HU194590B - Control valve - Google Patents

Abstract

A check valve for use in for instance floor sinks, concrete manholes, in sewerage plants etc., comprising a valve box (2) having an upper inlet (3) and a lower inlet (4) and a valve seat (5) near the upper inlet (3) meant to act in conjunction with the upper section (1a) of a moveable valve body (1) in the case of rising water level, i.e. the check valve. The valve body (1) is preferably bush shaped and forms a flow opening (1b), the upper section (1a) of which is connected to the upper inlet (3) by means of a flexible sleeve (6). The lower section (1c) of the bush is at a distance from the upper section (1a) and juts down into any rising water or down into a basin so as to form a gully trap. The valve seat (5) is placed independently of the periphery (3a) of the opening of the upper inlet (3) in the valve box (2), and may in two different embodiments be placed in the shape of a disk (5a) centrally in the opening of the inlet (3) and held by means of struts (7), or to the side of the periphery (3a) of the opening of the inlet (3) when the inlet (3) is laterally directed or horisontal. The actual closing of the check valve occurs when the sleeve, because of trapped air in the case of a rise in the water level, is pressed up together with the valve body to rest against the valve seat, whereby the sleeve covers the inlet (3).

Description

The present invention relates to a check valve with a movable valve body arranged in a valve housing, which preferably has a valve seat cooperating with the upper part of the valve body due to an increase in the liquid level in the valve housing near the entrance. The check valve according to the invention is particularly suitable for bottom shafts, manholes, ductwork and the like.

This type of check valve was previously known in the prior art, wherein the valve body is formed as a float which, when the fluid level rises, is located on an upwardly directed valve seat near the upper outlet of the valve body. The increase in the liquid level is usually due to the return flow in the tube. However, the fluid flowing through the check valve is generally contaminated, which may cause contaminant particles to deposit on the float surface or on the valve seat connector. This almost always happens when there is contaminated liquid in the shaft or channel and the contaminating particles are deposited on cooperating surfaces. These contaminating particles can harden to coat surfaces, especially when the level of liquid 25 falls below the valve seat. This occurs when the fluid flows irregularly into the shaft or channel. All this results in a leakage through the check valve as the liquid flows back. This can cause the shafts to spill out and allow the liquid to flow from the channel above the floor, with obvious effects.

No. 822,093, which is also my property. In the case of a check valve according to Norwegian Patent Application I use a flexible sleeve which is mounted circumferentially on the valve seat and provided with a radial inner shoulder which extends inwardly in the valve seat opening and continues in a downwardly conical sleeve. In the acute angle transition between the shoulder and the sleeve, a flexible O-ring was placed where the sleeve and the Ο-ring interact with the upper part of the float and the shoulder interacts with the inside surface of the valve seat as the float begins to rise 45.

The disadvantage of this solution was that the check valve was relatively large because our valve would have to protrude downward from the entrance of the valve housing, and also because the float had to be made large enough to float and seal securely at our valve. In addition, the swimmer must be restricted by means of wires for its lateral movement in order to be exactly on the sleeve when the 55 level of the fluid begins to rise.

The object of the present invention is to overcome these drawbacks by providing a control valve which is smaller in size, primarily in the vertical direction, but at the same time eliminates the float and its wires by providing a seal of 60, thereby simplifying the structure and production technology.

According to a further development of the invention, the valve body has a through opening, the upper edge of which is connected to the entrance through a flexible diaphragm, and the valve seat is arranged independently of the upper part of the valve in the valve body, where the valve body is sealed by air the valve seat rests and the diaphragm ring seals vrr connected to the valve housing and closes the entrance in the closed valve seat.

In a preferred embodiment, the valve seat is configured as a cup, which is. with the help of ribs in the middle of the entrance ziThis embodiment is also expedient. In this case, in the case of a lateral entrance, the valve seat is formed over the circumference of the actuator opening, it is formed by parts of its side wall, and the valve body is hingedly connected to the valve housing by a lever.

Another embodiment of the invention is that the diaphragm ring is connected to the valve body below the rim of the valve body through its orifice and extends along its upper part to the region of the entrance port and is surrounded by five O-rings clamping to the rim of the orifice. valve body in upper closed position, valve seat down .; fu lies on the inner surface of the expanding annular wall.

In one embodiment, the membrane ring is formed from preformed and elastic.

It is also expedient in the embodiment in which the valve body is tubular with a collar attached in the center of which the diaphragm ring is connected by a clamp / ring.

Alternatively, the valve body may. the float that raises when the liquid level rises.

It is also desirable to have an embodiment in which a trough is formed near the exit and the lower part of the valve body extends below the level of the tumbler when fully open.

Further details of the invention will be described with reference to the accompanying drawings in connection with exemplary embodiments. In the drawing it is

Figure 1 is a schematic longitudinal sectional view of an inspection valve of the present invention in the open position of the valve;

Figure 2 is a detail of the embodiment of Figure 1 in a closed position, a

Figure 3 is a longitudinal section through another possible embodiment of the valve with the valve open;

Figure 4 is the embodiment of Figure 3 is a longitudinal sectional view of a closed állásbari- ^-1

The control valve according to the invention is illustrated in FIGS

2 shows a floating valve body 1 arranged in a valve housing 2. The valve body 2 has an upper entrance 3 and a lower exit 4, and a valve seat 5 is formed near the entrance 3 which cooperates with the upper part la of the movable valve body 1 when, for example in the case of return, the fluid level in the valve body 2 rises. The valve body 1 has a downwardly directed opening 1b, the upper edge 1a 'of which is connected to the entrance 3 via an elastic membrane ring 6. The center of the latter is used to secure the diaphragm ring 6 on the valve body 1

194,590.!

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There are 9 collars radially outwards around ^! to which a diaphragm ring 6 is clamped by means of a clamping ring 10 and screws.

As shown in Figure 1, the valve body 1 is a tubular open sleeve having a lower underside at a distance from the upper part la. In this embodiment, the valve seat 5 is in the form of a disk or a downwardly facing cup 5a and is secured in the middle of the entrance 3 by means of ribs 7. The diaphragm ring 6, preferably of pre-formed and elastic material, such as rubber, extends along the upper portion 1a of the valve body 1 to the circumference 3a of the entrance opening 3 and is clamped by the O-ring 6a on the upper rim 1a of the orifice. In the embodiment of Fig. 1, the cup 5 has a downwardly expanding annular wall 5c having an opening diameter slightly larger than the outside diameter of the O-ring 6a. As a result, the O-ring 6a and the diaphragm ring 6 are pressed against the annular wall 5c of the tray 5a as it moves upwardly. As a result, the entrance 3 of the valve body 2 is sealed by the diaphragm ring 6, which is also sealed to the circumference 3a of the entrance 3 and also sealed in this manner to the annular wall 5c of the cup 5a.

! This is illustrated in detail in Figure 2.

Actually, the valve body 1 rises under the influence of the air which, in the event of a return, flows between the outer wall of the valve body 1 and the diaphragm ring 6 as the water level in the valve rises above the lower edge of the lower part of the body. In the event of a continuous rise in the liquid level, the air begins to raise the valve body 1 and the diaphragm ring 6 all the way to the cup 5a, when the valve is closed.

Experiments with this embodiment of the check valve of the present invention have shown that an extremely small amount of air ^{1 is} sufficient to raise the diaphragm ring 6 and the valve body 1, since after the initial rise the pressure of the rising liquid level also helps to reach the closed state.

In order to increase by the more effective liquid around the lower portion of the valve body 1 1 c ¹ 11 can place an additional floating body.

Control valve according to the invention, see Figure 1, in ^one embodiment of the weir 12 is; It is formed around the exit 4 of the valve body 2. This roll bar 12 is so high that the lower part 1c of the valve body 1, when fully open, is the roll bar 12; below the dam level.

In another embodiment of the check valve of the present invention (Figures 3 and 4), the entrance 3 and the exit 4 are in a horizontal position and the latter is located lower than the entrance 3. The 5 seats were drunk.

is formed as part of the wall 3b of the entrance 3 above the circumference 3a of the opening 3 of the entrance 3 and also joins the upper edge of the diaphragm ring 6. The other end of the diaphragm ring 6 is attached to the valve body 1 in the same manner as described in the embodiment shown in FIG. Here, the valve body is pivotally connected to the valve housing 2 by a lever 8 around the circumference 3a of the entrance opening 3, whereby the valve body 1 can pivot from the lower open position to the upper closed position.

Both of the described embodiments of the check valve of the present invention have the extremely important advantage that the inflow fluid continuously keeps the surface of the diaphragm ring 6 which rests on the valve seat 5. In addition, due to the said O-ring 6a, the membrane ring 6 enters under the annular wall 5c of the valve seat 5 so that any dirt adhering to the surface, dehydrated, is dropped, so that impurities will not deteriorate the seal. . These deposits can only occur if the control valve is used with a fluid that contains particles that adhere to it.

The check valve shown in Figures 1 and 2 is most preferably used for tanks that are completely filled with liquid and submerged in water, since the pressure difference between the stored liquid and the surrounding water will move the valve body 1 from the open position or vice versa. , puts you in an open position from a closed position.

Claims (7)

1. A check valve with a movable valve body arranged in a valve housing having a valve seat cooperating with the upper portion of the valve body as a result of an Inlet, a Bottom Exit and an increase in the level of liquid in the valve in the entrance region. characterized in that the valve body (1) is provided with a flow opening (1b), the upper rim (1a ') of which is connected to the entrance (3) via an elastic membrane ring (6) and the valve seat (5) independently of its part (la), it is arranged in the valve housing (2). Control valve according to Claim 1, characterized in that the valve seat (5) is formed as an inverted cup (5a), which is located in the middle of the entrance (3) by means of ribs (7). Control valve according to Claim 1, characterized in that, in the case of a side entrance (3), the valve slots (5) are formed above the circumference (3a) of the opening (3) and formed as part of its side wall (3b). by means of a lever (8) articulated to the valve body (2) in the circumference (3a) of the opening of the entrance (3). 4. Control valve according to any one of claims 1 to 5, characterized in that the diaphragm ring (6) is connected to the valve body (1) below the flange opening (1b) of the valve body (1) and along its upper part (1a) to the periphery (1). 3a) extends and is surrounded by five O-rings (6a) clamping the marrow ring (6) to the flange (1b) flange (1b), which in the upper closed position of the valve body (1) extends downwardly from the annular wall (5). 5c) lies on its inner surface. Control valve according to claim 1, characterized in that the diaphragm ring (6) is made of pre-formed and resilient material. 194,590 Control valve according to Claim 1, characterized in that the valve body (1) has a tubular configuration to which a collar (9) is attached in the center thereof and the diaphragm ring (6) is connected thereto by a clamping ring (10). Control valve according to claim 1, characterized in that a float body (11) is connected to the valve body (1). Control valve according to claim 1, characterized in that the lower part (le) of the valve body (1), when fully open, extends below the level of the tipping dam (12) in the area of the exit (4).