flame heated by the furnace is transferred.

The internal combustion communication () and the first and second housings () () operate the boiler () while maintaining the heated state at respective temperatures, wherein the heated air suction pipe () By repeating the flow through the main air supply pipe () through the process to send the heated air to the combustion chamber () to reduce the cost of fuel by reducing the heat loss of the combustion chamber () for supplying cold air to the maximum.

Air forcibly introduced through the blower is supplied to the combustion chamber and causes vortices along the internal combustion communication, resulting in high combustion efficiency and low pollutant emission with a low air consumption of 1: 1.1 compared to the air volume. There is one feature that can be formed.

When the temperature of the second housing () is 400 ° C or less, the temperature sensor () detects the presence or absence of a combustion state inside the combustion chamber (), on the contrary, if the temperature is 800 ° C or more, the burner () operation temporarily After stopping and lowering to a certain temperature, the burner () operation can be started again to prevent a problem in the second housing () or to lower the thermal efficiency due to the low temperature of the combustion chamber (). have.

When the operation of the burner is terminated and foreign matter accumulates in the combustion chamber, the operator detaches the bolt B from the front flange of the first housing and then simply cleans the inside of the second housing. do.

9 is a hinge (H) formed on one side of the flange () () for the coupling and separation of the first and second housings () () to separate the second housing () alone during the separation operation of the second housing (). There is a feature that allows you to clean.

Since the first and second housings () and internal combustion communication can be separated and combined, burners can be replaced by only parts that cause problems when used for a long time, thereby reducing product maintenance costs. Make sure

As described above, the present invention allows the internal combustion communication and the first and second housings constituting the burner to be easily combined and separated, thereby simplifying the installation and maintenance work, so that only parts in which an abnormality occurs can be used by replacement. The invention is effective to reduce the maintenance cost of the product.

The present invention has the effect of increasing the thermal efficiency by preventing the heat of the combustion chamber is lost to the outside while continuously circulating the heated air through the blower to the main air supply pipe through the blower by sucking the heated heat of the combustion chamber through the heating air suction pipe It is an invention.

According to the present invention, when a part of the air supplied to the main air supply pipe is sent to the first housing through the auxiliary air connection pipe and the auxiliary air supply pipe, the air flows while colliding with the air constantly rotating in the vortex action at the top of the first housing. The flow rate of the air is delayed due to the disturbance, and thus the cloud is stably introduced, thereby stably inducing the safe operation of the flame.

The present invention has the effect of forming a screw rib on the inner wall of the first housing to be uniformly dispersed in the wall of the combustion chamber while maintaining a certain air flow trajectory stably to minimize the heat loss.

The present invention is manufactured to be easy to manufacture economically and competitively through the process compensation design, to form a temperature sensor to detect the temperature conditions of the combustion chamber to increase the thermal efficiency of the burner and to cause abnormalities in the burner The invention has an effect that can be detected beforehand.

What has been described above is only one embodiment for carrying out the burner for a boiler according to the present invention, the present invention is not limited to the above-described embodiment, as claimed in the following claims, the gist of the present invention Without departing from the technical spirit of the present invention to the extent that any person of ordinary skill in the art to which the present invention pertains various modifications can be said.

Claims (6)

A burner insertion hole is formed at one side of the boiler, and an inspection window is formed at the opposite side thereof, a hot water storage room is formed to store water inside the boiler, and a water supply hole is formed at the bottom of the hot water storage room, and an outlet at the opposite side thereof is formed. Is formed, the water pressure inspection door is formed on the rear upper portion of the boiler, the boiler body formed with a support leg on the bottom to be spaced apart from the ground; A furnace is formed inside the boiler so that one end of the burner insertion hole is connected, and a primary heat collecting chamber is formed on the opposite side of the furnace, and a third heat collecting chamber is formed on the upper portion of the primary heat collecting chamber, A secondary heat collecting chamber and a fourth heat collecting chamber are formed at an upper portion to discharge heat to the discharge duct, and the furnace and the first to fourth heat collecting chambers are interconnected by heat exchange pipes; A control member having a thermometer and a pressure gauge formed on an upper portion of the boiler body and having a safety valve having a valve safety valve on one side thereof; A cleaning checker having one end connected to the primary heat collecting chamber of the heat exchange member and the other end extending outside the boiler body and having a cleaning door installed at an end thereof; And Hot water boiler, characterized in that it is installed at the burner insertion opening of the boiler body, the burner has a combustion chamber formed therein. According to claim 1, wherein the burner insertion hole is formed in a flange on the front, a plurality of fixing grooves are formed on the outer periphery of the flange, in front of the burner to form a fixing plate having the same structure as the burner insertion opening simply by bolt Hot water boiler, characterized in that to enable the coupling and separation. The hot water boiler according to claim 1 or 2, wherein the flange of the burner insertion hole and the fixing plate of the burner are hinged to one side to enable rotation. The method of claim 1, wherein the front of the boiler body is formed to be separated and coupled to the closing plate to clean the inside of the heat exchange member, the closing plate is characterized in that the first, second, third finish plate is formed on the upper and left and right sides Hot water boiler made with. According to claim 1, The inspection window is installed to adjust the internal pressure of the safety valve is operated by the spring in the rear of the primary heat collecting chamber, and the see-through is formed in the center of the inspection window to see the inside, Hot water boiler, characterized in that the pressure sensor is installed on the inner peripheral edge of the transparent portion. The fixed plate of claim 1, wherein the burner is formed of a circular plate body and has a locking groove formed on an inner side thereof with a plurality of locking pieces protruding downward from the bottom thereof. An internal combustion passage formed inside the hollow and extending in a horizontal direction and having a plurality of engaging projections formed at a rear outer periphery thereof to be fitted into the engaging grooves of the fixed plate; A first housing having a hollow inside and extending in a horizontal direction to surround the internal combustion communication, and having a flange formed at the front and rear outer peripheries of the rear flange to be bolted to the front of the fixing plate;  A second housing having a flange formed at a rear outer periphery so as to be in close contact with the front surface of the first housing, the rear being open and the front being closed to form a combustion chamber at the inner side, and a second housing having a fuel injection device installed at the front center; A temperature sensor formed at both front sides of the second housing to sense a low temperature state and a high temperature state of the combustion chamber; A cover formed to surround the outer circumference of the first and second housings; The upper part of the first housing is connected to the main air supply pipe for supplying external air, the lower side of the hot water boiler characterized in that it comprises a blower having a heating air suction pipe for sucking the heating air inside.

Images