KR101717991B1 - Auto Air Vent - Google Patents

Abstract

According to the present invention, an automatic air discharge device discharges air inside a pipe, wherein a main body (110) comprises: a taper unit (111a); an upper main body (111); a guide unit (112a); and a lower main body (112).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to an automatic air discharging device capable of performing an automatic air discharging function by preventing an air leakage hole caused by an increase in buoyancy of a float after closing the opening and closing portion of the float accurately so as to prevent water leakage.

If the boiler pipe is filled with air, the boiler water will not circulate or the thermal efficiency will be lowered. Therefore, it is necessary to install an air discharge device for discharging the air.

Although there are various types of air discharge devices, there is a buoyancy type air discharge device that is simple in structure and widely used.

FIG. 1 shows an inner structure of a conventional buoyancy type air discharge device.

The conventional buoyancy type air discharge device is provided with a float 20 capable of being lifted and lowered by a buoyant force at an air discharging portion of the main body 10 and is provided at one side with one side of a plate 30, The other side of the plate 30 is lowered and the opening and closing part 40 coupled to the other side of the plate 30 is lowered to open the air discharge hole 50, After the air is exhausted, the opening / closing part 40 coupled to the other side of the plate 30 moves up to close the air exhaust hole 50. At this time, the opening / closing part 40 is vertically raised and lowered. However, since the opening and closing part 40 is coupled to the plate 30, vertical opening and closing of the opening and closing part 40 is difficult.

In order to raise and lower the float 20, the outer diameter of the float 20 must be smaller than the inner diameter of the body 10. [ As described above, since the outer diameter of the float is smaller than the inner diameter of the main body, a gap exists between the outer periphery of the float 20 and the inner periphery of the main body 10. [ When there is a gap between the outer periphery of the float 20 and the inner periphery of the main body 10 as described above, the float 20 can not be raised in parallel with the main body 10 and the float 20 is biased toward one side .

Therefore, when the float 20 is biased to one side, the vertical movement of the opening / closing part 40 coupled by the float 20 and the plate 30 becomes more difficult.

If the vertical movement of the opening / closing unit 40 is difficult, the opening / closing unit 40 can not accurately seal the air discharge hole 50 after the air is discharged. As a result, it is difficult to seal the air discharge hole by the opening / closing part, so that the air discharge hole 50 is opened. Accordingly, even after the air is discharged, the air discharge hole 50 is opened, which is a cause of leakage of the water discharged from the boiler water. As a result of this leakage of the air, the screw 61 is used in a locked state using the screw cap 60 to close the air discharge hole 50 after the air is discharged. When the screw 61 provided in the screw cap 60 is used in a locked state, the screw 61 provided in the screw cap 60 is released at any time to discharge the air. There is a problem that can not be done.

Therefore, after the air is exhausted, the air discharge hole due to the buoyancy rise of the float is closed accurately by closing the opening / closing part so as to prevent the water leakage, so that the automatic air discharge function can be performed. And the like.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems as described above, and it is an object of the present invention to provide an automatic air cleaner which can prevent the leakage of air by closing the air discharge hole, And to provide an automatic air discharging device capable of performing the discharging function.

It is another object of the present invention to provide an automatic air discharge apparatus for automatically discharging air without manually opening and closing the screw cap at any time without using a screw cap.

In order to achieve the above object, the automatic air discharge apparatus of the present invention includes a main body 110 coupled to a branched portion 102 branched to an upper portion of a pipe 101 and having an air discharge hole 111b formed at an upper portion thereof, An automatic air discharge device for discharging air in a pipe by opening and closing the air discharge hole (111b) by lifting and lowering a float (120) provided, the main body (110) A tapered portion 111a having an inner diameter smaller than that of the tapered portion 111a and an upper body 111 having a sealing portion 111c having the air discharge hole 111b formed at the center thereof, And is connected to a lower portion of the upper body 111 and hollow inside so as to communicate with the upper body 111 and is coupled to a lower end of the tapered portion 111a to have a cylindrical shape, A guiding portion 112a which is provided at the lower end of the guiding portion 112a, And a lower main body 112 having a pipe coupling part 112b which is formed in the upper part of the main body 110 and is coupled to the branch part 102 of the pipe 101. The float 120 is disposed inside the upper main body 110 A tapered portion contacting portion 121 which is in contact with the tapered portion 111a of the upper body 110 on the side surface and a sealing portion contacting portion 122 which is in contact with the sealing portion 111c of the upper body 110, And a packing 123 formed at an upper center of the hermetic portion 122 for opening and closing the air discharge hole 111b.

The joint part 131 is formed to be in contact with the inner circumference of the pipe 101 and is connected to one side of the pipe joint part 112b of the lower main body 112, An air discharge facilitating part 130 composed of a mesh net 132 installed to be inclined from the upper side to the lower side toward the flow direction and promoting the discharge of the air contained in the fluid by the collision of the fluid flowing into the pipe 101, .

The automatic air discharging apparatus according to the present invention has a structure in which the tapered portion contacting portion 121 of the float 120 is closely attached to the tapered portion 111a of the main body 110 when the float is lifted by the floating force of the float after the air is discharged Since the float 120 is positioned at the center of the inside of the main body 110 without being biased in the main body 110, the packing 123 provided on the float 120 closes and closes the air discharge hole accurately, There is an effect that it can be prevented.

Further, unlike the conventional air discharge device, since it can not accurately seal after air discharge, it is used in a locked state by using a screw cap, and the opening due to the falling of the float and the closing due to the rise of the float are automatically performed according to the water level The automatic air discharge function can be performed properly.

Unlike the conventional automatic air discharge device in which the screw provided on the screw cap is released for discharging air and the opening and closing work for tightening the screw for sealing after air discharge is manually performed from time to time, So that it is very convenient.

In addition, since the fluid is caused to flow through the mesh net installed in the piping to collide with each other to promote the discharge of the air remaining in the fluid, only the fluid remains inside the piping, thereby improving the problem of the air containing the fluid .

1 is a view showing an internal structure of a conventional automatic air discharge apparatus.
2 is a cross-sectional view illustrating a state in which the float of the automatic air discharge apparatus according to the present invention is lowered to discharge air.
3 is a cross-sectional view showing a state in which the float of the automatic air discharge device according to the present invention is elevated.
4 is a cross-sectional view illustrating a state in which the float of the automatic air discharge device according to the present invention rises and the air discharge hole is closed.
5 is a perspective view illustrating the structure of a float in the automatic air discharge apparatus according to the present invention.
6 is a cross-sectional view showing the structure of a float in the automatic air discharge apparatus according to the present invention.

Hereinafter, the automatic air discharge device of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a sectional view showing a state in which the float of the automatic air discharge device according to the present invention is lowered to discharge air, FIG. 3 is a sectional view showing a state where the float of the automatic air discharge device according to the present invention is lifted, FIG. 5 is a perspective view showing the structure of a float in the automatic air discharge apparatus according to the present invention, and FIG. 6 is a cross-sectional view of the automatic air discharge apparatus according to the present invention. Fig. 3 is a cross-sectional view showing a structure of a float in an automatic air discharge apparatus according to the present invention.

The automatic air discharge device includes a float 120 provided inside a main body 110 which is coupled to a branched portion 102 branched to an upper portion of a pipe 101 and has an air discharge hole 111b formed thereon, And discharging air in the pipe by opening and closing the air discharge hole 111b by the air discharge hole 111b.

2, when the water level in the main body 110 is lowered, the float 120 is lowered and the air discharge hole 111b is opened to discharge the air As shown in FIG. 4, when the water level in the main body 110 increases, the float 120 is raised by the buoyant force, and the air discharge hole 111b is closed to discharge the fluid flowing through the pipe. Leakage is prevented.

The branch portion 102 is branched into an upper portion of the pipe 101, and a screw is formed to connect the main body 110.

The automatic air discharge apparatus 100 according to the present invention includes a main body 110 and a float 120 as shown in FIGS.

The main body 110 includes an upper body 111 and a lower body 112.

The upper body 111 is hollow and has a tapered portion 111a and a closed portion 111c.

The tapered portion 111a is formed on the side surface and has an inner diameter smaller toward the upper portion.

The sealing portion 111c is provided with the air discharge hole 111b for sealing the upper end of the tapered portion 111a and discharging air at the center. An annular rim 111d protrudes from the lower end of the air discharge hole 111b. The annular rim 111d is provided to reduce frictional force when the sealing portion 111c of the upper main body 111 and the packing 123 of the float 120 are brought into contact with each other.

The lower main body 112 is coupled to a lower portion of the upper main body 111 and hollow inside to communicate with the upper main body 111 and includes a guide portion 112a and a pipe coupling portion 112b.

The guide portion 112a is coupled to the lower end of the tapered portion 111a and is cylindrical to guide the float 120 to move up and down.

The pipe coupling portion 112b is formed at the lower end of the guide portion 112a and is coupled to the branch portion 102 of the pipe 101. [

The upper main body 111 and the lower main body 112 are preferably screwed to prevent leakage. At this time, it is preferable that an O-ring 113 is placed at the screwed portion of the upper body 111 and the lower body 112 to prevent leakage of the fluid.

The float 120 is lifted and lowered by buoyancy according to the water level in the main body 110 and has the same shape as the inside of the upper body 110. The tapered portion contacting portion 121 and the closing portion contacting portion 122 and a packing 123.

The tapered portion contacting portion 121 is formed on a side surface of the float 120. When the float 120 is lifted by buoyancy due to a rise in the water level, (111a).

As shown in FIGS. 5 and 6, a plurality of grooves 121a are formed in the float 120 so that an air discharge passage for facilitating the discharge of air to the side surface of the float 120 may be formed in the tapered portion contacting portion 121. [ The taper portion contacting portion 121 may be formed to be long in the vertical direction along the side surface of the float 120 so as to form a rib 121b extending vertically along the side surface of the float 120.

The ribs 121b serve not only to form a groove 121a serving as an air discharge passage but also to allow the tapered portion contact portion 121 to contact the tapered portion 111a of the upper body 111 The tapered portion contacting portion 121 of the float 120 is easily separated from the tapered portion 111a of the upper body 111 when the fluid level in the body 110 is lowered by reducing the frictional force So that the float 120 also facilitates the descent.

The lower portion of the tapered portion 121 of the float 120 is formed with a conical air discharge guide portion 124 from the pipe 101 to the inside of the main body 110 So that the discharged air can be guided in the direction of the tapered portion contacting portion 121.

The hermetic portion contacting portion 122 is formed on the float 120 and contacts the hermetic portion 111c of the upper body 110 when the float 120 is lifted by buoyancy due to a rise in the water level.

The packing 123 is provided at the upper center of the hermetic portion contacting portion 122 and serves to open and close the air vent hole 111b of the upper body 110 according to the rising and falling of the float 120. The packing 123 opens and closes the air discharge hole 111b provided in the sealing portion 111c of the upper body 111 when the float 120 rises. At this time, when the float 120 rises, the packing 123 comes into contact with the annular rim 111d provided at the lower end of the air discharge hole 111b, so that the air discharge hole 111b of the upper main body 110 When the float 120 is lowered, the air discharge hole 111b of the upper body 110 is separated from the annular frame 111d provided at the lower end of the air discharge hole 111b .

The reason why the annular rim 111d provided at the lower end of the air discharge hole 111b of the upper main body 110 is provided with a narrow annular rim is that the sealing portion 111c of the upper main body 111 and the float When the float 120 is lowered due to a lower fluid level in the main body 110 by reducing the frictional force when the float 120 is brought into contact with the packing 123 of the float 120, .

The automatic air discharge apparatus of the present invention having the above structure opens and closes the air discharge hole 111b by the following operation.

The level of the fluid contained in the main body 110 is lowered as the float 120 rises and the air is discharged into the pipe 101 in the initial state where the air discharge hole 111b is closed. The float 120 is lowered and the packing 123 provided at the center of the hermetic portion contacting portion 122 of the float 120 is discharged from the center of the hermetic sealing portion 111c of the upper body 111 The air discharge hole 111b is opened away from the hole 111b as shown in Fig. In this state, air flowing into the main body 110 is discharged to the air discharge hole 111b.

When the air is discharged from the inside of the main body 110, the fluid flows into the main body 110 from the pipe 101 and the lower end of the tapered portion 121 of the float 120 contacts the lower main body 110, And guided by the guide portion 112a of the guide portion 112a. Since there is a gap between the tapered portion 111a of the float 120 and the tapered portion 111a of the upper body 111 when the float 120 is lifted, The tapered portion contacting portion 121 of the float 120 is tapered to the tapered portion of the upper main body 111 as shown in FIG. 4 when the float 120 is lifted up, And the air vent hole 111b is closed by the packing 123, so that the air vent hole 111b can be completely closed. When the rising of the float 120 is completed, the air vent hole 111b becomes an initial state in which the packing 123 seals.

As the float 120 contacts the tapered portion 111a of the main body 110 when the float is lifted due to buoyancy of the float after the air is discharged from the main body 110, The packing 123 provided on the float 120 can accurately seal the air discharge hole to prevent the leakage of water, and it is possible to prevent leakage Unlike the conventional air discharge device that uses a screw cap to lock the seal cap and unscrew the screw provided in the screw cap from time to time, the opening due to the float's lowering and the closure due to the rise of the float Because it is automatic according to the water level, the automatic air discharge function can be performed properly.

In addition, the present invention preferably includes an air discharge facilitating part 130 to facilitate the discharge of the air contained in the fluid flowing inside the pipe 101.

The air discharge facilitating part 130 includes a joint part 131 and a mesh network 132.

The joint portion 131 is joined to one side of the inside of the pipe coupling portion 112b of the lower main body 112. The joining portion is an arc-shaped plate having a radius of the pipe coupling portion 112b so as to be brought into contact with the inner peripheral edge of the pipe coupling portion 112b.

The mesh network 132 is disposed below the joint portion 131 and is formed to contact the inner circumference of the pipe 101. The mesh network 132 is sloped from the upper portion to the lower portion toward the flow direction of the fluid, Thereby promoting the discharge of the air contained in the fluid due to the collision of the fluid and guiding the air contained in the fluid into the main body 110 by the collision.

The technical idea should not be interpreted as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

101: piping 102:
110: main body 111: upper main body
111a: tapered portion 111b: air vent hole
111c: sealing part 112:
112a: guide portion 112b: pipe fitting portion
113: O-ring 120: Float
121: tapered portion contact portion 121a: groove
121b: rib 122: sealing portion contact portion
123: packing 124: air discharge guide
130: air discharge facilitating part 131:
132: mesh network

Claims (2)

The air discharge hole 111b is formed by lifting and lowering the float 120 provided inside the main body 110 coupled to the branched portion 102 branched to the upper portion of the pipe 101 and having the air discharge hole 111b formed thereon. To discharge air in the piping by opening and closing the piping,
The main body (110)
A tapered portion 111a having a hollow inside and having an inner diameter smaller toward the upper side and a sealing portion 111c having the air discharge hole 111b at the center thereof to seal the upper end of the tapered portion 111a, An upper body 111,
And is connected to a lower portion of the upper body 111 and hollowed to communicate with the upper body 111 and is coupled to a lower end of the tapered portion 111a to be cylindrical, And a lower body 112 having a guide part 112a and a pipe coupling part 112b formed at a lower end of the guide part 112a and coupled to the branch part 102 of the pipe 101,
The float (120)
A tapered portion contacting portion 121 having the same shape as the inside of the upper body 110 and contacting the tapered portion 111a of the upper body 110 at a side thereof and a tapered portion contacting portion 121 contacting the tapered portion 111a of the upper body 110 And a packing 123 formed at an upper center of the hermetic portion contacting portion 122 and opening and closing the air vent hole 111b,
A joining portion 131 which is joined to one side of the inside of the pipe coupling portion 112b of the lower main body 112,
And is formed to be in contact with the inner peripheral edge of the pipe 101 and is provided to be inclined from the upper part to the lower part toward the flow direction of the fluid, And an air discharge facilitating part 130 composed of a mesh net 132 for promoting the discharge of air contained therein,
A plurality of grooves 121a are formed along the side surface of the float 120 so as to form an air discharge passage for facilitating the discharge of air to the side surface of the float 120, A rib 121b is formed along the side surface of the float 120 so that the taper portion contacting portion 121 is elongated in the vertical direction,
The lower portion of the tapered portion 121 of the float 120 has a conical air discharge inducing part 124 for guiding air discharged into the body 110 toward the tapered part contacting part 121 Wherein the automatic air discharging device comprises: delete

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