KR101010900B1 - Air valve of discharge valve - Google Patents

Abstract

PURPOSE: An air valve for a fluid release valve is provided to prevent fluid from a pipe from becoming externally discharged by high pressure. CONSTITUTION: An air valve for a fluid release valve comprises a body(10), a floating guide(20), a first cover(30), a floating ball(40), a guide bar(50), a second cover(60) and a sliding guide unit(7). A through-hole(12) and a flange(11) are formed on one end of the body and the upper part of the body is formed in an "U" shape. A busing hole(22) is formed on the lower part of the floating guide unit. The first cover comprises a penetrating hole(31) for externally discharging the air from the body. A valve seat(32) is formed on the lower end of the penetrating hole. The floating ball is upwardly slid by pressure and opens/closes the penetrating hole of the first cover. A guide rod supports the floating balls so that they are slid upwardly and downwardly.

Description

Air valve for discharge valve

The present invention relates to an air valve for a discharge valve, and more particularly, the float ball sliding guide is always pushed downward by a spring installed on a shaft for fixing a cover, so that the air in the pipe is smoothly discharged in the pipe. Under abnormal high pressure, the float ball slides upward by the pressure to seal the through hole of the cover to prevent the fluid (water) flowing in the pipe according to the high pressure to be discharged to the outside, and the air bleed valve is provided on the outer circumferential surface of the body of the air valve. By being installed, air can be discharged separately through the air bleed valve, which is continuously formed when the float ball closes the opening of the cover due to pressure, so that the fluid flows smoothly, and the discharge that can prevent damage and noise in the pipe is prevented. It relates to an air valve for the valve.

In general, in the water and sewage pipes, air is introduced into the pipe due to various reasons, such as when replacing aging water and sewage pipes or supplying water and sewage, and such internal air reduces the flow of water and sewage. Therefore, the air discharge valve is installed at one side of the water and sewage pipes to discharge the internal air.

Here, the cause of air inflow into the water transport pipeline, the air that is not completely removed before the pipeline is filled, if there is no device to discharge enough air before opening the check valve, the air flowing in when the pump is started, the pump suction side There is air flowing from the suction side through the vortex action, air entering the pipeline through the coupling part that is not completely sealed at the pipeline point located above the hydraulic grade line, and air flowing through the pump gland packing part.

At this time, the air amount of 5 to 10% of the flow rate may be introduced to the pump suction side by Vortex. In addition, air has fatal effects such as vibration, corrosion and deterioration of the pump as well as pipeline problems.

In addition, the staged flow in the partially filled conduit traps large amounts of air resulting in so-called white water. Turbulent flows associated with staged flow lead to a mixture of air and water that is very difficult to remove. And, air can be captured by the hydraulic jump due to flow through the partially open valve.

Here, the air discharge valve is generally installed together with a distillation valve, rather than being installed alone, so that the air discharge valve can be easily replaced after the water and sewage are separated by the distillation valve.

The air discharge valve is installed in the body having a hollow portion, the buoy is in direct contact with the outlet formed in the upper portion of the body while the upper and lower reciprocating movement by the water level of the upper and lower, or to control the discharge of air, or a separate auxiliary member By using the accessory to pressurize the auxiliary member can be divided into a method of controlling the discharge of air by the auxiliary member to control the outlet.

That is, the above two methods are to release the air inside the outside by opening and closing the outlet opening or the auxiliary member directly connected to the air outlet. However, in the above method, a gap is generated because the outlet and the sub-portion or the auxiliary member for opening and closing the opening are difficult to be completely adhered to.

Therefore, if the air discharge structure in which the gap is generated is applied to a relatively small capacity, since the hydraulic pressure acts more than the buoyancy, the internal upper and sewage rises to the upper side of the float so that it is discharged to the outside through the gap of the outlet. There is a problem that the leak is discharged.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems,

The float ball sliding guide is always pushed downward by the spring installed on the shaft to fix the cover, and the air in the pipe is smoothly discharged during normal operation. In case of abnormal high pressure in the pipe, the float ball slides upward due to the pressure. It is an object of the present invention to provide an air valve for a discharge valve to seal the through-hole to prevent the fluid (water) flowing in the tube according to the high pressure from being discharged to the outside.

In addition, the air bleed valve is installed on the outer circumferential surface of the body of the air valve, it is possible to discharge the air continuously formed when the float ball closed the through hole of the cover by the pressure through the air bleed valve separately to smooth the flow of fluid Another object is to provide an air valve for a discharge valve that can prevent damage and noise in the pipe.

In order to achieve the above object, the present invention is a through-hole and a flange is formed at one end to be penetrated through the pipe, the upper body is hollow and formed in the cross-section "U" shape;

A float guide unit fixedly installed at an inner end of the body, having a “U” in cross section, and having one end hollowed out, and a bushing hole formed at a lower side thereof so that pressure in the pipe is introduced;

A cover formed at a hollow upper side of the body to protrude through the central portion to discharge the air introduced into the body to the outside, and having a through hole formed at a lower end of the through hole;

A float ball formed in the float guide stand and sliding upward by a pressure introduced through a bushing hole of the float guide stand to open and close the through hole of the cover;

A guide rod formed through the central portion of the float ball, and having a lower side penetrated through the central portion of the float guide unit to support the float ball to slide up and down at a predetermined position;

A cover fixedly installed at an upper side of the cover by a plurality of shafts, the upper inner surface of which is curved so that air or water discharged through the opening of the cover is easily discharged to the outside;

A communication hole is formed in the through hole of the cover to allow air or water to penetrate at one end thereof, and an upper end portion of the guide rod is connected to the center at one end thereof so that the float ball is moved upward when the float ball slides upward by pressure. It relates to an air valve for a discharge valve, characterized in that configured to include; air or water is discharged through the cover, and the upper side is formed protruding outward through the through hole float guide slide connected to the shaft of the cover.

As described above, the air valve for the discharge valve of the present invention always press the float ball sliding guide to the lower side by a spring installed on the shaft for fixing the cover, the air in the pipe is smoothly discharged in the pipe At the abnormal high pressure, the float ball slides upward by the pressure to seal the through hole of the cover, thereby preventing the fluid (water) flowing in the tube according to the high pressure from being discharged to the outside.

In addition, the air bleed valve is installed on the outer circumferential surface of the body of the air valve, it is possible to discharge the air continuously formed when the float ball closed the through hole of the cover by the pressure through the air bleed valve separately to smooth the flow of fluid And, there is an effect that can prevent damage and noise in the pipe.

1 is a cross-sectional view showing an air valve for a discharge valve in which the float ball is opened and air is discharged to the outside according to an embodiment of the present invention.
2 is a cross-sectional view showing an air valve for a discharge valve closed float ball according to an embodiment of the present invention,
3 is a cross-sectional view illustrating an air valve for a discharge valve in which float air is opened due to external air introduced therein according to an embodiment of the present invention;
Figure 4 is a cross-sectional view showing an air vent valve according to an embodiment of the present invention.

The present invention has the following features to achieve the above object.

The present invention is a through-hole and a flange is formed at one end so as to penetrate through the pipe, the upper body is hollow to form a cross-section "U" shape;

A float guide unit fixedly installed at an inner end of the body, having a “U” in cross section, and having one end hollowed out, and a bushing hole formed at a lower side thereof so that pressure in the pipe is introduced;

A cover formed at a hollow upper side of the body to protrude through the central portion to discharge the air introduced into the body to the outside, and having a through hole formed at a lower end of the through hole;

A float ball formed in the float guide stand and sliding upward by a pressure introduced through a bushing hole of the float guide stand to open and close the through hole of the cover;

A guide rod formed through the central portion of the float ball, and having a lower side penetrated through the central portion of the float guide unit to support the float ball to slide up and down at a predetermined position;

A cover fixedly installed at an upper side of the cover by a plurality of shafts, the upper inner surface of which is curved so that air or water discharged through the opening of the cover is easily discharged to the outside;

A communication hole is formed in the through hole of the cover to allow air or water to penetrate at one end thereof, and an upper end portion of the guide rod is connected to the center at one end thereof so that the float ball is moved upward when the float ball slides upward by pressure. It is characterized in that it comprises a; floats the air or water discharged through the cover, the upper side portion is formed protruding outward through the through hole is connected to the shaft of the cover.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

Before describing the various embodiments of the present invention in detail with reference to the accompanying drawings, it can be seen that the application is not limited to the details of the configuration and arrangement of the components described in the following detailed description or shown in the drawings. will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a cross-sectional view showing an air valve for a discharge valve is open air float ball according to an embodiment of the present invention, Figure 2 is a float ball air for the discharge valve closed in accordance with an embodiment of the present invention 3 is a cross-sectional view showing a valve, Figure 3 is a cross-sectional view showing an air valve for the discharge valve open the float ball by the outside air in accordance with an embodiment of the present invention, Figure 4 is an air bleed valve according to an embodiment of the present invention It is sectional drawing which shows.

As shown in Figures 1 to 4, the discharge valve air valve 100 of the present invention is installed in a large pipe to discharge a large amount of water is formed in a large size to discharge the pressure and air inside the pipe to the outside, When the water is discharged, the water is quickly transported in the pipe, thereby increasing the pressure in the pipe. 30, a float ball 40, a guide rod 50, a lid 60, a float ball sliding guide 70, and an air bleed valve 80. At this time, not only the air but also a small amount of water in the tube by the high pressure can be discharged to the outside, the invention for preventing this.

As shown in Figures 1 and 2, the body 10 has a "U" shape in cross section, the upper part is hollow, and the through-hole 12 is formed in the center part at the other end (lower end) formed by an arc. The outer periphery of the through hole 12 is formed with a flange 11 is installed by a coupling member such as a fastening bolt on the upper portion of the tube, the through hole 12 and the tube is penetrated to each other.

Here, the body (10) inside the body (10) is collected in the tube (air) is discharged to the outside, the bubble is installed in the upper part (highest part of the tube) so that the body to agglomerate 10, the body The upper side of is formed in a state bent at a right angle to the outside so that the cover is provided.

In addition, the air bleed valve 80 is installed to penetrate the inside of the body 10 on the outer circumferential upper surface of the body 10 so that the float ball 40 blocks the cover 30 by the pressure in the tube. The inside of the body (10) is sealed, whereby the air delivered through the conduit through the air bleed valve (80) to prevent the body (10) from being damaged due to the increase in the differential pressure inside the body (10) A certain amount of air is discharged. At this time, the air bleed valve 80 is smaller than the air valve 100, detailed structure, configuration, shape will be described below.

1 and 2, the float guide stage 20 is fixedly installed at one end of the inner circumferential surface of the body 10, and has one end (upper side) in the shape of a cross section “U”. . Here, the valve cushion 21 is installed at one end of the float guide stage 20 when the float ball 40 formed therein abuts to prevent impact and damage. At this time, the valve cushion 21 is installed on the arc portion of the float guide stage (20).

In addition, a bushing hole 22 is formed at a lower side of the float guide 20 so that pressure in the pipe is introduced therein, and pressure air in the pipe is introduced into the float guide 20 through the bushing hole 22. By sliding the installed float ball 40 upwards, the bushing hole 22 is a through hole of the body 10 through which the side surface of the lower side of the float guide stand 20, that is, air and fluid, flows (as shown in FIGS. 1 and 2). It is formed so as not to be in line with the 12 and the reason is to prevent the inflow of air and fluid into the bushing hole 22 directly in the through hole (12).

In addition, the bushing hole 22 may adjust the size of the hole according to the installation position, use, and capacity of the air valve 100. In this case, the bushing hole 22 may be adjusted by inserting a bushing of various sizes into the hole.

In addition, a hole (not shown) is formed to penetrate the guide rod 50 of the float ball 40, and a valve cushion 21 is installed at an upper side of the hole.

1 and 2, the cover 30 is provided at one end of the body 10, that is, a portion bent at a right angle to the upper portion of the body 10, the interior of the body 10 The central portion protrudes upward to discharge the air introduced into the outside, and a through hole 31 is formed, and a valve seat 32 is formed at a lower end of the through hole 31. At this time, the cover 30 is installed to cover one end of the body (opposite side of the tube and the portion penetrated), the O-ring (not shown) in the area where the cover 30 and the body 10 are in contact with each other ) Is further installed and connected by fastening members such as bolts.

Here, the cover 30 is formed in the form of a "ㅗ" in the cross section so that the through-hole 31 in the central portion protrudes upwards, the valve seat 32 is the upper side of the float ball 40 sliding upwards, the contact, It is formed of elastic material so that gap does not occur.

In addition, a drain box 90 is installed at an upper side of the cover 30 to receive and temporarily store some of the water discharged through the cover 60, and the temporarily stored water is externally disposed at a lower surface of the drain box 90. An outlet 91 is formed to transfer to the position specified in the, the outlet 91 is connected through the pipe and the discharge pipe to which water is transferred.

1 and 2, the float ball 40 is formed inside the float guide stage 20, the upper side of the cover 30 to open and close the through hole 31 of the cover 30 In contact with the valve seat 32, the internal pressure of the body 10 flows through the bushing hole 22 of the float guide table 20, and the float ball 40 is moved upward.

Here, the float ball 40 is further provided with an air injection valve 41 on the upper side to inject a high-pressure gas, such as air and nitrogen gas inside the hollow ball is closed inside.

1 and 2, the guide rod 50 is formed through the central portion of the float ball 40, the upper side of the guide rod 50 is coupled to one end surface of the float ball sliding guide, The lower side is supported through the hole formed in the center of the lower end surface of the float guide stage 20.

As such, the guide rod 50 serves to guide the float ball 40 to slide up and down at the internal position of the float guide stand 20 without leaving the correct position when sliding up and down.

1 and 2, the cover 60 is installed by a plurality of shafts 61 on the upper portion of the cover 30, the cover 60 is formed in the form of "tt" in cross-section to the The outer circumferential surface is formed of the screen net 62 to discharge the air discharged to the through hole 31 of the cover 30 to the outside.

Here, the upper inner surface of the cover 60 is formed to be curved so that the air or water discharged through the through hole of the cover 30 is easily discharged to the outside, in the present invention, the "3" form representing a seagull in general, the horizontal form It is a form similar to that formed by

And, the shaft 61 of the cover 60 is further provided with a spring 63, the spring 63 is supported on the upper inner surface of the upper side of the cover 60, the lower side of the float ball sliding guide ( It is supported by the upper side of 70) and always presses down the float ball sliding guide stage 70 by the elastic force. This prevents the float ball 40 from sliding upward in the flow of air to be transported, and thereby the air in the pipe is smoothly discharged to the outside through the air valve 100.

However, when a pressure stronger than the elastic force of the spring 63 is generated, the float ball 40 is slid upward to block the through hole 31 of the cover 30. This prevents water from being discharged to the outside at high pressures.

In addition, as shown in Figure 3, the float ball sliding guide 70 is moved to the lower side by the elastic force of the spring 63, when the flow rate of the flow rate in the pipe is fast, the pressure is lower than the atmospheric pressure Inflow of air from the outside through the screen net 62 of the cover 60 may be smooth.

That is, as the outside air flows into the air valve 100 through the screen net 62 of the cover 60, the float ball 40 is slid downward, and when the pressure in the pipe is normalized, the air in the pipe is returned to the outside. This is how it is discharged.

The float ball sliding guide 70 is provided in the through hole 31 of the cover 30, as shown in Figs. 1 and 2, one end (center portion) is the guide rod 50 of the float ball 40 ) Is fixedly installed and a plurality of communication holes 71 are formed so that air or water transferred through the through hole 31 of the cover 30 passes, and when the float ball 40 slides upward by pressure, The same is transferred upward to block the air or water discharged through the outer peripheral surface of the cover (60).

Here, the float ball sliding guide 70 is formed in a cross-section "U" shape when the upper side is bent in the outward direction and transported to the lower side, the hook 30 is no longer caught on the upper side of the protruding through hole 31 of the cover It is not transported to the lower side, the bent portion is formed to protrude out of the through hole 31 is connected to the shaft 61 of the cover (60).

As shown in Figure 4, the air bleed valve 80 is installed through one end of the outer circumferential surface of the body 10 of the liquid fluid flowing inside the tube by discharging the air introduced into the body 10 Make the flow run smoothly.

Here, the air bleed valve 80 is formed in the inner chamber 81 which is a space portion communicating with the cover of the valve as shown in Figure 4, the upper side of the inner chamber is formed with an air distribution hole 82 communicated to the outside Rotating bar 84 is hinged in close proximity to the air distribution hole, and the other end of the rotating bar is attached to the fittings (83).

In addition, the air distribution hole 82 protrudes a predetermined length in the inner chamber direction, the sealing bar 85 is attached to the rotation bar 84 in contact with the air distribution hole to improve the watertightness by the rotation.

10: body 20: float guide stand
30 cover 40 float ball
50: guide rod 60: cover
70: float ball sliding guide 80: air bleed valve
90: drain box 100: air valve

Claims (4)

A through hole 12 and a flange 11 formed at one end thereof so as to be penetrated to the pipe, and a body 10 having an upper portion hollow and formed in a “U” shape in cross section;
Float guide stand 20 is fixed to the inner end of the body 10, taking the form of a "U" in the cross-section is one end is hollow, the bushing hole 22 is formed so that the pressure in the tube flows into the lower side and ;
It is formed in the hollow upper side of the body 10 to project the upper portion in the center to discharge the air introduced into the inside of the body 10 to the outside, the through hole 31 is formed, the lower end of the through hole 31 A cover 30 in which the valve seat 32 is formed;
The float is formed inside the float guide stand 20 and slides upward by the pressure introduced through the bushing hole 22 of the float guide stand 20 to open and close the through hole 31 of the cover 30. Ball 40;
A guide rod 50 is formed through the central portion of the float ball 40, the lower side is formed through the central portion of the float guide base 20 to support the float ball 40 to slide up and down at the correct position. and;
It is fixed to the upper side of the cover 30 by a plurality of shafts 61, the upper inner surface is curved in order to easily discharge the air or water discharged to the through hole 31 of the cover 30 to the outside A cover 60 formed to be fork;
A communication hole 71 is formed in the through hole 31 of the cover 30 so that air or water penetrates at one end thereof, and an upper side of the guide rod 50 is connected to a central end thereof at one end of the float ball 40. When sliding upwards by the pressure, the same is transported upwards to block the air or water discharged through the cover 60, the upper portion is formed to protrude out of the through hole 31, the shaft 61 of the cover 60 Float ball sliding guide 70 connected to the);
Air valve for a discharge valve, characterized in that comprises a.
The method of claim 1,
The float ball 40 is an air valve for a discharge valve, characterized in that the air injection valve 41 is further installed on the upper side to inject a high-pressure gas inside the hollow state is sealed inside.
The method of claim 1,
A drain box 90 is installed on the upper side of the cover 30 to receive and temporarily store some of the water discharged through the cover 60, and a temporarily stored water is externally designated on the bottom surface of the drain box 90. Air valve for a discharge valve, characterized in that the outlet 91 is formed to transfer to the position.
The method of claim 1,
Air shaft for a discharge valve, characterized in that the spring (63) is further installed on the shaft (61) for fixing the cover (60) to always press the float ball sliding guide (70) downward.

Images