DE3812549A1 - Back siphonage preventer - Google Patents

Abstract

The invention relates to a back siphonage preventer (check valve) (1) for insertion in liquid conduits, having an outer housing (2) in which there is arranged a valve element (4) guided in such a way that it can be displaced against a valve seat (3) counter to the direction (Pf1) of flow. The back siphonage preventer (1) according to the invention is characterised in that its valve element (4) is designed relative to the medium conveyed as a float and can be moved freely between the closed and the open position of the back siphonage preventer (1). The back siphonage preventer (1) is distinguished by the fact that its construction is simple and associated with only a small outlay on production, also managing without a return element, which may be vulnerable to corrosion and prone to faults. Just a slight flow of the medium conveyed flowing back counter to the direction (Pf1) of the flow and the buoyancy intrinsic to the valve element (4) designed as a float is sufficient to move the latter into its closed or open position (Fig. 1). <IMAGE>

Description

The invention relates to a backflow preventer for insertion in fluid guides with an outer housing in which a against the flow direction against a valve seat sliding valve body is arranged.

Backflow preventer of the type mentioned are example used wisely in supply lines when the danger there is that in the event of a pressure drop or pressure drop in the United States supply network possibly also contaminated liquid against the supply network outflow direction back into the Supply network could reach.

A backflow preventer is already known on the outside housing a sliding valve body by means of screws compression spring against the flow direction against the valve seat is held in the closed position (cf. DE-GM 66 10 152). The valve body has this known reflux prevents one interacting with the valve seat Valve cone on which is in a guide sleeve axially movable valve guide shaft connects.

With this backflow preventer the valve body is through against him against the spring force of the return spring acting fluid pressure from the closed position in Brought open position. The liquid pressure falls below a certain minimum value, so the valve body moved to the closed position and thus the valve closed.  

The reset valve is located on this backflow preventer or closing spring in the passage area of the liquid and thus comes into contact with it. At the usual Lang The effect of time is disadvantageously a corro sion of the spring and also an impairment of its function Lime deposits possible. In addition, the manufacturing and Mon day effort still comparatively large.

There is therefore the task of a backflow preventer to create the kind mentioned in the beginning, the easier in Is built up and characterized by a long service life and a distinguishes improved functional safety.

The solution to this problem according to the invention consists in particular the fact that the valve body with respect to the conveyor mediums designed as floating or floating bodies and between the closed and open position of the reflux valve hinderers is freely movable.

A backflow preventer with one on the conveyor mediums designed as floating or floating bodies Valve body advantageously comes without a reset feather out. Since also sensitive to corrosion and ent return springs prone to failure are dispensed with can, the reflux according to the invention is distinguished through a long service life and a high level of interference insensitivity. The Rückflußver invention hinderer can be used even with aggressive media, since there are no more corrosion-sensitive parts. The production of the backflow preventer according to the invention is therefore associated with little effort.

The valve body of the backflow preventer according to the invention can be the same or preferably a lower specific one Have weight than that through the liquid flow flowing medium.  

At approximately the same specific weight, that is, with a valve body designed as a float, the slight flow of the opposite is enough flow direction backflowing medium to the To press the valve body against the valve seat and around thus the backflow preventer in the closed position bring.

In the case of a valve body with a lower specific weight than the pumped medium, it can float on the surface of the pumped medium and accordingly - depending on the position of the non-return valve - move from its closed or open position.

It is advantageous if the valve body as a hollow body is formed, which is a gas and / or Has liquid filling. Such a valve body can be formed particularly easily and has a correspondingly high buoyancy in the medium. By a gas and / or liquid filling, for example an air and / or oil filling, the specific Weight of the valve body adapted to that of the medium and selected according to the desired buoyancy will.

A valve body with a comparatively low specific Weight and high buoyancy become firm and corresponding pressed tightly against the valve seat.  

To ensure that the non-return valve is as tight as possible To achieve in the closed position, the materials should of valve body and valve seat in the area of their loading Touch area be chosen so that at least one of these materials is sufficiently elastic to each other valve part in the corresponding area close to surround.

For example, the valve body is advantageously thin metal hollow body formed when the valve seat consists essentially of plastic.

It is also advantageous if the valve body from one non-metallic material, in particular made of plastic consists. Such a valve body can be used both as a hollow body as well as made of all-plastic, for example be formed. In particular, consist of plastic the valve body is light, with little effort adjustable and has, depending on the plastic material used rial, good sealing properties.

One of them is expedient for the valve body Open position limiting stop provided. A such a stop prevents the loss of the valve body both in one mounted in the fluid guide as well as disassembled condition. He also limits the Displacement of the valve body, so that this between Open and closed positions only a short distance must cover.

After a simple and advantageous execution according  of the invention, the valve body is preferably in one separate valve guide part, which in the direction of the valve body displacement path, radially to inside protruding valve guide webs, which on their the end remote from the valve seat and the Make a stop for the valve body.

The valve guides form an inexpensive system to guide the valve body and ensure its function and long life. Your training as a stop for the valve body at the end distant from the valve seat reduces the Production cost of the Rückflußver hinderers.

Basically, the reflux according to the invention those with both an up and a down valve seat pointing downwards. At a The valve body becomes the valve seat pointing downwards both through the flow flowing in the outflow direction medium as well as through its own buoyancy in open position and held. When flowing back of the fluid in the liquid guide keep the Pressure and suction forces of the returning medium the valve body in its closed position.

However, an embodiment is preferred in which the valve body displacement path in the operating position of the backflow preventer is designed to rise upwards with the valve seat at the top. As a result, for example, a valve body designed as a floating body floats on the surface of a back-flowing conveying medium or is moved as a floating or floating body by its only slight flow against the valve seat in the closed position. Without a fluid in the liquid guide or if this flows in the flow direction through the backflow preventer, the valve body remains - also due to the flow effect - in its open position.

To make the valve body as small as possible To enable production costs, it is advantageous if the valve body is designed as a rotating body is.

An embodiment is possible in which the valve body is cylindrical in shape and at its Valve seat facing end face a chamfer or Like. Sealing surface.

However, an embodiment of the invention is preferred of its own worthy protection, in which the valve body is spherical. A spherical one and valve not acted upon by a restoring element body can in the flow direction flowing medium to rotate freely, so that the valve body during operation also in under can twist different positions and both the Ven valve guides and the valve seat not always with the same investment sites. This lengthens the service life of the backflow preventer according to the invention, since this is not just in the same places on the valve body is exposed to wear and the spherical shape offers hardly any areas of attack for a lime deposit.

The inclined surfaces of the valve expediently close zes with the central axis an angle of about 15 to 60 °, preferably an angle of about 30 °. A such an angle prevents even in the Self-locking and large flow area a fixation, especially of a spherical one Valve body in the valve seat.

The invention is based on an advantageous Embodiment in connection with the drawings explained in more detail. Show it:

Fig. 1 a backflow preventer in its open position and

Fig. 2 shows the backflow preventer from Fig. 1 in its closed position.

Fig. 1 and 2 show a generally designated 1 and designed as an insert cartridge check valve in a sectional drawing in its open ( Fig. 1) and closed position ( Fig. 2). The backflow preventer 1 according to the invention has an outer housing 2 in which a valve body 4 which is displaceably guided counter to the flow direction Pf 1 against a valve seat 3 is arranged. The valve body 4 is formed with respect to the in Figures 1 and conveying medium unillustrated 2 as a spherical float and between the -. Shown in Fig. 1 - open position and the - shown in Fig. 2 - closed position of the reflux preventer 1 freely movable.

The valve body 4 can be made, for example, both as a metallic or non-metallic hollow body and from solid plastic. The materials of the valve seat 3 and the valve body 4 in the region of their contact surface 5 shown in Fig. 2 are in any case chosen so that the valve body 4 designed as a floating body seals the valve seat 3 sufficiently tight in the closed position.

The valve body 4 is guided in a separate valve guide part 6 , which extends in the direction of the valve body displacement path and has radially inwardly projecting valve guide webs 7 which extend inwards at their end 8 remote from the valve seat and a stop which limits the valve body 4 in its open position form. Radial vibrations of the valve body 4 are avoided by the valve guide webs 7 which engage directly on the spherical valve body and thus prevent undesirable noise formation. In the open position, the valve body 4 is flowed around on the outside, the passage cross section being formed by the annular space present between it and the outer housing 2 .

In the embodiment shown in FIGS . 1 and 2, the valve guide webs 7 are connected to each other at their valve seat distal end 8 via a centrally arranged connecting sleeve 9 , which webs the valve guide and the valve guide part 6 gives additional stability. In this way, the valve guide part 6 - even if it is made of elastic plastic material - hardly bend in the radial direction in this area and insert and lock it well into the outer housing 2 .

The spherical valve body 4 is in the valve guide part 6 as in a "cage" freely rotatably mounted, so that the valve body 4 can rotate ver during operation of the back flow preventer 1 in different positions and on the valve seat 3 and the Ventilfüh approximately 7 webs is always subject to wear and tear at the same installation points. Since the spherical shape also offers hardly any surface for a lime batch, it favors a long life of the backflow preventer according to the invention.

The backflow preventer 1 is designed to be return-element-free and comes, for example, without a helical compression spring which holds the valve body 4 in the closed position.

Instead, the valve body 4 is moved to its open or closed position solely by the - even slight - flow of the conveying medium flowing around it and the buoyancy inherent in it. For this purpose, the back flow preventer 1 is arranged so that the valve body displacement path in the operating position of the backflow preventer 1 is rising upwards with the valve seat 3 above.

Flows through the flow medium in the flow Pf 1 the return valve 1, so that, although it has a lower specific gravity than the pumping medium - through the flow pressure into its open position against the formed as an abutment ends 8 of the valve guide webs 7 pressed. Conversely, if the pumped medium flows back against the flow direction Pf 1 , for example due to a pressure drop in the flow direction Pf 1 in front of the backflow preventer 1 part of the liquid not shown, the valve body 4 designed as a float is driven by its own buoyancy in Conveyed medium and by its flow against the inclined surfaces 10 of the valve seat 3 in the closed position, so that a backflow of the conveying medium against the flow direction Pf 1 is prevented. The inclined surfaces of the valve seat with the central axis 11 form an angle a of approximately 30 °, thus preventing self-locking and locking of the spherical valve body 4 even with a large flow opening 12 in the valve seat 3 .

The backflow preventer 1 according to the invention is characterized by its simple effort and expense, which is associated with only a small amount of production, and it also does without a reset element, for example, which is sensitive to corrosion and prone to failure. In particular with a spherical valve body, the backflow preventer has a long service life and also offers hardly any attachment surface to the limescale deposits which disrupt the valve function.

All of the above or listed in the claims Individual features can be used individually or in any combination nation essential to one another.

Claims (11)

1. Backflow preventer for use in liquid guides with an outer housing, in which a valve body slidably guided against the flow direction against a valve seat is arranged, characterized in that the valve body ( 4 ) is designed as a floating or floating body with respect to the medium and between closing - And open position of the backflow preventer ( 1 ) is freely movable. 2. Backflow preventer according to claim 1, characterized in that the valve body ( 4 ) is designed as a hollow body which may have a gas and / or liquid filling. 3. Backflow preventer according to claim 1 or 2, characterized in that the valve body ( 4 ) is designed as a thin-walled metal hollow body. 4. backflow preventer according to one or more of claims 1 to 3, characterized in that the valve body ( 4 ) consists of a non-metallic material, in particular plastic. 5. Backflow preventer according to one or more of claims 1 to 4, characterized in that a stop limiting its open position is provided for the valve body ( 4 ). 6. Backflow preventer according to one or more of claims 1 to 5, characterized in that the valve body ( 4 ) is guided in a preferably separate valve guide part ( 6 ) which extends in the direction of the valve body displacement path, radially inwardly projecting valve guide webs ( 7 ), which run inwards at their end ( 8 ) remote from the valve seat and form the stop for the valve body ( 4 ). 7. Backflow preventer according to one or more of claims 1 to 6, characterized in that the valve body displacement path in the operating position of the backflow preventer ( 1 ) is designed to rise upwards with the valve seat ( 3 ) at the top. 8. Backflow preventer according to one or more of claims 1 to 7, characterized in that the valve body ( 4 ) is designed as a rotating body. 9. Backflow preventer according to one or more of the types sayings 1 to 8, characterized in that the Valve body is cylindrical and on one of its end facing the valve seat Chamfer or the like. Sealing surface. 10. backflow preventer in particular according to one or more of claims 1 to 8, characterized in that the valve body ( 4 ) is spherical. 11. Backflow preventer according to one or more of claims 1 to 10, characterized in that the inclined surfaces ( 10 ) of the valve seat ( 3 ) with the central axis ( 11 ) an angle ( a ) of about 15 to 60 °, preferably an angle of close about 30 °.