KR200142645Y1 - The structure of baffle plate for compensating for exhaust wind pressure of gas boiler - Google Patents

Abstract

The present invention sets the length of the baffle plate installed in the combustion tube of the heat exchanger according to the suction pressure of the air blower to maintain the operating state of the gas boiler and to improve the thermal efficiency of the gas boiler. The structure relates to a heat exchanger (20) provided with a plurality of combustion tubes (21) therein and a baffle plate (22) for inducing a delay of combustion gas in the combustion tube (21) and a heat exchanger (20). In the gas boiler comprising a combustion burner (30) for forming a heat source in the lower portion, and an exhaust fan (40) having an exhaust hood (41) for forcibly discharging the exhaust gas combusted to the upper portion of the heat exchanger (20) to the outside. The length of each baffle plate 22 installed in the combustion tube 21 is set differently in response to the suction pressure distribution of the air blower 40.

Description

Structure of Buffle Plate for Compensating Exhaust Wind Pressure of Gas Boiler

The present invention relates to a gas boiler, and more specifically, by setting the length of the baffle plate installed in the combustion tube of the heat exchanger in response to the suction pressure with the exhaust fan, it is possible to maintain a stable operation state of the gas boiler and improve thermal efficiency. The structure of the baffle plate for the exhaust wind pressure compensation of the boiler.

In general, the internal structure of the domestic gas boiler has a heat exchanger 20 in which water circulates inside the boiler body 10, as shown in FIG. 1, and a plurality of combustion tubes 21 inside the heat exchanger 20. ) Is installed in the structure, the upper portion of the heat exchanger (20) is a structure of the conventional gas boiler is provided with a ventilator 40 for ejecting the combustion gas to the outside.

In the gas boiler having the above structure, the exhaust gas discharge structure of the conventional heat exchanger is provided with a cylindrical exhaust hood 41 on the upper part of the heat exchanger 20, and one side of the exhaust hood 41 is provided with the exhaust gas. The exhaust fan 40 provided with a motor 42 for applying suction power is configured to discharge the exhaust gas generated in the lower heat exchanger 20 to the outside while sealing the upper part of the heat exchanger 20 to the outside.

In addition, when viewed from the inside of the heat exchanger 20, a plurality of combustion tubes 21 are installed inside the cylindrical heat exchanger 20, the baffle plate 22 for delaying the combustion gas into each of the structure is inserted into It is.

However, the exhaust gas generated by the heat exchanger 20 as described above is discharged while passing through the combustion tube 21 of the heat exchanger 20 in the heat exhauster 40 is discharged to the outside by applying a suction force, At this time, the combustion gas passing through the combustion tube 21 when the difference in suction pressure in the exhaust passage 50 of the exhaust hood 41 because the length of each baffle plate 22 installed into the combustion tube 21 is the same. As the residence time of is set differently, the non-uniform combustion state of the combustion gas in the heat exchange ventilator 20 is established.

This is an important factor in reducing the combustion efficiency by not satisfying such conditions in the operating conditions of the gas boiler, in which the combustion state of the combustion gas passing through the heat exchanger 20 where heat exchange is performed is to be maintained uniformly.

That is, if the pressure of the exhaust gas passing through each combustion tube 21 installed inside the heat exchanger 20 has a large suction pressure on the motor 42 side and a small suction pressure on the side away from the motor 42, a plurality of combustion tubes The pressure and heat of the combustion gas passing through the inside of the heat exchanger 20 made of 21 are differently formed so that a phenomenon of structurally deteriorating a specific combustion tube 21 occurs, and also the combustion environment of the uneven combustion shade is generated. It will make up.

The present invention devised in view of the above problems, the object of the present invention is to set the length of the baffle plate installed in the combustion tube of the heat exchanger corresponding to the suction pressure of the exhaust fan to maintain a stable operating state of the gas boiler and at the same time An object of the present invention is to provide a structure of a baffle plate for compensating exhaust wind pressure of a gas boiler which can improve a material rate.

1 is a state of coupling of the baffle plate installed in the heat exchanger of the conventional gas boiler

2 is a cross-sectional view of the coupling state of the baffle plate installed in the heat exchanger of the gas boiler according to the present invention

* Explanation of symbols for main parts of the drawings

10: boiler body 20: heat exchanger

21: combustion tube 22: baffle plate

30: combustion burner 40: blower

41: Big Weather 42: Motor

50; Exhaust path

In order to achieve the above object, a heat exchanger having a plurality of combustion tubes installed inside the present invention and a baffle plate for inducing a delay of the combustion gas at a nap of the combustion tube, and a combustion gas inside the combustion tube forming a heat source under the heat exchanger Gas consisting of a heat exchanger equipped with a baffle plate to induce a delay, a combustion burner forming a heat source under the heat exchanger, and an exhaust hood having an exhaust hood forcibly discharging the exhaust gas to the outside of the heat exchanger. In the boiler, the length of each baffle plate installed in the combustion tube is set differently in response to the suction pressure distribution of the blower.

Hereinafter, described in detail by the accompanying drawings an embodiment of the present invention that can meet the above objects and features are as follows.

Figure 2 is a schematic view of the coupling of the baffle plate installed inside the heat exchanger of the gas boiler according to the present invention, the structure of the heat exchanger 20 is a plurality of combustion pipes 21 are located in the cylinder vertically installed in the interior The heat source is supplied into the heat exchanger 20 by the combustion burner 30 under the combustion tube 21.

The heat source is supplied to the combustion tube 21 of the heat exchanger 20. The heat exchanger 20 performs a heating function by raising the temperature of the water surrounding the combustion tube 21. At this time, the heat exchanger 20 The exhaust hood 41 provided in the upper exhaust fan 40 covers the upper part of the heat exchanger 20 with the outside, and at the same time, a motor for forcibly applying the suction force of the exhaust gas to the side of the exhaust hood 41. The structure in which the 42 is formed constitutes the basic structure of the air blower 40.

As described above, the heat exchanger 20 formed under the exhaust fan 40 forms a plurality of combustion tubes 21 in the heat exchanger 20, and delays combustion gas in the combustion tube 21. A baffle plate 22 for imparting a function is installed in each of the plurality of combustion tubes 21.

The baffle plate 22 installed as described above is set to have a long length to increase the resistance at the suction side to the motor 42 side of the blower 40 and to reduce the resistance to the side away from the motor 42 side. It is made of a structure installed by setting the length of the baffle plate 22 short.

Therefore, according to the present invention, the baffle plate 22 inside the heat exchanger 20 corresponds to the suction pressure distribution of the exhaust hood 41 formed on the exhaust fan 40 and the exhaust flow path 50 formed on the heat exchanger 20. By varying the length of each, the suction grip force in the exhaust hood 41 can be maintained uniformly to increase the combustion rate in the heat exchanger 20.

That is, if the pressure of the combustion gas passing through the combustion tube 21 installed inside the heat exchanger 20 is greater than the suction pressure on the motor 42 side and the suction pressure on the side away from the motor 42 is large, The pressure and heat of the combustion gas passing through the combustion tube 21 inside the heat exchanger 20 made of (21) are different from each other, so that the phenomenon of structurally opening the specific combustion tube 21 occurs.

However, the above phenomenon is the suction of the blower 40 to the resistance of the combustion gas passing through the combustion tube 21 by setting the different length of the baffle plate 22 installed in the heat exchanger 20 according to the present invention described above. By setting to correspond to the pressure to uniform the distribution of the pressure of the combustion gas to improve the thermal efficiency of the boiler itself, as well as to improve the durability of the heat exchanger 20 installed therein.

As described above, the present invention is a useful design to improve the thermal efficiency while maintaining a stable gas boiler operating state by setting the length of the baffle plate installed in the combustion tube of the heat exchanger according to the suction pressure of the exhaust fan.

Claims (1)

A heat exchanger having a plurality of combustion tubes installed therein and a baffle plate for inducing combustion gas delay inside the combustion tube, a combustion burner forming a heat source under the heat exchanger, and exhaust gas burned to the upper portion of the heat exchanger In the gas boiler comprising a ventilator having an exhaust hood for forcibly discharging the gas to the outside, the gas boiler characterized in that the length of each baffle plate installed in the combustion pipe is set differently corresponding to the suction pressure distribution of the blower. Of baffle plate for exhaust wind pressure compensation