KR20200000694U - Plug control valve for vacuum operation and vacuum inspection - Google Patents

Abstract

The present invention relates to a control valve, and more particularly, to a control valve for making or inspecting the internal vacuum and specific pressure conditions of various equipment. Control valve according to an embodiment of the present invention, the lower body 11; An upper body 14 connected to the lower body; A spring 13 between the lower body 11 and the upper body 14; And a valve spindle 12. The control valve of the present invention is easier to use than the existing method for vacuum operation or vacuum inspection of the submarine lifeguard container, and can control the inflow and out of air, and has the effect of improving convenience, efficiency, and reliability because it does not require expert assistance.

Description

Plug control valve for vacuum operation and vacuum inspection}

The present invention relates to a valve for the operation and inspection of vacuum or pressure of devices requiring vacuum or constant pressure in a laboratory, factory, hull, etc., more specifically, to prevent air leakage during vacuum operation and vacuum inspection of a submarine life preserver. Used for purposes.

When vacuuming or inspecting a submarine lifeguard container, the existing method is to manually remove the valve and fill the blocking bolt by hand rather than to control the air in and out, and this method allows air to flow into the submarine lifeguard container during the process. It has a drawback that it is difficult to maintain a constant pressure.

In addition, among the existing check valves, the valve used when injecting air into the bicycle wheel is opened when the pump is pumped to the bicycle, and the valve opens due to the air pressure, and when the pump is not pumped, there is no pressure. It has the characteristic that the air does not escape because it is closed. However, the opening and closing of this valve is controlled by the pressure of the injected air, and has a disadvantage that it is difficult to make a pressure lower than the pressure of the current wheel outside.

Due to the above problems, there is no need for air outflow during the valve desorption process, and there is a need for a technique that can be adjusted even in a low pressure direction.

On the other hand, Korean Patent Registration No. 10-1553354 (announced on September 15, 2015) is a device that automatically maintains the vacuum in the vacuum chamber through the continuous use of the vacuum pump. In the Republic of Korea Patent Publication No. 10-2000-0021725 (published on April 25, 2000) is provided with opening and closing means using air, but is not disclosed as to how to control the access of air.

That is, it can be seen that, among the existing technical contents, there is no prior art to maintain the vacuum state in the valve desorption process while the pressure can be adjusted low for vacuum work or vacuum inspection.

The present invention is intended to solve a phenomenon in which an internal vacuum degree is weakened due to an air leakage phenomenon that occurs in the process of combining a valve detachment and a closing bolt after a vacuum operation or a vacuum inspection is completed on a work object or an inspection object.

In addition, it is an object to provide a device that can be easily vacuumed or vacuumed even if you are not skilled.

One side of the present invention is to maintain a vacuum when not vacuuming or vacuuming, the control valve is one end of the lower body 11 is connected to the upper body 14, the valve spindle 12 between the connection ), The spring 13 is assembled, and the spindle hole 12-1 and the upper body hole 14-1 are not placed in a straight line unless the valve spindle 12 receives external force from the bottom, so It is characterized in that the air does not go in and out of the control valve.

In another aspect of the present invention, when the control valve is used for vacuum work and vacuum inspection, the valve spindle 12 of the control valve receives external force from the bottom, and the spindle hole 12-1 and the upper body hole 14- 1) is placed on a straight line, it is characterized in that the air can go in and out of the control valve.

Here, the vacuum hole 16 is passed from the outside of the work object or inspection object to the inside, is fixed to the work object or inspection object using a fixing nut 15, the control valve is the center of the vacuum hole 16 It may be characterized in that it is fitted to the work object or fixed to the inspection object.

At this time, as a device for adjusting the external force, it is possible to add a push rod 17 that can control the entry and exit of air.

In addition, maintaining the vacuum state is to prevent the entry and exit of the air, so it can be used to maintain the pressure of the work object or the inspection object and to use it for pressure work or pressure inspection.

According to the present invention, in the process of removing the push rod 17 immediately after the vacuum operation or vacuum inspection, the spindle hole 12-1 and the upper body hole 14-1 do not form a straight line, and thus the air inflow and out are blocked, thereby easily evacuating the vacuum state. It has the advantage of being able to maintain. Therefore, vacuum work and vacuum inspection are easy to use even for a beginner, thereby improving the convenience, efficiency and reliability of maintenance. In addition, there is an advantage in that it is possible to check whether the vacuum state is maintained from time to time.

1 is an assembly diagram including a vacuum plug control valve, a fixed valve and a vacuum hole of the present invention.
Figure 2 is an assembly diagram showing the control valve of Figure 1 in detail.
Figure 3 is a view assembling the control valve shown in Figure 2 above.
4 is a view showing the control valve and the fixed valve, vacuum hole and push rod shown in FIG.
5 is an internal cross-sectional view showing when air flows into and out of a control valve attached to a life belt of the present invention.
Figure 6 is an internal cross-sectional view showing when the air does not pass to the inside and outside of the control valve attached to the life belt of the present invention.
7 is a view showing a bolt coupling process for 3way valve removal and blocking in the prior art.
8 is a view of the push rod and 3way valve of the present invention is attached.
9 is a view showing a vacuum operation or vacuum inspection of the present invention.

Since the vacuum maintenance proposed in the present invention means maintaining the pressure near 0.01 Mpa, it can be easily understood by a person skilled in the art that it can be used at a constant pressure in addition to maintaining the vacuum. Therefore, it will be said that the scope of the invention, which will be described below, is not limited only by maintaining the vacuum.

The vacuum work proposed in the present invention means a work to make the inside of the work object into a vacuum, and the vacuum test means to check whether the inside of the test object is maintained in a vacuum state.

Hereinafter, the present invention will be described in detail.

First, with reference to the configuration of the present invention, as shown in FIG. 2, the control valve has an engaging portion to which the upper and lower ends are respectively coupled, and the lower body 11 is empty and the lower body 11 is centered. The upper body 14, which is connected to one end of the cylinder and is perpendicular to its cylindrical axis, has a perforated upper body 14, a spring 13 between the lower body 11 and the upper body 14 and the It is located in the empty portion of the center of the lower body 11, and includes a valve spindle 12 through which a spindle hole 12-1 perpendicular to its cylindrical axis is drilled.

The lower end of the lower body 11 may be fixed by being attached to a surface of a work object or a test object or other devices connected to the surface.

The spring 13 can be contracted in the original length under external pressure.

FIG. 3 is a view after the components of FIG. 2 are assembled. The valve spindle 12, the spring 13, and the upper body 14 are sequentially positioned on the lower body 11 to connect the lower body 11 and the upper body 14.

Normally, the spindle hole 12-1 and the upper body hole 14-1 are not in a straight line so that air cannot flow in and out, thereby maintaining a vacuum or pressure, but the valve spindle 12 receives external force from the bottom. When the spring is contracted, the spindle hole (12-1) and the upper body hole (14-1) are placed in a straight line, and air can flow freely into and out of the upper body hole (14-1). It is easy to do.

Therefore, when the lower body 11 is attached to the work object or the inspection object, the opening and closing of the air hole can be operated through an external force applied to the lower part of the valve spindle 12.

According to Figures 1 and 4 may be characterized in that it further comprises a hollow vacuum hole 16 and the fixing nut 15 to be inserted into the hole of the work object or inspection object.

In addition, a push rod protrusion may be inserted into the vacuum hole through the push rod 17 at the lower portion of the empty vacuum hole 16.

5 and 6 shows a state in which the control valve according to an embodiment of the present invention is attached to the work object or the inspection object.

As a method of attaching the lower end of the lower body 11 to the work object or inspection object, a vacuum hole 16 and a fixing nut 15 may be used. The vacuum hole 16 is inserted into the work object or inspection object from the outside to the inside and fixed to the work object or inspection object using the fixing nut 15, and then the lower body 11 is attached to the vacuum hole 16. I can do it.

The protruding portion of the push rod 17, which can give an external force to the lower part of the valve spindle 12, can be inserted into the vacuum hole 16, and the pressure is applied to the push rod 17 in the direction of the spring 13 The compression of the spring in the regulating valve can be adjusted.

Referring to FIG. 5, in the process of inserting the push rod 17 into the vacuum hole 16, the push rod 17 pushes the lower end of the valve spindle 12 inside the vacuum hole 16 to spring ( 13) When the spindle hole (12-1) and the upper body hole (14-1) are placed in a straight line by being compressed, a vacuum can be created by discharging the air inside the work object or the inspection object, and maintaining the vacuum state. Whether or not inspection is also possible.

In FIG. 6, in the process of removing the push rod 17 from the vacuum hole 16 after the vacuum operation or the vacuum inspection is finished, the valve spindle 12 descends as the length of the spring 13 returns to its original position, and the spindle hole 12 -1) and the upper body hole (14-1) are not placed in a straight line, so that the outflow of air is blocked and the vacuum is maintained.

FIG. 7 is a view showing a working process using a 3way valve 18 and a blocking bolt in the prior art. Referring to this, when performing a vacuum operation or a vacuum inspection, the 3way valve, which is the conventional method shown in FIG. As the bolting process for removal and blocking of 18) disappears, reliability can be secured and vacuum can be maintained easily and efficiently.

In addition, since the pressure measurement up to now has been made through the above-described desorption and fastening process, there is a possibility that air may flow in and out whenever it is checked whether or not the vacuum is maintained. .

The scope of the present invention is not to be interpreted as being limited to the examples and drawings presented above, and those skilled in the art will devise the present invention without departing from the technical spirit and scope of the present invention described in the above claims. It will be understood that various modifications and changes can be made.

<Example>

An embodiment of the present invention is a case where the control valve is applied to the operation and inspection of the inside of the submarine lifeguard in a vacuum. In FIG. 8, the protrusion of the push rod 17 passes through the interior of the vacuum hole 16, and the opposite side of the push rod. The stage is a practical application example connected with vacuuming or vacuum inspection tools, and FIG. 9 is a view of a submarine lifesaving container applied by combining a 3way valve 18 and the push rod 17 according to an embodiment of the present invention to be.

In the container, the designed control valve is fixed with a fixing nut and a vacuum hole, and when performing vacuum or vacuum inspection on the container, by attaching a 3-way valve to the push rod and connecting the push rod to the control valve, air is released. Vacuum work or vacuum inspection can be performed without leaking inside.

11: Lower body
12: valve spindle
12-1: Valve spindle hole
13: spring
14: upper body
14-1: Upper body hole
15: fixing nut
16: vacuum hole
17: push rod
18: 3-way valve
19: submarine lifeguard
20: pressure gauge

Claims (4)

The upper and the lower body 11, the center of which has an engaging portion that can be coupled to each other;
An upper body 14 that can be connected to one end of the lower body 11 and has an upper body hole 14-1 perpendicular to its cylindrical axis; And
Control valve, characterized in that it is possible to control the outflow of air, including a spring (13) between the lower body (11) and the upper body (14).
According to claim 1,
Control valve, characterized in that it further comprises a valve spindle (12) having a spindle hole (12-1) perpendicular to the cylinder shaft while being located in an empty part of the center of the lower body (11).
The method according to claim 1 or 2,
A hollow vacuum hole 16 that can be inserted into the hole of the work object or the inspection object; And a fixing nut (15).
According to claim 3,
The control valve further comprises a push rod (17) capable of passing through the vacuum hole (16).

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