KR940008396B1 - Contrary wind prevention device of gas boiler - Google Patents

Abstract

The adverse wind preventing device controls properly a gas amount of a gas valve and a spinning speed of an impeller according to the speed of the outer adverse wind. The device is constructed that in a fan housing an impeller connected to a motor is installed; and an exhausting pipe joining gate for connecting a vomitting gate of an impeller housing and the exhausting pipe, and a variable switch, a gas valve cut off switch and an ignition switch are formed in the inside of a case stuck to one side of the exhausting pipe joining gate.

Description

Proportional Backwind Preventer of Gas Boiler

1 is a front view showing a reverse wind prevention device of a conventional gas boiler.

2 is a plan view of FIG.

3 is a front view of the present invention proportional backwind prevention device.

4 is a plan view of FIG.

5 is a side view of FIG.

6 is a front view showing the operating state of the variable switch.

Figure 7 is an exploded perspective view of the main part of the present invention.

8 is a cross-sectional view of the main portion of the present invention.

FIG. 9 is a plan sectional view of the "A" part of FIG.

* Explanation of the opposing symbols in the main part of the drawing

20: motor 21: rotating shaft

30: impeller housing 31: impeller

32: suction port 33: discharge port

40: exhaust flue 50: exhaust flue connection

51: blocking plate 60: variable switch

61: adjusting rod 70: support

80: operating lever 90: counter-wind detection plate

100: case 110: gas valve disconnect switch

120: ignition switch

The present invention relates to a proportional backwind prevention device of a gas boiler that controls the amount of gas in the gas valve and the rotational speed of the impeller according to the wind speed of the external backwind flowing into the impeller housing through the exhaust flue.

In the conventional proportional anti-wind prevention method, as shown in FIG. 1 and FIG. 2, an impeller (3) having a motor (1) rotating shaft (2) connected therein is built into the fan housing (5), and exhaust gas is sucked on one side. An impeller housing 5 having an inlet 4 to be provided, an exhaust flue connection 7 connected to an exhaust port 6 formed at an upper portion of the impeller housing 5, and connected to an exhaust flue through which exhaust gas is discharged; One end of the micro switch 8 installed on the upper part of the motor 1 and connected to the ignition part of the gas boiler, and one end of the support 9 installed on one side of the micro switch 8 can be rotated by the fixed shaft 10. It is fixed so that the other side was composed of a plate rod (12) provided with a reverse wind sensing plate 11 located on the impeller 3 of the impeller housing (5).

In the conventional anti-wind device configured as described above, when the motor 1 is driven, the impeller 3 connected to the rotating shaft 2 rotates together, and the air of the gas boiler (intake of combustion) is passed through the inlet 4 of the impeller housing 5. Alternatively, the exhaust gas (in combustion) is introduced, and at the same time, the counterwind detection plate 11 positioned at the upper portion of the impeller 3 is pushed upward.

Therefore, the plate rod 12 is the other side of the fixed shaft 10, that is, the reverse wind detection plate 11 is installed to the upper side, the one side is lowered like a virtual line of Figure 1 plate rod 12 At one end of the), the micro switch 8 is turned on while the micro switch 8 is turned on, and at the same time, the ignition part of the gas boiler connected to it sparks to operate while burning the gas boiler.

In this way, in the normal combustion state, the micro switch 8 is always in the ON state. On the other hand, if the reverse wind flows into the exhaust air from the outside, the exhaust gas discharged from the impeller housing 5 and the incoming reverse wind collide with each other to reduce the discharged air speed while the reverse wind sensing plate 11 moves downward. Is moved. Therefore, the micro switch 8 is in an OFF state, and when the OFF state is 2 to 3 minutes, the gas valve of the gas boiler is shut off and the combustion is stopped.

The reason why the gap of the time (Gap) is placed in the state that the micro switch 8 is turned off is that a slight time because the wind speed of the reverse wind flowing from the outside is different and the time of the reverse wind is not constant when the boiler is actually operated. This is to stop the combustion after this has elapsed.

That is, since the reverse wind may not flow at all after the reverse wind flows for a certain time, if the reverse wind is sensed immediately and the combustion is stopped at this time, the continuity of the heating load (proportional control) is lost, and also great inconvenience in using hot water Because there is a ham.

In the conventional anti-wind device having such a configuration and an operating relationship, the impeller (3) must be driven at a certain speed or more, so that the anti-wind detecting plate (11) moves upward to turn on the micro switch (8) to start combustion of the gas boiler. Therefore, the boiler is driven at a medium or low rotational speed, not the maximum rotational speed of the impeller 3 when the rotational speed of the impeller 3 is proportionally variable according to the supply voltage of the motor 1 in proportional manner. While operating the boiler, there is a problem that the combustion is stopped because the conventional anti-wind device as shown in FIG. 1 or the air flow rate of the gas valve and the rotational speed of the impeller cannot be properly adjusted according to the wind speed of the counter-wind.

In addition, when the gas boiler starts to operate or when the user operates the control box according to the set temperature change, the micro switch 8, the plate rod 12, and the reverse wind sensing plate 11 continue to operate so that they are easily worn or broken. There was a problem.

The present invention to properly adjust the amount of gas of the gas valve and the rotational speed of the impeller according to the wind speed of the external reverse wind flowing into the interior through the exhaust flue in order to solve the conventional drawbacks as described above, the usual anti-wind device It is an object of the present invention to provide a proportional counter-winding device for a gas boiler that prevents operation of the counter-winding device to prevent wear or failure.

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

Proportional backwind prevention device of the present invention has an impeller 31, which is connected to the rotating shaft 21 of the motor 20 is built therein, as shown in Figure 3 to 9, the inlet 32 is An impeller housing 30, an exhaust flue connection port 50 for connecting the discharge port 33 and the exhaust flue 40 of the impeller housing 30, and an outer case on one side of the exhaust flue connection port 50. 100 is attached to the variable switch 60 for adjusting the displacement of the gas valve and the rotational speed of the impeller 31 in accordance with the wind speed of the reverse wind flowing into the exhaust flue connection port 50, the technical It is a basic feature.

Here, the exhaust flue connection port 50 is formed in the shape of a square column, and the lower part thereof is fixed to the discharge port 33 formed in the upper part of the impeller housing 30 as shown in FIG. On the upper portion of the connector 50, as shown in FIG. 4, a circular recess portion 52 into which the exhaust flue is fitted is formed to facilitate the assembly work with the exhaust flue 40. As shown in FIG. Then, the case 100 in which the variable switch 60 is built is welded and fixed to the outer wall opening of the exhaust flue connection port 50 as shown in FIG. 3.

As shown in FIG. 7 and FIG. 8, the variable switch 60 fastens and supports the support base 70 having a hole 71 formed at one side thereof by fastening a screw 72 at the center of one inner wall of the case 100. After the adjusting rod 61 of the variable switch 60 passes through the hole 71 of the support 70, the variable switch 60 is fixed to the support 70 and moved outward through the hole 71 of the support 70. Connect the central portion of the operation lever 80 to the protruding control rod 61 to be integrated, one side of the operation lever 80 is connected to the spring 73 is fixed to the bottom plate of the case 100, the operation lever ( On the other side of the 80, the reverse wind sensing plate 90 is installed, but the reverse wind sensing plate 90 is positioned above the inside of the exhaust flue connection 50 so that the reverse wind flows into the exhaust flue connection 50 due to the reverse wind. The sensing plate 90 is moved up and down while receiving the elastic force of the spring 73 on the axis of the control rod 61 of the variable switch 60 and the variable switch So that adjustment of the value 60, rod 61 is adjustable.

Here, one side of the variable switch protrudes the fixing part 66 in which the screw hole 65 is drilled, as shown in FIG. 7, and then the screw is attached to the support through the screw hole 65 of the fixing part 66. Secure by tightening. In addition, the threaded portion 63 is formed at the end of the control rod 61 of the variable switch 60, and at the same time, the pin hole 64 is formed, and the female threaded portion 81 is formed at the center of the operating lever 80. After screwing together the threaded portion 63 formed on the adjusting rod 61 of the variable switch 60 to the female threaded portion 81, the split pin 84 is simultaneously tightened with the nut 83, as shown in FIG. Inserted into the pin hole 64 to prevent the operating lever 80 and the control rod 61 is separated from each other.

In addition, as shown in FIG. 7, one side end of the operating lever 80 forms a cooking groove 82 to insert the central portion of one side of the counter-wind detecting plate 90 into the cooking groove 82, and the screw 85 from the upper portion thereof. Fasten by fastening, the operation lever 80 is to flow up and down through the square groove 53 formed in the exhaust flue connection (50). In addition, the reverse wind sensor 90 and the operation lever 80 are preferably made of a material having a specific gravity such as synthetic resin or aluminum.

The barrier plate 51 covering half the inside of the exhaust flue connection port 50 is welded to the inner wall of the exhaust flue connection port 50 corresponding to the lower portion of the reverse wind sensing plate 90 and exhausted by the impeller 31. It is to prevent the exhaust air discharged to the flue (40) to come into contact with the reverse wind sensing plate (90). In this case, as shown in FIG. 7, the blocking plate 51 may be inclined downward toward the outside so that the exhaust air is discharged along the downward slope.

Gas valve shutoff switch 110 and ignition switch 120 are installed on the inner wall of the case 100 at positions corresponding to the upper and lower portions of the operating lever 80, and the one end of the operating lever 80 is operated by counter-wind. The upper and lower rotations are in contact with the gas valve shutoff switch 110 and the ignition switch 120 to turn on, off.

Referring to the operational relationship of the present invention configured as described in detail as follows.

When the motor 20 is driven, air (before combustion) or exhaust gas (during combustion) of the gas boiler is introduced into the impeller housing 30 and the exhaust flue connection 50 through the inlet 32 of the impeller housing 30. It is introduced and discharged to the outside through the exhaust flue 40, in this state, as shown in Figure 3, the operating lever 80 is installed under the case 100, one end of which is dotted by the tension force of the spring (73) Since the ignition switch 120 is turned on in contact with the ignition switch 120 to thereby cause the ignition part of the gas boiler to spark and burn, the detailed description thereof will be omitted.

As described above, even when the impeller 31 rotates at a very high rotational speed while exhausting the exhaust gas while the gas boiler is burned, the exhaust gas is blocked by the blocking plate 51 provided in the exhaust flue connection port 50. Since the reverse wind sensing plate (90) connected to the operation lever (80) does not reach the fond, the operation lever (80) has the advantage that its durability is improved. At this time, as shown in FIG. 3, the exhaust gas may generate a vortex shape around or around the blocking plate 51 to contact the operating lever 80 and the reverse wind sensing plate 90. And is discharged to the exhaust flue 40.

Therefore, in the above state, the gas boiler is normally burned.

On the other hand, when the gas boiler is combusted normally as described above, when the external reverse wind flows into the exhaust flue connection opening 50 through the exhaust flue 40, the reverse wind is reversed as shown in FIG. 6. And then hit the back wind detection plate 90 is lowered down in accordance with the wind speed of the incoming back wind. That is, the operating lever 80 receives the elastic force of the spring 73 with the control rod 61 of the variable switch 60 as the axis, and the right side descends by the magnitude of the wind speed of the inflow wind, and the left side rises and changes. Adjust the switch (60).

In the state in which the reverse wind flows in this way, as shown in FIG. 6, the operation lever 80 is dropped from the ignition switch 120, so that the ignition switch 120 is turned off, and thus the ignition unit is stopped in normal operation. 60), the displacement of the gas valve of the gas boiler and the rotational speed of the impeller 31 are proportionally adjusted according to the wind speed to the inflow wind. Therefore, the gas boiler has an advantage that the combustion operation is prevented from being stopped by the reverse wind.

In addition, when the external back wind is strongly introduced and the combustion is impossible, the back lever lowers the back wind detection plate 90 until it comes into contact with the upper portion of the blocking plate 51 as shown in FIG. As shown in the figure, the left end thereof rises upward to come into contact with the gas valve shutoff switch 110 to turn on the gas valve shutoff switch 110 so that the gas valve is shut off and the combustion is stopped.

As described above, the present invention does not operate the proportional anti-wind device in normal operation, and operates only when the reverse wind is introduced, thereby increasing durability to prevent failure or poor conditions, and automatically shut off the gas valve when the reverse wind is severe. This will stop the use of a safe gas boiler.

As described above, the present invention is applied not only to the gas boiler, but also to the FF type hot air heater and the FF type instantaneous hot water heater. It is a very useful invention that prevents the backwind preventer is worn or broken by preventing the backwind preventer from operating in normal times.

Claims (3)

An impeller connected to a motor in the fan housing is built in, and an impeller housing having a suction port at one side thereof; An exhaust flue connection port connecting the discharge port of the impeller housing and the exhaust flue; A proportional backwind prevention device for a gas boiler, characterized in that a variable switch, a gas valve shutoff switch, and an ignition switch are formed inside a case attached to one side of the exhaust flue connection port. The method of claim 1, wherein the variable switch is rotatably installed on a support fixed to the inside of the case, the gas valve of the gas valve and the ignition switch installed in the case in contact with the rotation of the gas flow rate of the gas valve and the impeller Proportional backwind prevention device of a gas boiler, characterized in that configured to adjust the rotation speed. According to claim 2, Providing a blocking plate in the lower portion of the reverse wind sensing plate to prevent the exhaust air discharged to the exhaust flue by the impeller in contact with the reverse wind sensing plate, characterized in that the proportional back wind of the gas boiler Prevention device.