KR102214169B1 - Venturi device - Google Patents

Abstract

The present invention relates to a venturi device, wherein a mixing pipe is installed at the lower end of the fan motor, an outlet is formed at the upper end of the mixing pipe, an air supply pipe having an inlet at the lower end is installed, and air is provided at the inlet of the air supply pipe. By installing a damper having a blade piece that opens and closes in response to the suction pressure of the air supply pipe, suction pressure is formed at the inlet of the air supply pipe and the gas inlet of the mixing pipe, so that the blade piece of the damper is opened in proportion to the suction pressure in the air supply pipe. A predetermined amount of air is supplied into the air supply pipe, and gas is supplied through the gas inlet to correspond to the amount of air moving into the mixing pipe through the air supply pipe, so that the predetermined amount of gas and air are evenly mixed in the mixing pipe.
According to the present invention, the opening area of the blade piece of the damper is opened in proportion to the suction pressure in the air supply pipe, so that the air around the inlet is prevented from being excessively supplied into the air supply pipe, and an accurate amount of air proportional to the rotational driving force of the fan motor is It is supplied into the mixing pipe through the air supply pipe, so that the mixing ratio of the gas and air mixed in the mixing pipe is increased, and the mixed gas with an increased mixing ratio is ignited to prevent ignition defects and improve combustion performance. In response to the rotational driving force of the motor, the amount of gas supplied through the gas inlet and the amount of air supplied into the mixing pipe through the damper are kept constant, so that gas and air can be mixed in an accurate ratio.

Description

Venturi device

The present invention relates to a venturi device, and more particularly, the outlet of the air supply pipe is closed with a damper, and the blade piece of the damper is opened and closed in response to the suction pressure of the air supplied to the outlet, and air proportional to the amount of gas supplied into the air supply pipe. It relates to a venturi device to be supplied.

In general, gas boilers are divided into wall-mounted and floor-mounted types according to their installation type, and depending on the hot water supply method, the heat exchanger of the boiler body supplies hot water by a heat exchanger for hot water and stored in a separate hot water storage tank. It is divided into a method of supplying hot water when necessary, and in addition, according to the heating water circulation method, it is divided into an air-closed air-blocking type in which the heating circulation circuit in the boiler is cut off from the atmosphere, and an atmospheric opening type in which the heating circuit in the boiler is opened.

Such a gas boiler receives and mixes external gas and air, and supplies the mixed gas to the burner unit, whereby the mixed gas is combusted and ignited in the burner unit.

In addition, the heating pipe and the pipe body are heated by a gas burner and supplied to the heating pipe and the hot water supply pipe by the circulation pump to heat the room or supplied as hot water.

Patent Document 1 shows a conventional gas boiler, and referring to this, a combustion chamber installed in the main body, a burner coupled to one end of the combustion chamber, and one end connected to the burner, but the other end connected to an intake pipe to supply air to the burner. And a gas supply pipe having one end connected to the burner and the other end connected to an external gas pipe to supply gas to the burner.

At this time, when the air suction fan installed between the burner and the air supply pipe is driven, suction pressure is formed in the air suction pipe by the air suction fan, and accordingly, through the air intake hole of the intake pipe connected to the end of the air supply pipe. External air is supplied into the intake pipe.

And, the air supplied into the intake pipe is supplied to the burner through the air supply pipe.

At the same time, gas is supplied through the gas supply pipe, and the gas is supplied to the burner to be mixed with the air and converted into a mixed gas.

At this time, the mixed gas generated by the burner is combusted in the combustion chamber to ignite the combustion chamber.

However, Patent Document 1 as described above supplies gas and air to the burner through each of the air supply pipe and the gas supply pipe, so that the ratio of the gas and air is not constant, and the air through the air supply pipe is constant in proportion to the suction hole area. As the amount of air is increased or decreased compared to the amount of gas supplied to the burner, combustion performance is lowered, and the mixed gas cannot be ignited in the combustion chamber due to the decrease in combustion performance, resulting in loss of the product function and a resonance sound. In particular, there is an inconvenience in that the gas supply amount must be adjusted at any time to correspond to the amount of air supplied to the burner by the air intake fan, and thus, there is a problem that the reliability of the product is deteriorated.

KR 10-0268001 B1

The present invention is to solve the above-described problem, and an object of the present invention is to install a mixing pipe at the lower end of the fan motor, and form an outlet at the upper end at the lower end of the mixing pipe, and air having an inlet at the lower end. By installing a supply pipe, and by installing a damper with a blade piece that opens and closes in response to the suction pressure of air at the inlet of the air supply pipe, the fan motor creates suction pressure at the inlet of the air supply pipe and the gas inlet of the mixing pipe, The blade piece of the damper installed at the inlet is opened to a predetermined area in response to the suction pressure in the air supply pipe, so that a predetermined amount of air is supplied into the air supply pipe, and at the same time, through the gas inlet to respond to the amount of air moving into the mixing pipe through the air supply pipe. It is to provide a venturi device that allows gas to be supplied so that a predetermined amount of gas and air are evenly mixed in a mixing pipe.

In order to achieve the object of the present invention as described above, the venturi device according to the present invention includes a fan motor; A mixing tube installed at the lower end of the fan motor, receiving air through the lower end, receiving gas through a gas inlet formed on an outer surface, and mixing gas and air; An air supply pipe having a hollow tubular shape, installed at the lower end of the mixing pipe, forming an inlet at the lower end for forcibly inhaling air by the fan motor, and having an outlet at the upper end for discharging air to the mixing pipe; It characterized in that it consists of a; is installed to close the inlet of the air supply pipe, is formed in a plurality of annularly spaced apart at a predetermined interval, the damper including a blade piece that is opened and closed to correspond to the suction pressure in the air supply pipe.

In the venturi device according to the present invention, the damper further includes a fitting groove that is forcibly fitted into an inlet rim of the air supply pipe at an upper rim.

In the venturi device according to the present invention, a plurality of blade pieces of the damper are formed in an annular shape and spaced apart from each other to have an equal area, and are opened to the same area.

In the venturi device according to the present invention, the damper is formed through a predetermined width between the blade pieces to further form an air passage hole through which air passes.

In the venturi device according to the present invention, the damper further comprises a central hole for guiding air to be introduced into the central portion of the air supply pipe at a central portion where the air passage hole crosses.

In the venturi device according to the present invention, the blade piece of the damper is opened while being sucked upward with respect to the center of the damper in proportion to the suction pressure in the air supply pipe or restored to its original state to seal the inlet. It is characterized.

In the venturi device according to the present invention, the blade piece of the damper is made of a material having an elastic force to close the inlet while being opened or restored to its original state by the suction pressure in the air supply pipe, It is characterized in that it is formed of a combustible rubber material or a non-combustible plastic material.

According to the present invention, the opening area of the blade piece of the damper is opened in proportion to the suction pressure in the air supply pipe, so that the air around the inlet is prevented from being excessively supplied into the air supply pipe, and an accurate amount of air proportional to the rotational driving force of the fan motor is It is supplied into the mixing pipe through the air supply pipe, so that the mixing ratio of the gas and air mixed in the mixing pipe is increased, and the mixed gas with an increased mixing ratio is ignited to prevent ignition defects and improve combustion performance. In response to the rotational drive power of the motor, the amount of gas supplied through the gas inlet and the amount of air supplied into the mixing pipe through the damper are kept constant, allowing the gas and air to be mixed in the correct ratio, thereby improving the reliability of the product. It has the advantage of being.

1 is a perspective view showing a Venturi device according to the present invention.
Figure 2 is an exploded perspective view of Figure 1;
3 is a cross-sectional perspective view of a venturi device according to the present invention.
Figure 4 is a cross-sectional perspective view showing a state in which air is supplied into the air supply pipe of the venturi device according to the present invention.
5 is a perspective view showing another embodiment of the damper of the venturi device according to the present invention.

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

1 to 5, the fan motor 100 is driven to rotate.

The fan motor 100 is preferably provided inside a boiler (not shown).

The fan motor 100 is fixedly installed at one end of a burner (not shown) installed inside a boiler (not shown) so that air and gas are forcibly sucked through each of the air supply pipe 300 and the mixing pipe 200, the A suction pressure is formed in the air supply pipe 300 and the mixing pipe 200.

The fan motor 100 creates a suction pressure in the inlet 301 of the air supply pipe 300 so that external air is sucked into the inlet 301.

The fan motor 100 creates a suction pressure in the gas inlet 201 of the mixing pipe 200 so that the gas is sucked into the mixing pipe 200 through the gas inlet 201.

The mixing pipe 200 is installed at the lower end of the fan motor 100 and receives air through the lower end, and receives gas through the gas inlet 201 formed on the outer surface, and mixes the gas and air.

The gas inlet 201 is connected to a gas hose (not shown) that supplies gas to the mixing pipe 200.

The mixing pipe 200 discharges the mixed gas toward the fan motor 100 through an upper portion.

The mixing pipe 200 further forms a guide pipe 200a having an upper and lower narrow structure therein.

The guide pipe 200a generates a negative pressure by the air pressure introduced into the guide pipe 200a, and induces the gas introduced into the mixing pipe 200 through the gas inlet 201 to be sucked.

The air supply pipe 300 has a hollow tubular shape, is installed at the lower end of the mixing pipe 200, and forms an inlet 301 at the lower end to forcibly inhale air by the fan motor 100, and the mixing at the upper end To form an outlet 302 for discharging air to the pipe 200

The air supply pipe 300 forms a suction pressure at the inlet 301 side by the rotational driving force of the fan motor 100.

The inlet 301 forcibly sucks air around the lower end of the air supply pipe 300.

The inlet 301 is closed by the damper 400.

The damper 400 is installed to close the inlet 301 of the air supply pipe 300, is formed in a plurality of annularly spaced apart at a predetermined interval, the blade piece that is opened and closed to correspond to the suction pressure in the air supply pipe 300 Including 401.

The damper 400 is formed to correspond to the shape of the inlet 301 of the air supply pipe 300.

The damper 400 further forms a fitting groove 402 that is forcibly fitted to the edge of the inlet 301 of the air supply pipe 300 on the upper edge.

A plurality of blade pieces 401 of the damper 400 are formed in an annular shape to have an equal area and are spaced apart from each other and are opened to the same area.

The damper 400 is formed through the blade pieces 401 with a predetermined width to further form an air passage hole 401a through which air is passed.

The air passage hole 401a prevents the wing pieces 401 from overlapping with each other while being locked or sealed while being opened.

It is preferable that the air passage hole 401a is formed to spread radially with respect to the central portion of the damper 400.

The damper 400 further forms a central hole 401b for guiding air to be introduced into the central portion of the air supply pipe 300 at the center where the air passage hole 401a intersects.

The central hole 401b guides air to be supplied directly above the central portion of the air supply pipe 300 through the damper 400 and supplies air to the central portion of the mixing pipe 200.

It is preferable that the diameter of the central hole 401b is relatively smaller than the diameter of the guide pipe 200a of the mixing pipe 200.

The blade piece 401 of the damper 400 is opened while being sucked upward from the center of the damper 400 or restored to its original state so as to be proportional to the suction pressure in the air supply pipe 300, and the inlet 301 ) Is sealed.

The wing piece 401 guides air to be sucked into the air supply pipe 300 while being opened in an upper narrow light structure.

The blade piece 401 of the damper 400 is formed of a material having an elastic force to close the inlet 301 while being opened or restored to its original state by the suction pressure in the air supply pipe 300, and can withstand the flame. It is formed of non-combustible rubber material or non-combustible plastic material.

The wing piece 401 blocks the flame that is backfired through the air supply pipe 300 from being discharged to the inlet 301 of the air supply pipe 300.

The venturi device according to the present invention configured as described above is used as follows.

In the following description, the venturi device of the present invention will be described as an example that is installed and used in a boiler.

First, when the boiler (not shown) is operated, the fan motor 100 installed in the boiler (not shown) is driven to rotate, and the mixing pipe 200 and the air supply pipe 300 are driven by the fan motor 100. ), the suction pressure is formed.

Here, the mixing pipe 200 is installed at the lower end of the fan motor 100, and the air supply pipe 300 is connected and installed at the lower end of the mixing pipe 200.

At this time, the mixing pipe 200 is connected to a gas hose (not shown), and the gas is supplied into the mixing pipe 200 through the gas hose (not shown).

Here, the gas hose (not shown) is connected to the gas inlet 201 of the mixing pipe 200 and supplies gas through the gas inlet 201, so that the mixing pipe 200 and the guide pipe ( The gas flows into the space between 200a).

Meanwhile, a suction pressure is formed on the inlet 301 side by the suction pressure formed in the air supply pipe 300, and the air around the inlet 301 side passes through the air passage of the damper 400 by this suction pressure. It is passed through the holes 401a and supplied into the air supply pipe 300.

At this time, when the suction pressure on the side of the inlet 301 is higher than the elastic force of the blade piece 401 of the damper 400, the blade piece 401 is lifted in the inner direction of the air supply pipe 300, at this time , Air is supplied into the air supply pipe 300 through the open space between the wing pieces 401.

Here, the open area between the blade pieces 401 that are lifted and opened in the air supply pipe 300 is proportional to the suction pressure in the air supply pipe 300 formed by the fan motor 100. desirable.

That is, the wing piece 401 is pushed toward the inlet port 301 of the air supply pipe 300 and is opened in an upper narrow light structure.

Subsequently, while the air supplied into the air supply pipe 300 is supplied into the mixing pipe 200 through the outlet 302, a negative pressure is formed between the mixing pipe 200 and the guide pipe 200a. The gas supplied between the mixing pipe 200 and the guide pipe 200a by negative pressure is sucked into the mixing pipe 200.

Then, the gas and air supplied into the mixing pipe 200 are mixed in the mixing pipe 200 and then moved in the direction of the fan motor 100, and the burner of the boiler (not shown) by the fan motor 100 It is discharged to the city) side and creates a flame by igniting the mixed gas in this burner.

On the other hand, in a state in which flames are generated in the burner of the boiler, in the case of adjusting the thermal power of the burner, the rotation speed of the fan motor 100 is changed, and the mixing pipe 200 and the The suction pressure in the air supply pipe 300 is changed.

At this time, the amount of gas introduced through the gas inlet 201 is adjusted to correspond to a change in the suction pressure in the mixing pipe 200, and the damper 400 is applied in response to the suction pressure in the air supply pipe 300. It is elastically changed so that the open area between the wing pieces 401 is proportional, and the amount of air supplied into the air supply pipe 300 through the wing pieces 401 is changed.

Here, when the suction pressure of the air supply pipe 300 is relatively higher than the elastic force of the wing piece 401, the open area between the wing pieces 401 increases as described above, and the suction of the air supply pipe 300 When the pressure is relatively lower than the elastic force of the wing piece 401, the air passage hole 401a between the wing piece 401 and the central hole 401b formed in the center where the wing piece 401 intersects Air is supplied into the air supply pipe 300 through.

At this time, the central hole 401b guides the air around the inlet 301 to be supplied directly above the center of the air supply pipe 300, so that the air moving directly above the air supply pipe 300 is mixed. It is supplied to the center of the tube 200.

In addition, the gas and air supplied into the mixing pipe 200 are mixed and then supplied to the burner through the fan motor 100 as described above.

On the other hand, when the boiler operation is blocked to block the mixed gas supplied to the burner, the rotation of the fan motor 100 is stopped and the suction pressure in the mixing pipe 200 and the air supply pipe 300 is lost. At this time, the gas flowing through the gas inlet 201 of the mixing pipe 200 is blocked by closing a gas valve (not shown) allowing gas supply to the gas inlet 201.

In addition, as the suction pressure in the air supply pipe 300 is lost and the blade piece 401 of the damper 400 is restored to its original state by an elastic force, the inlet 301 of the air supply pipe 300 is closed, accordingly, The supply of gas and air into the mixing pipe 200 is blocked.

As described above, the blade piece 401 of the damper 400 is elastically deformed in the direction toward the inlet 301 and is opened by the suction pressure in the air supply pipe 300, so that the open area between the blade pieces 401 is changed to the air supply pipe ( The structure in which air is sucked into the air supply pipe 300 by opening in proportion to the suction pressure within 300) is opened so that the open area of the blade piece 401 of the damper 400 is proportional to the suction pressure in the air supply pipe 300, The air around the inlet 301 is prevented from being excessively supplied into the air supply pipe 300, and an exact amount of air proportional to the rotational driving force of the fan motor 100 is transferred into the mixing pipe 200 through the air supply pipe 300. As a result, the mixing ratio of the gas and air mixed in the mixing pipe 200 is increased, and the mixed gas having the increased mixing ratio is ignited to prevent ignition failure and improve combustion performance.

The Venturi device according to the present invention described above is not limited to the above-described embodiment, and anyone with ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims can be varied. It has its technical spirit to the extent that it can be changed and implemented.

100: fan motor 200: mixing pipe
200a: guide pipe 201: gas inlet
300: air supply pipe 301: inlet
302: outlet 400: damper
401: wing piece 401a: air passage hole
401b: central hall 402: fitting groove

Claims (7)

A fan motor 100;
A mixing pipe 200 installed at the lower end of the fan motor 100 and receiving air through the lower end, receiving gas through a gas inlet 201 formed on the outer surface, and mixing gas and air;
A hollow tube shape, installed at the lower end of the mixing pipe 200, forming an inlet 301 for forced suction of air by the fan motor 100 at the lower end, and air to the mixing pipe 200 at the upper end. An air supply pipe 300 having an outlet 302 for discharging the air;
A damper including a blade piece 401 installed to close the inlet 301 of the air supply pipe 300, formed in a plurality of annularly spaced apart from each other, and opened and closed to correspond to the suction pressure in the air supply pipe ( 400);
Consists of,
The damper 400 is formed through a predetermined width between the wing pieces 401, an air passage hole (401a) for passing air;
A center that guides air into the central portion of the air supply pipe 300 even when the suction pressure of the air supply pipe 300 is relatively lower than the elastic force of the wing piece 401 at the center where the air passage holes 401a cross Hole 401b;
Venturi device, characterized in that further formed. The method of claim 1,
The damper 400,
Venturi device, characterized in that further forming a fitting groove (402) that is forcibly fitted into the inlet 301 of the air supply pipe (300) on the upper edge. The method of claim 1,
The blade piece 401 of the damper 400,
Venturi device, characterized in that it is formed in a plurality of annularly spaced apart at predetermined intervals so as to have an equal area, and open to the same area. delete delete The method of claim 1,
The blade piece 401 of the damper 400,
Venturi device, characterized in that in proportion to the suction pressure in the air supply pipe (300), it is opened or restored to its original state while being sucked upward from the center of the damper (400) to seal the inlet (301). The method of claim 1 or 6,
The blade piece 401 of the damper 400,
Venturi device, characterized in that it is made of a material having elasticity to close the inlet while being opened by the suction pressure in the air supply pipe or restored to its original state, and is made of a non-combustible rubber material or a non-combustible plastic material that can withstand flame .

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