KR20090014578A - Cylinder type valve - Google Patents

Abstract

A cylindrical valve is provided that the leakage is prevented in the closure of the discharge hole and inlet hole as rotor is set up in the valve body. A cylindrical valve comprises a valve body(110) in which inside is vacant and the inlet hole(114) and discharge hole(115) are formed, a rotor(140) in which the fluid passage(141) is formed according to the rotation range in order to communicate the inlet hole and discharge hole to selectively, a sealing means which are installed between the inner circumference and rotor of the valve body and prevent leakage. The sealing means includes a receiving part(112) formed in the inner circumference of valve body, and a sealing member(130) in which the penetration hole(131) is formed in the location corresponding with the inlet hole and discharge hole.

Description

Cylindrical Valves {Cylinder Type Valve}

The present invention relates to a cylindrical valve, and more particularly, to install an arc-shaped sealing member in the receiving portion formed on the inner peripheral surface of the valve body and to fix the position of the sealing member in the inlet and outlet holes of the valve body. By installing the retaining ring to prevent the leakage of the inlet and outlet holes by the rotor installed inside the valve body and prevent the flow of the sealing member and can maintain the sealing property even during long time use Relates to a cylindrical valve.

In general, various types of valves are used. Among them, a ball valve having a steel ball having a fluid passage in the valve body is used in the most common form.

However, in the case of the ball valve, since the steel ball is spherical, difficult to manufacture and process, there is a problem that the manufacturing cost is also increased, in order to solve this problem, a cylindrical valve as shown in Figs. 1 and 2 is used.

The cylindrical valve has the advantage of easy manufacturing and processing by having a cylindrical rotor instead of the steel ball of the ball valve, referring to Figures 1 and 2 as follows.

The cylindrical valve 1 has a cylindrical valve body 10 of which a lower part is sealed and an upper part thereof is opened, an inlet pipe 15 and an outlet pipe 16 formed to communicate with both sides of the valve body 10, and the valve. The rotor 20 is rotatably inserted into the body 10 and is configured to include a rotor 20 in which a fluid passage 21 is formed so as to selectively communicate the inlet 15 and the outlet 16 according to the rotation range. .

In addition, a first o-ring 23 is installed at an upper end of the rotor 20 to prevent leakage between the open upper portion of the valve body 10 and the rotor 20, and the valve body 10. At the top of the nut 26 is coupled to prevent the departure of the rotor 20.

In addition, a protrusion 24 is formed at the center of the upper end of the rotor 20 by penetrating the nut 26, and the lever 25 is bolted to the protrusion 24 so as to rotate the rotor 20. Are combined.

In addition, the rotor 20 may be rotated to prevent leakage of the inlet pipe 15 and the discharge pipe 16 when the inlet pipe 15 and the discharge pipe 16 are closed. A second O-ring 22 is installed on the outer circumferential surface, and the second O-ring 22 is installed around the inlet and the outlet of the fluid passage 21, respectively.

Therefore, when the rotor 20 is rotated forward or backward by 90 degrees, the fluid passage 21 formed in the rotor 20 also rotates, and the fluid passage 21 is the inlet pipe 15. Only when the discharge pipe 16 communicates with the fluid introduced through the inlet pipe 15 may flow to the discharge pipe 16.

On the other hand, when the rotor 20 is rotated so that the fluid passage 21 does not communicate with the inlet pipe 15 and the discharge pipe 16, the inlet pipe 15 and the by the rotor 20 The discharge pipe 16 is closed.

That is, when the fluid passage 21 rotates in a direction perpendicular to the inlet pipe 15 and the discharge pipe 16, the inlet pipe 15 and the discharge pipe 16 is closed, the fluid passage 21 Since the second O-ring 22 provided around the inlet and the outlet of the inlet is in close contact with the inner circumferential surface of the valve body 10, the fluid of the inlet pipe 15 does not leak into the outlet pipe 16.

However, when the inlet pipe 15 and the discharge pipe 16 are formed on both sides of the valve body 10, the inlet circumference of the valve body 10 to which the inlet pipe 15 and the discharge pipe 16 are connected is also shown. As shown in FIG. 2, an angled portion 12 is formed, and in this state, when the rotor 20 is rotated, a second O-ring (circumference of the inlet and outlet of the fluid passage 21 of the rotor 20) When the 22 passes through the angled portion 12, the second o-ring 22 gradually wears or breaks, and thus the sealing property cannot be maintained and leakage occurs.

An object of the present invention for solving the above problems is to install an arc-shaped sealing member in the receiving portion formed on the inner peripheral surface of the valve body and to fix the position of the sealing member in the inlet and outlet holes of the valve body By installing a fixing ring to prevent the leakage of the inlet and outlet holes by the rotor installed inside the valve body, prevents the flow of the sealing member and can maintain the sealability even during long time use To provide a cylindrical valve.

In order to achieve the above object, the present invention provides a valve body having an empty inlet and an inlet and outlet hole, and rotatably inserted into the valve body, and selectively communicating the inlet and outlet holes according to the rotation range. A cylindrical valve comprising a rotor having a fluid passage formed therein and a sealing means installed between the inner circumferential surface of the valve body and the rotor to prevent leakage, wherein the sealing means is formed on the inner circumferential surface of the valve body. It is characterized in that it is formed of a receiving member formed in the receiving portion and formed in an arc shape and a sealing member having a through hole formed in a position corresponding to the inlet and outlet holes.

The present invention, by installing an arc-shaped sealing member in the receiving portion formed on the inner circumferential surface of the valve body, and in the inlet and outlet holes of the valve body by providing a fixing ring so that the sealing member is caught, By the rotor installed inside the leakage of the inlet hole and the discharge hole is prevented and the flow of the sealing member can be prevented and the sealing property can be maintained even during long time use.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In addition, repeated description of the same parts as in the prior art will be omitted.

Figure 3 is a perspective view showing a cylindrical valve according to the present invention, Figure 4 is an exploded perspective view showing a cylindrical valve according to the present invention, Figure 5 is a cross-sectional view showing a cylindrical valve according to the present invention.

As shown, the cylindrical valve 100 according to the present invention is largely configured to include a valve body 110, the rotor 140, and the sealing means.

First, the valve body 110 is formed in a hollow cylindrical shape, the lower portion is closed and the upper portion is open. Here, the tab 113 is formed on the upper outer peripheral surface for coupling with the nut 150 to be described below.

In addition, the inlet hole 114 and the outlet hole 115 are formed in both sides of the valve body 110, and the tab 120a is formed at the end of the outer peripheral surface of the valve body 110 in which the inlet hole 114 is formed. ) Is formed in the inlet pipe 120 is formed, the outer peripheral surface of the valve body 110 in which the discharge hole 115 is formed is a discharge pipe 121 is formed with a tab 121a at the end.

An external hose (not shown) or a pipe (not shown) may be connected to the inflow pipe 120 and the discharge pipe 121.

Meanwhile, although the diameters of the inflow hole 114 and the discharge hole 115 are smaller than the inner diameters of the inflow pipe 120 and the discharge pipe 121 in the drawing, they may be formed to have the same diameter.

The rotor 140 is formed in a cylindrical shape and rotatably inserted into the valve body 110.

The rotor 140 is formed such that the fluid passage 141 penetrates at right angles so as to selectively communicate the inflow hole 114 and the discharge hole 115 according to the rotation range.

In addition, an O-ring 145 is installed on the upper outer circumferential surface of the rotor 140 to prevent leakage between the open upper portion of the valve body 110 and the rotor 140. A nut 150 is coupled to the tab 113 formed on the upper outer circumferential surface to prevent the rotor 140 from being separated.

A through hole 151 is formed at the center of the nut 150 to allow the protrusion 143 protruding from the upper end of the rotor 140 to pass therethrough.

In addition, the lever 160 is coupled to the protrusion 170 formed on the top of the rotor 140 so that the rotor 140 may be rotated.

Here, the insertion groove 161 is formed on the lower side of the lever 160 so that the upper end of the protrusion 143 of the rotor 140 is inserted, so that the sliding does not occur when the lever 160 is rotated. The protrusion 143 and the insertion groove 161 preferably have at least one plane. In FIG. 4, three of the four side surfaces of the protrusion 143 are flat and one is curved, and the insertion groove 161 is also formed in a shape corresponding to the protrusion 143.

In addition, a locking jaw 116 is formed at an inner bottom of the valve body 110, and the locking jaw 116 is formed in an arc shape around the inner bottom of the valve body 110.

In addition, the lower limit of the rotor 140, the rotation limiting jaw 142 is formed so that the rotation range is limited while being caught by the locking jaw 116.

Here, the rotation limit jaw 142 is preferably formed to be eccentric to the lower end of the rotor 140.

Therefore, when the rotor 140 is rotated in the forward or reverse direction by using the lever 160, the rotation limiting jaw 142 is caught by the locking jaw 116 formed at the bottom of the valve body 110. The rotor 140 may rotate only within 90 degrees.

As described above, the cylindrical valve 100 of the present invention has a flow path leading from the inflow pipe 120 to the fluid passage 141 and the discharge pipe 121 when the rotor 140 rotates in the forward or reverse direction within 90 degrees. Will open or close.

And, the sealing means, the receiving portion 112 is formed on the inner peripheral surface of the valve body 110, and is installed in the receiving portion 112 and formed in an arc shape and the inlet hole 114 and the discharge hole ( The sealing member 130 is formed with a through hole 131 at a position corresponding to 115.

As the material of the sealing member 130, not only a rubber material but also various known materials for sealing may be used.

In addition, the accommodating part 112 is formed separately from each of the inlet hole 114 and the discharge hole 115 is located, the sealing member 130 is formed in the shape of an arc-shaped plate to each of the accommodating It is installed in the unit 112.

That is, the accommodating part 112 is formed in an arc shape corresponding to the shape of the sealing member 130 on the inner circumferential surface of the valve body 110, and thus the sealing member 130 in the accommodating part 112. Is inserted and installed, the sealing member 130 is in close contact with the outer circumferential surface of the rotor 140.

On the other hand, the sealing member 130 may be installed in both the receiving portion 112 formed in each of the inlet hole 114 and the discharge hole 115, or may be installed only on either side. That is, even if the sealing member 130 is installed on only one of the receiving portions 112 formed in the inlet hole 114 and the discharge hole 115, the sealing is possible.

In addition, the inlet hole 114 and the outlet hole 115 of the valve body 110 is inserted into the fixing ring 135 penetrated to prevent the flow of the sealing member 130 is installed, the fixed One end of the ring 135 protrudes toward the receiving portion 112 and is inserted into the through hole 131 of the sealing member 130 to be covered.

In addition, the locking jaw 137 is formed to protrude from the outer peripheral surface of one end of the fixing ring 135 so as to be caught by the inlet hole 114 and the outlet hole 115.

Therefore, after inserting / installing the sealing member 130 in the receiving portion 112, the fixing ring 135 and the inlet hole 114 through the through hole 131 of the sealing member 130 and When each is inserted into the discharge hole 115, only a part of the fixing ring 135 is inserted into the inlet hole 114 and the discharge hole 115 by the locking step 137 of the fixing ring 135 One end of the fixing ring 135 is protruded toward the receiving portion 112 to be inserted into the through hole 131 of the sealing member 130.

Accordingly, since the position is fixed by the fixing ring 135 in the state in which the sealing member 130 is inserted into the accommodating part 112, the rotor 140 may be rotated even when the rotor 140 is rotated. The sealing member 130 is not in close contact with the pressure can prevent the problem of closing the inlet hole 114 and the discharge hole 115, and the flow of the sealing member 130 is prevented to prevent the sealing member ( The sealing property of 130) can be improved, and the sealing property can be maintained even when used for a long time.

In addition, the sealing member 130 is fixed to the position by the fixing ring 135, the sealing member 130 by the pressure of the fluid passing through the cylindrical valve 100 is the discharge hole 115 and Sucked into the discharge pipe 121 will also prevent the problem of leaving.

Hereinafter, the operation of the cylindrical valve 100 according to the present invention will be described.

First, the sealing member 130 is inserted into and installed in the receiving portions 112 formed on both inner circumferential surfaces of the valve body 110, and then the fixing ring 135 passes through the sealing member 130. Inserted into and coupled to the inlet hole 114 and the outlet hole 115 formed in the valve body 110 through, respectively.

Thereafter, the rotor 140 is inserted into and coupled to the inside of the valve body 110, and the nut 150 is screwed to the tab 113 formed on the upper outer circumferential surface of the valve body 110 so that the rotor is screwed. The departure of the 140 is prevented.

Subsequently, the lever 160 is coupled to the protrusion 143 of the rotor 140 protruding through the through hole 151 of the nut 150 with the bolt 170 to complete the assembly.

In addition, when an external hose or pipe is connected to the inlet pipe 120 and the discharge pipe 121 of the valve body 110, the fluid flowing through the hose or the pipe can be interrupted.

That is, when the lever 160 is rotated 90 degrees in one direction, the fluid passage 141 formed in the rotor 140 communicates the inlet hole 114 and the outlet hole 115 of the valve body 110. Therefore, the fluid introduced through the inlet pipe 120 can be discharged to the discharge pipe 121 through the fluid passage 141 of the rotor 140, 90 degrees in the opposite direction to the lever 160 When rotated, the fluid passage 141 of the rotor 140 rotates at right angles with respect to the inlet hole 114 and the outlet hole 115 of the valve body 110 so that the inflow of the valve body 110 is achieved. The ball 114 and the discharge hole 115 is closed by the rotor 140 to block the fluid flowing through the inlet hole 114.

1 is a cross-sectional view showing a conventional cylindrical valve,

2 is an exploded view showing a conventional cylindrical valve,

3 is a perspective view showing a cylindrical valve according to the present invention,

4 is an exploded perspective view showing a cylindrical valve according to the present invention;

5 is a cross-sectional view showing a cylindrical valve according to the present invention.

<Description of Signs of Major Parts of Drawings>

100: cylindrical valve 110: valve body

112: receiving portion 113,120a, 121a: tab

114: inlet hole 115: outlet hole

116: locking step 120: inlet pipe

121: discharge pipe 130: sealing member

131: through hole 135: retaining ring

137: jaw 140: rotor

141: fluid passage 142: rotational jaw

143: protrusion 145: O-ring

150: nut 151: through hole

160: lever 161: insertion groove

170: bolts

Claims (6)

The valve body 110 having an empty interior and the inlet hole 114 and the outlet hole 115 is formed and rotatably inserted into the valve body 110 and the inlet hole 114 according to the rotation range. And a rotor 140 formed with a fluid passage 141 to selectively communicate with the discharge hole 115 and between the inner circumferential surface of the valve body 110 and the rotor 140 to prevent leakage. In the cylindrical valve comprising a sealing means, The sealing means, Receiving portion 112 formed on the inner peripheral surface of the valve body 110, It is installed in the receiving portion 112 and formed in a circular arc shape, characterized in that consisting of a sealing member 130 formed with a through hole 131 at a position corresponding to the inlet hole 114 and the outlet hole 115 Cylindrical valve. The method of claim 1, The receiving portion 112 is formed in each of the inlet hole 114 and the discharge hole 115 is located, respectively, the sealing member 130 is formed in an arc-shaped plate form each of the receiving portion 112 Cylindrical valve, characterized in that installed in. The method of claim 1, The inlet hole 114 and the outlet hole 115 of the valve body 110 is inserted into the fixing ring 135 penetrated so as to prevent the flow of the sealing member 130, the fixing ring ( One end of the 135 is protruded toward the receiving portion 112, the cylindrical valve, characterized in that is inserted into the through hole 131 of the sealing member (130). The method of claim 3, wherein Cylindrical valve, characterized in that the locking step (137) protruding to be formed on the outer peripheral surface of one end of the fixing ring 135 to be caught by the inlet hole (114) and the outlet hole (115). The method of claim 1, A locking jaw 116 is formed at an inner bottom of the valve body 110, and a rotation limiting jaw 142 is formed at a lower end of the rotor 140 to be caught by the locking jaw 116 while the rotation range is limited. A cylindrical valve, characterized in that formed. The method of claim 5, wherein The rotary limiting jaw 142 is a cylindrical valve, characterized in that the eccentric formed on the lower end of the rotor (140).

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