KR101307043B1 - Air vent valve - Google Patents

Abstract

An air discharge valve is disclosed. The air discharge valve according to the present invention communicates or not communicates the inflow passage communicating with the conduit and the exhaust passage communicating with the outside while the float is automatically lifted and lifted by the liquid flowing through the conduit. In addition, by manually operating the control lever to float the float can be in communication with the inlet and outlet. Therefore, since the air discharge valve can be easily switched to the manual type or the automatic type, the cost can be reduced.

Description

Air Vent Valve {AIR VENT VALVE}

The present invention relates to an air discharge valve capable of automatically or manually discharging air in a pipeline.

An air discharge valve is a device for discharging unnecessary air in a pipe, and an air discharge valve is classified into a manual type which discharges air manually and an automatic type which discharges air automatically.

The manual air discharge valve discharges air by manually operating a stopper that opens and closes the pipeline, and the automatic air discharge valve installs a float that rises by liquid in the pipeline and automatically opens and closes the pipeline by lifting the float. Discharge.

The conventional air discharge valve as described above cannot be used by switching the manual type to the automatic type, and cannot be used by switching the automatic type to the manual type. Therefore, when the air discharge valve is to be used in the manual type and the automatic type, since both the manual type and the automatic type air discharge valves must be installed, the cost increases.

The present invention has been made in order to solve the problems of the prior art as described above, the object of the present invention is to provide an air discharge valve that can be configured to be easily converted to the manual or automatic type, to reduce the cost .

Air discharge valve according to the present invention to achieve the above object, the lower portion is coupled to the conduit (pipe), the lower body is formed in the inlet passage in communication with the conduit and the lower side; A lower portion is coupled to an upper portion of the lower body, and an upper passage is formed in the upper passage and a lower passage in communication with the upper passage, and an upper body having a discharge passage communicating with the upper side of the passage. ; It is installed in the portion of the inflow passage and the communication path communicated with each other and installed to be elevated, the communication path and the non-communication between the inflow path and the discharge path while lifting by the liquid introduced into the inflow path through the conduit A float to allow air of a conduit to be discharged through the discharge path; And a control lever coupled to the upper portion of the upper body to lift and lower the float.

The air discharge valve according to the present invention communicates or not communicates the inflow passage communicating with the conduit and the exhaust passage communicating with the outside while the float is automatically lifted and lifted by the liquid flowing through the conduit. In addition, by manually operating the control lever to float the float can be in communication with the inlet and outlet. Therefore, since the air discharge valve can be easily switched to the manual type or the automatic type, the cost can be reduced.

1 is a cross-sectional view of an air discharge valve according to an embodiment of the present invention.
2 is a cross-sectional view showing a state in which the air discharge valve shown in Figure 1 is automatically opened by the liquid.
3 is a cross-sectional view showing a state in which the air discharge valve shown in FIG. 1 is manually opened.
Figure 4 shows an example of the air discharge valve shown in Figure 1 applied to the pumping system.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that illustrate specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are mutually exclusive, but need not be mutually exclusive. For example, certain features, specific structures, and features described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. The length, area, thickness, and shape of the embodiments shown in the drawings may be exaggerated for convenience.

Hereinafter, an air discharge valve according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of an air discharge valve according to an embodiment of the present invention.

As shown, the air discharge valve according to the present embodiment includes a body 110 having a lower body 120 and an upper body 130 coupled to each other.

The outer surface of the lower portion of the lower body 120 is sealed to the conduit 50, and an inflow passage 121 is formed therein. At this time, the lower side of the inflow passage 121 is in communication with the conduit 50, the liquid flowing through the conduit 50 is introduced through the inflow passage 121.

The lower portion of the upper body 130 is coupled to the upper portion of the lower body 120, the communication passage 131 is formed inside, the discharge passage 133 is formed on the side. The lower side of the communication passage 131 communicates with the upper side of the inflow passage 121, and the discharge passage 133 communicates with the outside while communicating with the upper side of the communication passage 131.

In the interior of the upper side of the inflow passage 121 and the lower side of the communication passage 131 communicated with each other, a float 140 is built in and installed to be elevated. The float 140 communicates with or does not communicate with the inflow passage 121 and the discharge passage 133 while being lifted by the liquid introduced into the inflow passage 121 through the conduit 50.

When the inflow passage 121 and the discharge passage 133 communicate with each other by the float 140, the air of the conduit 50 is discharged to the outside through the discharge passage 133, and the inflow passage 121 is opened by the float 140. ) And the discharge passage 133 are not in communication, the air of the conduit 50 is not discharged to the outside through the discharge passage 133. Thus, the float 140 allows the air of the conduit 50 to be discharged through the discharge path 133.

The upper side of the upper body 130, the control lever 150 is installed to be elevated, the control lever 150, as the forward and reverse rotation, based on the upper body 130, the lifting. The adjustment lever 150 forcibly lowers the float 140.

The outer surface of the control lever 150 is provided with a ring-shaped sealing member 160 for sealing between the control lever 150 and the upper body 130. In order to firmly install the sealing member 160, the ring-shaped inner passage 152 is formed on the outer surface of the control lever 150 is inserted into the sealing member 160.

The float 140 selectively contacts the upper inner circumferential surface of the inflow passage 121 or the lower inner circumferential surface of the communication passage 131 which communicates with each other, thereby making the inflow passage 121 and the discharge passage 133 non-communicating.

To this end, the upper inner circumferential surface of the inflow passage 121 in which the float 140 is located is formed to be inclined in a form that the diameter gradually decreases toward the lower side, and as the float 140 is elevated, the outer surface of the float 140 is an inflow passage. Contact or non-contact with the inner surface of the upper side of 121. If the outer surface of the float 140 is in contact with the inner surface of the upper side of the inflow passage 121, the inflow passage 121 and the discharge passage 133 is non-communicating, and if the outer surface of the float 140 does not contact the inner surface of the lower side of the inflow passage 121 121 and the discharge passage 133 is in communication.

In addition, the lower inner circumferential surface of the communication path 131 on which the float 140 is located is formed to be inclined in a form of decreasing diameter toward the upper side, and as the float 140 moves up, the outer surface of the float 140 is connected to the communication path ( 131 contact or non-contact with the inner surface of the lower side. If the outer surface of the float 140 is in contact with the inner surface of the lower side of the communication path 131, the inflow path 121 and the discharge path 133 is non-communication, and if the outer surface of the float 140 is not in contact with the inner surface of the lower side of the communication path 131 121 and the discharge passage 133 is in communication.

An operation of the air discharge valve according to the present embodiment will be described with reference to FIGS. 1 to 3. FIG. 2 is a cross-sectional view showing a state in which the air discharge valve shown in FIG. 1 is automatically opened by a liquid, and FIG. 3 is a cross-sectional view showing a state in which the air discharge valve shown in FIG. 1 is manually opened.

As shown in FIG. 1, it is assumed that the outer surface of the float 140 is in contact with the inner surface of the upper side of the inflow passage 121 such that the inflow passage 121 and the discharge passage 133 are not in communication. . In the initial state, when the liquid flowing in the conduit 50 flows into the inflow path 121 and ascends the float 140 as shown in FIG. 2, the outer surface of the float 140 is the inflow path 121. In contact with the inner surface and the inner surface of the communication path 131. Then, since the inflow passage 121 and the discharge passage 133 communicate with each other, the air of the conduit 50 is discharged to the outside through the discharge passage 133.

That is, the float 140 automatically moves up and down by the liquid in the conduit 50 so as to communicate or not communicate the inflow path 121 and the discharge path 133.

When the float 140 rises and the outer surface of the float 140 contacts the inner surface of the communication path 131, the inflow path 121 and the discharge path 133 are not in communication with each other, so that air in the conduit 50 is increased. It cannot be discharged. In this state, when the air in the conduit 50 is to be discharged, as shown in FIG. 3, the control lever 150 is lowered, so that the outer surface of the float 140 is the inner surface and the inflow path of the communication path 131 ( The float 140 is lowered until it is in contact with the inner surface of the 121. Then, since the inflow passage 121 and the discharge passage 133 communicate with each other, the air of the conduit 50 is discharged to the outside through the discharge passage 133.

When the control lever 150 is manually rotated and lowered, the float 140 automatically descending by the liquid in the conduit 50 can be manually lowered to allow the inflow passage 121 and the discharge passage 133 to communicate with each other. .

FIG. 4 is a diagram illustrating an example in which the air discharge valve shown in FIG. 1 is applied to a pumping system.

As shown, the conduit 50 is located on the upper side of the storage tank 210, one side of the conduit 50 is located in the storage tank 210, the pump 220 is installed in the middle of the conduit 50 When the liquid in the storage tank 210 is pumped to the other side of the conduit 50, the inside of the conduit 50 is lower than atmospheric pressure.

At this time, after installing the air discharge valve according to the present embodiment in the conduit 50 between the storage tank 210 and the pump 220, the outer surface of the float 140 is adjusted to contact the inner surface of the inflow passage 121 When the lever 150 is lowered, outside air can be prevented from flowing into the conduit 50.

The drawings for the embodiments of the present invention described above are schematically illustrated so as to easily identify parts belonging to the technical idea of the present invention by omitting detailed outline lines. It should be noted that the above-described embodiments are not intended to limit the technical spirit of the present invention and are merely a reference for understanding the technical scope of the present invention.

120: lower body
130: upper body
140: float
150: control lever

Claims (6)

A lower body is coupled to a conduit (管路), the lower body is formed with an inflow passage in communication with the conduit and the lower side;
A lower portion is coupled to an upper portion of the lower body, and a communication passage in which the upper side and the lower side of the inflow passage communicate with each other is formed, and the side communicates with the upper side of the communication passage and at the same time discharges from the outside. An upper body formed with a furnace;
A float embedded in and lifted in a portion of the inflow path and the communication path communicated with each other;
A control lever coupled to the upper portion of the upper body to be lifted and lowered to force the float;
The float selectively contacts the upper inner circumferential surface of the inflow passage or the lower inner circumferential surface of the communication passage while being lifted by the liquid flowing into the inflow passage through the conduit to detach the inflow passage and the discharge passage. When it is in contact with the inner peripheral surface of the lower side of the communication path by the liquid introduced into the inflow path through the passage or by forcibly descending by the control lever characterized in that the inflow path and the communication path to communicate with each other. Air exhaust valve. delete The method of claim 1,
The upper inner circumferential surface of the inflow passage in which the float is located is formed to be inclined in a form that the diameter becomes smaller toward the lower side so that the outer surface of the float is in contact with or in contact with the upper inner surface of the inflow passage as the float is elevated. Air discharge valve characterized in that. The method of claim 3,
The lower inner circumferential surface of the communication path in which the float is located is formed to be inclined in the form of gradually decreasing diameter toward the upper side, so that the outer surface of the float is in contact with or not in contact with the lower inner surface of the communication path as the float is elevated. Air discharge valve characterized in that. The method of claim 1,
An air discharge valve, characterized in that a sealing member for sealing between the control lever and the upper body is installed on the outer surface of the control lever. The method of claim 5,
An air exhaust valve, characterized in that the inner surface of the control lever is formed with an inner passage in which the sealing member is inserted.

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