KR101572616B1 - Magnet type vent valve - Google Patents

Abstract

The present invention relates to a magnetic vent valve effectively controlling an inflow and an outflow of air. The magnetic vent valve is composed of an upper flange (110) and a lower flange (120). The lower flange comprises: a vent pipe (100) coupled to a pipe; a shaft (200); and a valve member (300) vertically moving along an outer circumferential surface of the shaft (200) and opening and closing an upper portion of the vent pipe (100). A handle (220) is formed in an upper end of the shaft (200), and a weight (210) is formed in the lower end. The valve member (300) comprises: an upper plate (310) of which the surface has a plurality of air inlets (311); an upper magnetic (320) positioned on the upper surface of the upper plate (310); and a lower plate (350) and a lower magnet (360); an electric wire (400); and a shaft guide (130) formed in the lower portion of the inside of the vent pipe (100).

Description

[0001] Magnet type vent valve [0002]

[0001] The present invention relates to a magnetic-type vent valve, and more particularly, to a vent valve for a magnetic-type vent valve, in which external air is introduced into the interior when electric power connected to the magnet is shut off, The present invention relates to a magnetic-type vent valve which can simplify the structure and can be easily maintained.

Air is included in the water flowing along the piping system in supplying water to a place requiring water, such as a heating and cooling system of a house or factory and a large building, or a wastewater treatment of a power plant.

On the other hand, if such air is not discharged, the flow of the water is interrupted, and if the pressure is concentrated on a part of the pipe, the pipe is ruptured.

In general large capacity piping, air is one of the main causes of defects and the efficiency is lowered. However, it has been removed by an arbitrary method only when there is a special inconvenience in operation of the power plant. , Causing a lot of trouble and corrosion of the piping.

Accordingly, air vents are widely used for discharging the air contained in the water to the outside, which is installed in a transfer pipe of a fluid such as water.

A conventional air vent is constructed such that a float that ascends and descends according to the water level of the water is installed in the body, and the float is configured to open and close the air outlet of the cover provided on the upper side of the body. The cap is manually opened and closed at the air outlet, and the user releases the air as the cap is manually opened and closed.

The air vent of such a manual operation type has to operate the air vent from time to time, so that not only troublesome but also external air may flow into the inside.

In addition, in the case of the above-described apparatus, devices necessary for mechanical, electrical, and control must be provided, which causes not only an excessive installation cost but also an excessive maintenance cost.

In addition, if an emergency situation occurs in which the power supply is unexpectedly interrupted, the air can not be smoothly removed, thereby causing damage to the pump and secondary ripple.

Registration Utility Model 20-0425999

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner and a control method thereof capable of effectively controlling the inflow and outflow of air according to the operation of the valve by supplying external air into the inside when electric power connected to the magnetic is interrupted, And to provide a magnetic type vent valve that is simple and easy to maintain.

According to an aspect of the present invention, there is provided a magnetic vent valve including an upper flange and an upper flange, the hollow flange having an open inside and being open, and the lower flange includes a vent pipe )and; A shaft 200 extending from the center of the vent pipe 100 to an upper portion of the upper flange 110 and a lower end extending to a lower portion of the lower flange 120; And a valve member 300 which is moved up and down along the outer circumferential surface of the shaft 200 and which is composed of an electromagnet and opens and closes the upper portion of the vent pipe 100 by supplying and blocking electric power, A handle 210 for manually lifting the shaft 200 is formed at the end and a weight 210 is formed at a lower end of the shaft 200. The valve member 300 contacts the upper end of the upper flange 110, An upper plate 310 which is fixed while penetrating the shaft 200 and has a plurality of air inlet holes 311 formed on the upper surface thereof and an upper plate 310 which is located on the upper surface of the upper plate 310, The magnet 320 and the air inlet and outlet hole 311 are positioned on the lower surface of the upper plate 310 and the lower plate 350 and the lower plate 350, which move along the shaft 200, And is moved along the shaft 200 to be supplied with electric power A lower magnetic 360 having a magnetic force and an electric wire 400 connected to an upper magnet 320 or a lower magnet 360 to supply electric power and a shaft 200 is provided at an inner lower portion of the vent pipe 100 And a shaft guide 130 for supporting and supporting the shaft guide 130 is formed.

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According to the magnetic vent valve of the present invention, when electric power is interrupted by using the magnetic force of the electromagnet, external air is introduced into the interior, and when the electric power is supplied, air is shut off to effectively control the inflow and outflow of air according to the operation of the valve There are advantages to be able to.

Further, since the lower plate is moved up and down according to whether the electromagnet is operated, the inflow of air is blocked, which simplifies the structure and facilitates maintenance.

In addition, it is possible to compensate for the disadvantages of the conventional electric motorized valve, thereby enabling stable operation of the plant.

1 is a cross-sectional view showing a state of a magnetic force type vent valve according to the present invention.
2 is a cross-sectional view showing a state in which the valve is opened when the pump of the sea water discharge pipe is stopped.
FIG. 3 is a cross-sectional view illustrating the valve body opened when the pump is operated in FIG. 2. FIG.
FIG. 4 is a sectional view showing the valve closed during pump operation in FIG.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1, the magnetic type vent valve of the present invention includes a vent pipe 100 coupled to one side of a sea water discharge pipe, a shaft 200 vertically passing through the center of the vent pipe 100, And a valve member (300) for opening and closing the valve body (100).

The vent pipe 100 is composed of an upper flange 110 having a large inside diameter and a lower flange 120 having a small diameter and the lower flange is coupled to a seawater discharge pipe.

The shaft 200 extends from the center of the vent pipe 100 to the upper portion of the upper flange 110 and the lower end of the shaft 200 to the lower portion of the lower flange 120 in a cylindrical shape. A weight 210 is mounted on the lower end of the shaft 200 to limit the upward movement of the shaft 200 and a handle 220 is provided on the upper end to manually lift the shaft 200. At this time, it is preferable that a shaft guide 130 for supporting and supporting the shaft 200 is formed on the inner lower portion of the vent pipe 100. The shaft guide 130 may support the upper portion of the weight 210 to prevent the shaft guide 130 from further rising when the valve member 300 described later is lifted by the air pressure of the seawater discharge pipe.

The valve member 300 is vertically moved along the outer circumferential surface of the shaft 200 and is formed of an electromagnet to open and close the upper portion of the vent pipe 100 by supplying and blocking power.

Specifically, the valve member 300 covers the upper flange 110 while being in contact with the upper end of the upper flange 110, and is fixed while passing through the shaft 200. A plurality of air inlet holes 311 An upper magnetic plate 320 disposed on an upper surface of the upper plate 310 and an air inlet and hole 311 located on a lower surface of the upper plate 310, A lower plate 350 moving along the shaft 200 and a lower magnet 360 positioned on the lower surface of the lower plate 350 and moving along the shaft 200. The electric wire 400 is electrically connected to the upper magnet 320 or the lower magnet 360 to supply electric power. The upper magnet 320 is positioned in the upper cover 330 through which the shaft 200 penetrates and the lower magnet 360 is fixed to the lower plate 350. The lower magnet 350 is fixed to the lower plate 350, Is positioned within the penetrating lower cover (370). It is also preferable that the upper magnet 320 is an electromagnet and the lower magnet 360 is a magnet. When the magnetic force is generated in the magnetic force, the lower plate 350 is brought into close contact with the lower surface of the upper plate 310 to block the air inlet / outlet hole 311, And the lower magnet 360 moves downward along the shaft 200 by the weight of the lower magnet 360 to open the air inlet / outlet hole 311.

Hereinafter, the operation of the magnetic vent valve of the present invention will be described.

As shown in FIG. 2, when the pump installed in the seawater discharge pipe is stopped, the power is interrupted, and the magnetic properties of the upper magnet 320 or the lower magnet 360 are lost. That is, when both the upper and lower magnets 320 and 360 are electromagnets, when the power is interrupted, all of the magnetism is lost. Even when the upper magnet 320 is an electromagnet and the lower magnet 360 is a permanent magnet, Only the magnetic force by the magnet is applied.

The lower plate 350 and the lower magnet 360 are lowered into the vent pipe 100 along the shaft 200 by the pressure generated by the siphon phenomenon generated in the seawater discharge pipe, The access hole 311 is opened. Even when the lower magnet 360 is a permanent magnet, the lower plate 350 is lowered when the pressure due to the siphon development is larger than the magnetic force of the permanent magnet.

When the air inlet / outlet hole 311 is opened, the outside air flows into the seawater discharge pipe through the vent pipe 100 to remove the siphon phenomenon. At this time, the lower magnet 360 is caught by the upper end of the shaft guide 130 and can be prevented from descending further.

3, when power is supplied to the upper magnet 320 or the lower magnet 360 when the pump is operated, the lower plate 350 is lifted along the shaft 200 by the magnetic force, When the air pressure of the seawater discharge pipe is high, the upper plate 310 and the lower plate 350 are further raised to the upper portion of the vent pipe 100, and air in the sea water discharge pipe And is discharged through the upper portion of the vent pipe (100). At this time, the weight 210 formed at the lower end of the shaft 200 is caught by the lower end of the shaft guide 130, so that the plate can be prevented from rising beyond a certain level.

4, when the air pressure of the seawater discharge pipe is lower than the weight of the weight 210 positioned at the lower end of the shaft 200, the upper plate 310 is lowered and is brought into close contact with the upper flange 110 do. At this time, since the lower plate 350 is in close contact with the upper plate 310 by the magnetic force, the air inlet / outlet hole 311 of the upper plate 310 is blocked by the lower plate 350, .

Therefore, if the vent valve is formed by the magnetic force as described above, the structure is simplified compared to the conventional complicated vent valve, thereby reducing the installation cost and the maintenance cost remarkably, It is possible to operate it.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. You will know. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: vent pipe 110: upper flange
120: Lower flange 130: Shaft guide
200: shaft 210: weight
220: Handle
300: valve member 310: upper plate
311: air inlet hole 320: upper magnetic
330: upper cover 350: lower plate
360: lower magnetic 370: lower cover
400: Wires

Claims (5)

A vent pipe 100 which is hollow and has an open upper flange 110 and a lower flange 120, the lower flange being coupled to the pipe;
A shaft 200 extending from the center of the vent pipe 100 to an upper portion of the upper flange 110 and a lower end extending to a lower portion of the lower flange 120;
And a valve member (300) which is moved up and down along an outer circumferential surface of the shaft (200) and which is composed of an electromagnet and opens and closes an upper portion of the vent pipe (100)
A handle 220 for manually lifting the shaft 200 is formed at an upper end of the shaft 200, a weight 210 is formed at a lower end thereof,
The valve member 300 includes an upper plate 310 covering the upper end of the upper flange 110 and covering the shaft 200 while passing through the shaft 200 and having a plurality of air inlet holes 311 formed therein, An upper magnet 320 which is positioned on the upper surface of the upper plate 310 and has a magnetic force when power is supplied thereto and an air inlet hole 311 located on the lower surface of the upper plate 310, A lower magnet 360 positioned on the lower surface of the lower plate 350 and a lower magnet 350 moving along the shaft 200 and having a magnetic force when power is supplied thereto, The magnet 360 includes a wire 400 connected to supply power,
And a shaft guide (130) for supporting and supporting the shaft (200) is formed in an inner lower portion of the vent pipe (100). delete delete delete delete

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