KR200303584Y1 - Ball valve - Google Patents

Abstract

The present invention relates to a fluid control ball valve to maintain the function as a valve for controlling the fluid flow rate of viscous fluid such as water or oil for a long time. The present invention maintains the function as a valve for a long time by installing a hole-deformation hole having an elliptical through hole for changing the hole shape of the hole in the hole for opening and closing the flow path.

Description

Ball Valve for Fluid Control {BALL VALVE}

The present invention relates to a ball valve for controlling the fluid flow rate of viscous fluid, such as water or oil, in particular, by installing a hole deforming hole for changing the hole shape of the hole in the flow control hole formed in the opening and closing ball as a valve A fluid control ball valve is provided to maintain a function for a long time.

Generally, a valve is a device installed in the middle of a pipeline, a container, or the like to adjust a flow rate or pressure of a fluid. A ball valve is a type of such a valve, and the ball valve is to control the flow rate of the fluid of the viscous fluid such as water or oil through the opening and closing ball installed in the valve body.

That is, one example of the conventional ball valve (1) is a flow path opening and closing ball (end) of the end of the operating shaft (5) acting as the opening and closing handle (3) installed in the inner center of the valve body (7) ( By being axially coupled to the shaft coupling groove 11 formed in the upper center of the 9, the left and right body connection ports of the valve body 7 in accordance with the operation of the ball (9) in accordance with the operation of the opening and closing handle (3) 13, 15 is a coupling structure to adjust the flow rate of the fluid. That is, the oil hole 17 penetrating the ball 9 according to the operation of the opening and closing handle 3 is opposed to the tubular connectors 13 and 15 due to the horizontal rotation of the ball 9. By forming a flow path to control the flow of the fluid. Reference numeral 20 denotes a teflon ring for providing watertightness to the ball 9.

However, since the holes of the holes 17 in the ball 9 are circular as shown in Figs. 2 and 3, on the one hand, these holes 17 correspond to the circular pipe fittings 13 and 15. It was possible to form a flow path A having a narrow area, that is, a short length and a wide width (the hatched portion in the drawing closed the hole 17 and the pipe fittings 13 and 15 where the flow path was not formed). This flow path (A), such as a conventional nozzle flows the fluid quickly, through which the arc-shaped spaces formed between the upper sphere of the ball 9 and the inner surface of the valve body 7 when combined Fine foreign matter such as sludge contained in the fluid penetrates and accumulates in (21), resulting in a problem that the ball valve 1 deteriorates as a valve. I can't.

Therefore, the present invention was devised to solve such a problem, and an object of the present invention is to provide a function of a valve by installing a hole modifying hole for changing the hole shape of the hole in the flow control hole formed in the opening and closing ball. It is to provide a fluid control ball valve for long term maintenance.

1 is a longitudinal cross-sectional view showing an example of a conventional ball valve,

2 is a front view showing a flow path opening and closing ball in a conventional ball valve,

3 is an explanatory view showing an example of a flow path shape formed by opposing a hole and a pipe connecting port of a ball in a conventional ball valve;

Figure 4 is a longitudinal cross-sectional view showing a fluid valve ball control according to the present invention,

Figure 5 is a perspective view showing a hole deformation sphere in the ball valve for fluid control according to the present invention,

Fig. 6 is a side view showing the hole deformation sphere in Fig. 5, and

FIG. 7 is an explanatory view showing an example of a flow path shape formed by opposing a hole deformer provided in a hole of a ball and a pipe connecting part in a ball valve for controlling a fluid according to the present invention; FIG.

<Description of the symbols for the main parts of the drawings>

100: ball valve 103 according to the present invention: opening and closing handle

105: operating shaft 107: valve body

109: flow opening and closing ball 111: pipe connection port

113: hole 115: teflon ring

117: arc space 200: hole deformation sphere

201: through-hole

In order to achieve the above object, the flow control ball valve according to the present invention has an operating shaft acting as an opening / closing handle, which is axially coupled to a flow opening / closing ball installed in the center of the valve body, thereby allowing the operation of the ball by the opening / closing handle. A ball valve for adjusting fluid flow rate to right and left pipe fittings, characterized in that a hole-deformation hole having an elliptical through hole for changing the hole shape of the hole is provided inside the flow adjusting hole formed in the ball. It is done.

These and other features will be apparent from the following description with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Figure 4 is a longitudinal cross-sectional view showing a fluid control ball valve according to the present invention, Figure 5 is a perspective view showing a hole deformation sphere in the fluid control ball valve according to the present invention, Figure 6 shows a hole deformation sphere in Figure 5 Side view, and Figure 7 is an explanatory view showing an example of the flow path shape formed by opposing the hole deformed sphere provided in the hole of the ball and the tubular connector in the fluid control ball valve according to the present invention.

As shown in the figure, the fluid control ball valve 100 according to the present invention has an operating shaft 105 acting as an opening / closing handle 103 and a passage opening and closing ball 109 and a shaft installed in the inner center of the valve body 107. Coupled to the coupling structure to control the fluid flow rate to the left and right pipe connecting portion 111 of the valve body 107 in accordance with the operation of the opening and closing handle 103, the same structure as the existing ball valve (1) In addition, since the operation method of the ball valve 100 is also the same as the existing ball valve (1), a detailed description thereof will be omitted.

Reference numeral 113 denotes a flow rate adjusting hole formed in the ball 109, and reference numeral 115 denotes a Teflon ring.

In the fluid control ball valve 100 of the present invention having such a structure, the hole-deformation sphere 200 is fitted in close contact with the passage 113 of the ball 109. The hole deformable sphere 200 has a rod shape, and is formed such that a through hole 201 having an elliptical hole shape penetrates therein. If possible, the through hole 201 is preferably formed in a narrow oval shape. And the length of the hole deformation sphere 200 is preferably the same as the length of the hole 113 formed in the ball 109, the outer diameter is preferably size that can be tightly fitted in the hole (113). The hole deformation sphere 200 is preferably installed tightly in the hole hole 113, so when installed in the hole 113, the hole deformation sphere 200 is a hole shape of the hole hole 113 is circular To ellipsoid.

As described above, the ball 109 in which the hole modifying hole 200 is installed in the hole 113 is installed in the valve body 107 in the same manner as the related art, and is then axially coupled to the operating shaft 105 to operate the opening and closing handle 103. Adjust the flow rate of the fluid.

Meanwhile, the ball 113 having such a structure has an elliptical hole-deformation hole 200 in the tubular splice 111 so as to form a flow path in relation to the spherical tubular splice 111 by the opening / closing handle 103. ), On the one hand, the hole deformable opening 200 has a narrow area facing the pipe connection 111, that is, it can form a long flow path B having a long length and a narrow width (in the drawing). The hatched portion is a closed portion of the hole deformable opening 200 and the tubular connector 111 in which no flow path is formed, and such a flow path B is formed by the passage 113 and the tubular connector 111 as described above. That is, the nozzles are formed in the same direction, that is, the length is short and the width is not the same as the nozzle A. That is, when the fluid passes through the flow path B as described above, the fluid is passed through the stem having an elliptical stem having a long length and a narrow width which is almost circular in cross section, and thus the flow path B is not nozzleized.

Therefore, the flow path (B), such as the flow path (A) is to allow the foreign matter penetrates and accumulated in the arc-shaped spaces 117 formed between the upper sphere of the ball 109 and the inner surface of the valve body 107. As a result, the ball valve 100 can retain its function as a valve for a long time. As a result, by installing the hole deformation sphere 200 having an elliptical through-hole 201 in the circular hole 113 in the ball 109, the function of the ball valve 100 according to the present invention can be maintained for a long time It can be.

On the other hand, some people may have a question whether or not to form an elliptical hole 113 directly in the ball 109, according to the present inventors perforated the oval hole 113 directly in the ball 109 It is not easy to do. In other words, it is because the increase of the defective rate and the considerable skilled workers are required according to the processing of the ball 109, which is said to increase the production cost such as material cost and production cost. Therefore, the present inventors have selected a method of separately manufacturing the hole deformation sphere 200 having an elliptical through-hole 201 and installed in the hole 113. Therefore, if one is to form the elliptical hole 113 in the ball 109 for the purpose of maintaining the function of the ball valve 100 for a long time, the purpose and effect of this is the same as the purpose and effect of the present invention It will be included within the scope of the technical idea of the present invention. Accordingly, the detailed description and the accompanying drawings of the present invention should not be construed as limiting the technical spirit of the present invention but merely as illustrative.

As described above, according to the present invention, there is an effect that the function of the ball valve can be maintained for a long time by providing a hole-deformation hole having an elliptical through hole in the hole of the ball forming the flow path to change the hole shape of the hole.

Claims (1)

An operation shaft acting as an opening / closing handle is axially coupled to a flow path opening / closing ball installed in the center of the valve body to adjust the fluid flow rate to the left and right pipe connecting portions of the valve body according to the operation of the ball by the opening / closing handle. In A ball valve for controlling a fluid, characterized in that a hole-deformation hole having an elliptical through hole for changing the hole shape of the hole is provided inside the flow adjusting hole formed in the ball.