KR20030011210A - Supply and Exhaust Pipe For Boiler - Google Patents

Abstract

PURPOSE: A supply/exhaust pipe for a boiler is provided to improve the durability and appearance of the boiler by installing a rainwater introduction preventing unit at a supply pipe body formed at the outside of the air supply/exhaust pipe. CONSTITUTION: An exhaust pipe(20) exhausts combustion gas outside, and is extended by a first connection pipe(21) and installed in a wall(15) to introduce air into a burner unit(12). A supply pipe fixing unit(30) is formed at one end of the exhaust pipe, and has a second connection pipe(31). A supply pipe(40) installed at the supply pipe fixing unit is in the outside of the exhaust pipe, and has a plurality of air supply holes(41). A rainwater introduction preventing unit(42) is formed at the end of the exhaust pipe and supply pipe, and drops rainwater introduced through the air supply holes into the outside of the supply pipe.

Description

Supply and Exhaust Pipe For Boiler}

The present invention relates to a boiler supply and exhaust pipe, and more specifically to the rain pipe inlet prevention means formed on the outside of the boiler supply and exhaust pipe is invented to improve the durability and appearance of the boiler. .

In general, gas and oil boilers can use the heating and hot water in the room by heating and circulating the fluid using heat generated by the oxidation of oil and gas.

In addition, in the configuration of a conventional gas boiler, a burner part 12 capable of oxidizing gas and generating heat is formed inside the casing 11 having a predetermined width and size. The heat exchanger 1 and the hot water supply unit for heating and circulating the fluid by the heat generated by the burner unit are provided, and the control unit 5 is largely configured to control the operation of the burner unit 12 and the function of the hot water supply unit. .

In addition, an exhaust pipe 20 is installed in the discharge part 13 of the burner part 12 so as to discharge the waste gas generated when the gas is burned to the outside, and is extended to the outside, and an end of the exhaust pipe 20 is provided. The air supply pipe 40 is formed to allow the outside air heated by the exhaust pipe 20 to be used during the combustion of the burner part 12 through the blower while introducing outside air into the outer portion.

On the other hand, the gas boiler supply and exhaust pipe installation method of the non-condensing type is fixed to the boiler after forming a hole in the adjacent side, and the supply and exhaust pipe connected to the burner in this hole is installed to be inclined at a predetermined angle with respect to the outer lower direction, In the case of the condensing method, it is common to install so that the outer end is inclined upward by a predetermined angle so that the condensed water in the exhaust pipe flows into the boiler.

That is, in the case of a general condensing gas boiler, since the temperature of the exhaust gas is lower than that of the general boiler, condensation occurs in the flue gas passing year.

In the case of the condensing boiler, the condensate is generated in the flue because the temperature of the exhaust gas is usually set to 100 ° C. or less, thereby forming condensed water.

Then, the condensed water generated by the contact of the exhaust gas and the atmosphere in the step of the combustion gas is discharged through the exhaust pipe is moved to the condensate storage tank formed on the bottom of the heat exchanger is discharged through the purification means.

Since the conventional boiler supply and exhaust pipe configured as described above does not have a means for preventing rainwater from being introduced into the air supply hole formed at the end of the air supply pipe, rainwater introduced into the air supply pipe flows into the burner part of the boiler body, etc. There was a problem that the durability of the boiler is lowered.

This is because the pipe connected to the boiler main body from the exhaust pipe fixing part is installed at the bottom of the exhaust pipe fixing part in the conventional exhaust pipe of the boiler, when a large amount of rainwater is introduced, the rain pipe is connected to the bottom of the exhaust pipe fixing part. Through the flow into the main body of the boiler there was a closed end of the malfunction and life of the boiler.

That is, in the conventional boiler supply and exhaust pipe, the end of the supply and exhaust pipe has a certain inclination at the exhaust pipe fixing part, so that even if rainwater flows in, the condensing boiler falls into the condensate outlet inside the boiler when the rainwater flows into the exhaust port. Since it is an outgoing structure, it is preferable that the end of the supply and exhaust pipe is directed upward with a predetermined inclination.

In addition, another advantage that the tip is directed upwards with a certain slope is that condensate freezes in winter and no icicles are formed.

SUMMARY OF THE INVENTION An object of the present invention is to provide a water supply and exhaust pipe for a boiler to prevent rainwater inflow prevention means formed on the air supply body formed on the outside of the boiler supply and exhaust pipe to improve the durability and appearance of the boiler.

Another object of the present invention is to provide a boiler supply and exhaust pipe to improve the reliability and productability of the product.

1 is a schematic configuration diagram showing an installation state of a conventional boiler supply and exhaust pipe.

Figure 2 is a schematic configuration diagram showing an installation state of the supply and exhaust pipe to which the present invention is applied.

Figure 3 is an enlarged sectional view of the main portion showing a state in which the present inventors rainwater inflow prevention means formed on the bottom surface of the air supply pipe.

Figure 4 is an enlarged sectional view of the main portion showing a state in which the present invention is applied to another type of exhaust pipe.

Figure 5 is a schematic configuration diagram showing a state in which the second connection pipe is installed in the upper portion of the supply pipe fixing portion in one embodiment of the present invention.

6 is an enlarged view illustrating main parts illustrating a state in which rainwater introduced through a discharge hole of an air supply pipe is discharged;

Figure 7 is a perspective view showing one embodiment of the present inventors rainwater inflow prevention means.

Figure 8 is a perspective view showing another embodiment of the present inventors rainwater inflow prevention means.

FIG. 9 is a schematic configuration diagram showing an installation state of FIG. 7; FIG.

10 is an enlarged cross-sectional view of the main portion of FIG. 8;

11 is an enlarged bottom view of the main part of FIG. 7;

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

10-boiler 11-casing

12-Burner part 13-Discharge part

14-Inlet 15-Wall

20-Exhaust Pipe 21-First Connection Pipe

30-Air Supply Station 31-Second Connection Pipe

32-Finishing cap 33-Exhaust vent

34-Marking means 40-Air supply pipe

41-Supply hole 42-Outlet hole

43-protrusion 44-step

50-Rainwater inflow prevention measures 60-Air supply and exhaust pipe

The purpose of the present invention is to discharge the waste gas generated while burning in the inner burner portion 12 of the casing 11 of the boiler to the outside, the outside air flows into the burner portion 12 to be used during combustion, burner An exhaust pipe 20 extending from the discharge part 13 of the part 12 by the first connection pipe 21 and installed as a neighboring wall 15;

The exhaust pipe 20 is formed at one end of the exhaust pipe 20, and the exhaust pipe 20 is extended and installed at one side of the body so that the external air can move to the burner part 12. 14) and the air supply fixing portion 30 is provided with a second connecting pipe 31 which is an exhaust pipe;

Is installed in the air supply fixing portion 30 is located outside the exhaust pipe (20), the body end is composed of a supply pipe (40) formed with a plurality of air supply holes (41);

The exhaust pipe 20 and the end of the body of the air supply pipe 40 is formed by the rain water inflow prevention means 50 is formed so that rain water introduced through the air supply hole 41 can fall to the outside of the air supply pipe (40). .

Therefore, in the present invention, the boiler air supply and exhaust pipe rainwater flowing through the air supply hole 41 formed as the end of the air supply pipe 40 is inside the main body of the boiler 10 through the air supply pipe 40 and the exhaust pipe 20 inside Since rainwater inflow prevention means (50) is formed to prevent the movement to, it is possible to improve the durability and reliability of the boiler.

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

1 is a schematic configuration diagram showing an installation state of a conventional boiler air supply and exhaust pipe.

Figure 2 is a schematic configuration diagram showing an installation state of the supply and exhaust pipe to which the present invention is applied.

Figure 3 is an enlarged cross-sectional view of the main portion showing a state in which the rainwater inflow prevention means of the present invention is formed on the bottom surface of the air supply pipe.

4 is an enlarged cross-sectional view showing main parts showing a state in which the present invention is applied to another type of exhaust pipe.

5 is a schematic diagram illustrating a state in which a second connection pipe is installed in an upper portion of the air supply pipe fixing unit according to one embodiment of the present invention.

6 is an enlarged view illustrating main parts illustrating a state in which rainwater introduced through a discharge hole of an air supply pipe is discharged.

Figure 7 is a perspective view showing an embodiment of the present inventors rainwater inflow prevention means.

Figure 8 is a perspective view showing another embodiment of the present inventors rainwater inflow prevention means.

9 is a schematic configuration diagram showing an installation state of FIG. 7.

10 is an enlarged cross-sectional view of the main portion of FIG. 8.

FIG. 11 illustrates the configuration of FIG. 7 in a main portion enlarged bottom view. FIG.

That is, as shown in FIGS. 1 to 10, the boiler air supply and exhaust pipe of the present invention forms rainwater inflow prevention means 50 at the end of the body of the air supply pipe 40, even if rainwater is introduced through the air supply hole 41. It is configured to improve the durability of the boiler by preventing the flow into the boiler 10 body through the inside of the engine (40).

Rainwater inflow prevention means 50 formed at the body end of the air supply pipe 40 is discharged having a predetermined size and spacing to the bottom of the body end of the air supply pipe 40 as shown in Figure 3 and 4 It consists of a hole 42.

In addition, the discharge hole 42 of the air supply pipe 40 has a size capable of easily discharging the incoming rainwater, that is, the size is set differently according to the size of the air supply pipe 60 and the characteristics of the product. It may also be included in the configuration of the present invention.

In addition, the number of the discharge holes 42 is typically used to form one or more of the plurality, it is preferable that the number of the discharge holes 42 can also be set and used according to the characteristics of the product.

Therefore, even if rain water flows in through the exhaust port 33 of the air supply hole 41 formed in the outside of the body of the air supply pipe 40 and the closing cap 32 formed by the front portion of the air supply pipe 60 ( Since it is discharged to the outside by the discharge hole 42 formed as the bottom end of the body of 40, the problem is that the durability of the boiler 10 is lowered by moving to the inside of the boiler 10 in the air supply pipe 40 as in the prior art This can be prevented.

In addition, the rainwater flowing through the exhaust port 33 of the closing cap 32 formed as the front portion of the air supply and exhaust pipe 60 is also moved inwards through the air supply pipe 40, and primarily opens the air supply hole 41. After being discharged through, the rainwater moved to the rear side without being discharged to the air supply hole 41 is sequentially discharged through the discharge hole 42 so that rainwater flows into the boiler 10 through the air supply pipe 40. It can be prevented.

On the other hand, the rainwater inflow prevention means 50 of the air supply pipe 40 forms a protrusion 43 extending integrally with each other at a predetermined position of the body of the exhaust pipe 20 and the air supply pipe 40, and the rainwater flowing in The inside of the air supply pipe 40 can be prevented from continuing to move.

That is, as shown in FIGS. 3 and 4, the rainwater, which is introduced through the air supply hole 41 of the air supply pipe 40, is moved to the upper inside in the process of being moved inside the air supply pipe 40. While falling downward by the protrusion 43, it may be naturally discharged to the outside through the discharge hole 42.

In addition, in the body of the exhaust pipe 20, the projection portion 43 is formed in the same configuration as the air supply pipe 40, and the rain water that is moved through the rain water inflow prevention means 50 of the air supply pipe 40 is also the protrusion 43 By restraining the progress by moving to the lower it can be discharged to the outside.

In addition, the projections 43 formed at the lower portion of the air supply pipe 40 also serve to delay the movement time of the rain water moving through the lower inner side of the air supply pipe 40, so that rain water is easy even when a large amount of rain water is introduced. It can be discharged through the discharge hole 42.

In addition, the protrusions 43 formed on the body of the exhaust pipe 20 and the air supply pipe 40 may be used to set the direction in which the protrusions 43 are formed to the outside or the inside depending on the characteristics of the product, according to circumstances. This is also included in the configuration of the present invention.

Meanwhile, the rainwater inflow preventing means 50 of the air supply pipe 40 connects the inlet portion 14 and the air supply fixing portion 30 of the boiler 10 to each other, and the outside air introduced through the air supply pipe 40. The connection of the second connection pipe 31 for moving the can be formed to be connected to each other at the top of the air supply fixing portion (30).

That is, the second connection pipe 31 is molded into a configuration in which the second connection pipe 31 is installed above the air supply fixing part 30, and even if a large amount of rainwater flows in, the second connection pipe 31 is formed in the air supply fixing part 30. Since it is interconnected in the upper portion, even when a large amount of rainwater is introduced into the rainwater through the second connecting pipe 31 will be prevented.

Meanwhile, as shown in FIGS. 7 to 10, the rainwater inflow preventing means 50 according to the present invention forms a stepped portion 44 having a predetermined inclination angle inside the rear end of the discharge hole 42, thereby introducing rainwater. The problem of moving to the rear side can be prevented.

That is, as shown in FIG. 10, the width L1 of the step 44 having a predetermined inclination angle to the rear end of the discharge hole 42 formed as one side of the bottom surface of the air supply pipe 40 is the discharge hole 42. Since it is formed smaller than the width (L2), when the rainwater is introduced through the air supply hole 41 of the air supply pipe 40 and moved to the rear side due to the upward arrangement due to the nature of the condensing boiler, the discharge hole 42 Rainwater is discharged through the primary, and the rainwater that is moved to the rear side afterwards causes interference to the progression by the stepped portion 44, thereby preventing the inflow of rainwater.

In addition, the stepped portion 44 formed in the discharge hole 42 of the air supply pipe 40 may prevent a phenomenon that severe wind flows into the air supply pipe 40 inside, in addition to the purpose of preventing rainwater inflow.

As described above, the configuration in which the stepped portion 44 is formed at the rear end of the discharge hole 42 may be applied to the exhaust pipe 20 of the conventional condensing type, and at this time, the air supply hole of the exhaust pipe 20 The configuration of 41) can be used regardless of the transverse arrangement, the longitudinal arrangement, the size and the number thereof, and this is also included in the configuration of the present invention.

In addition, the configuration of the protrusion 43 of the discharge hole 42 formed by the rainwater inflow prevention means 50 may also be used in any of the outer and inner directions.

Therefore, since the stepped portion 44 having a predetermined inclination angle is formed at the rear end of the discharge hole 42 as the rainwater inflow preventing means 50 in the present invention, the inflow of rainwater during the inflow of rainwater through the air supply pipe 40. To the discharge hole 42 and the stepped portion 44 provided in the discharge hole 42, and also the projections 43 provided to the rear side of the stepped portion 44 is moved to the rear side after the rainwater inflow It can be prevented.

On the other hand, as shown in Figure 7 to 9 outside the body of the air supply fixing portion 30 in the product configuration of the condensing boiler for the upward arrangement of the exhaust pipe 20, the marking means that can be easily identified by the installer and the operator ( 34) is formed.

That is, the marking means 34 indicates the arrows and letters (for example, "phase") that the air supply fixing part 30 may be installed to face upward as shown in the drawings, and install the installer and the worker. It can improve convenience and prevent incorrect installation.

In addition, the marking means 34 formed to the outside of the air supply fixing portion 30 is preferably formed so as to protrude to the outside in the embossing type, thereby the rigidity of the air supply fixing portion 30 can also be reinforced will be.

Therefore, the boiler supply and exhaust pipe of the present invention is the bottom surface of the supply pipe 40 as rainwater inflow prevention means 50 that can quickly discharge the rainwater to the outside when rainwater flows into the body end of the exhaust pipe 20 and the supply pipe 40. The discharge hole 42 is formed at the end to discharge to the outside when the rainwater is introduced, and the projection 43 is formed on the body of the air supply pipe 40 to change the direction of the incoming rainwater and to delay the rainwater. It can be prevented from moving.

And, as shown in the embodiment, since the stepped portion 44 having an inclination angle is formed at the rear end of the discharge hole 42, the rainwater by the stepped portion 44 in the process of moving to the rear side after the inflow of rainwater It can delay and prevent progress.

In addition, since the second connection pipes 31 connected to the air supply fixing part 30 are fastened to each other at the upper part of the air supply fixing part 30, even when a large amount of rainwater is introduced, the rain water is moved to the inside of the boiler 10 and is generated. It will be possible to solve the conventional problems.

According to the configuration of the present invention as described above, it is possible to prevent rainwater flowing through the supply hole of the boiler supply and exhaust pipe and the supply and exhaust pipe hole of the end cap portion by using the discharge hole and the projection, stepped portion, and the like, With the configuration of the second connection pipe installed in the upper part of the contributor, it is possible to improve the durability of the boiler by preventing the rainwater from flowing into the boiler even when rainwater is introduced.

Therefore, since it is a configuration that can be quickly discharged during the inflow of water in the winter season, it is possible to prevent the phenomenon that icicles, etc. are formed in the bottom of the air supply pipe.

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

Claims (10)

Waste gas generated while burning in the inner burner part 12 of the casing 11 of the boiler is discharged to the outside, and the outside air flows into the burner part 12 so that it can be used during combustion, and the discharge part of the burner part 12 An exhaust pipe 20 extended by the first connection pipe 21 at 13 and installed as a neighboring wall 15; The exhaust pipe 20 is formed at one end of the exhaust pipe 20, and the exhaust pipe 20 is extended and installed at one side of the body so that the external air can move to the burner part 12. 14) and the air supply fixing portion 30 is provided with a second connecting pipe 31 which is an exhaust pipe; Is installed in the air supply fixing portion 30 is located outside the exhaust pipe (20), the body end is composed of a supply pipe (40) formed with a plurality of air supply holes (41); Rainwater inflow prevention means 50 is formed at the end of the body of the exhaust pipe 20 and the air supply pipe 40 so that rainwater introduced through the air supply hole 41 can fall to the outside of the air supply pipe 40. Boiler supply and exhaust pipe. The air supply and exhaust pipe for a boiler according to claim 1, wherein the rainwater inflow preventing means (50) is composed of a discharge hole (42) formed at a predetermined width at an end portion of the bottom surface of the body of the air supply pipe (40). The method of claim 1, wherein the rainwater inflow prevention means 50 is a boiler supply, characterized in that consisting of the projections 43 are formed to extend to each other at a predetermined position of the body of the exhaust pipe 20 and the air supply pipe (40) vent pipe. The supply and exhaust pipe for a boiler according to claim 1, wherein the second connection pipes (31) installed as the air supply fixing parts (30) are interconnected at an upper part of the air supply fixing parts (30). 3. The exhaust pipe for the boiler according to claim 2, wherein the discharge holes (42) formed by the bottom of the body of the air supply pipe (40) are formed in at least two or more. 3. The exhaust pipe for the boiler according to claim 2, wherein a stepped portion 44 having a predetermined inclination angle is formed at the rear end of the discharge hole 42. 8. The exhaust pipe for the boiler according to claim 6, wherein the stepped portion (44) is formed to have a predetermined inclination angle in the inward direction of the discharge hole (42). The air supply and exhaust pipe for the boiler according to claim 1, wherein the discharge hole (42) is set in the transverse direction at a predetermined interval and width at the outer peripheral surface of the body of the air supply pipe (40). The air supply and exhaust pipe for a boiler according to claim 1, wherein a marking means (34) is formed outside the body of the air supply fixing part (30) to guide the installation direction. 4. The boiler gas supply and exhaust pipe according to claim 3, wherein the protrusion part is formed to protrude outward of the body.