WO2007118951A1

WO2007118951A1 - Closure element for regulating the flow of a fluid in a hydraulic installation

Info

Publication number: WO2007118951A1
Application number: PCT/FR2007/000467
Authority: WO
Inventors: Olivier Jeantet
Original assignee: Jeantet Elastomeres Sa
Priority date: 2006-04-18
Filing date: 2007-03-16
Publication date: 2007-10-25
Also published as: FR2899947B1; FR2899947A1

Abstract

The invention concerns a closure element for regulating the flow of a fluid in a hydraulic installation (1), consisting of an immersed spherical ball (4), comprising an outer elastomeric shell (10) coating a hard and solid pressure resistant core (11) and designed to close or clear, directly or indirectly, an opening of the installation. The invention is characterized in that the core (11) of the spherical ball (4) is made from an aggregate of organic or mineral granules and a binder, of predetermined density based on the choice of components, for direct or indirect floating or gravitational closure.

Description

SHUTTER ELEMENT FOR REGULATING THE CIRCULATION OF A FLUID IN A FACILITY

HYDRAULIC

The present invention relates to a closure element for regulating the circulation of a fluid in a hydraulic installation, and more particularly to water distribution.

Such closure elements are generally constituted by a hemispherical ball immersed in the fluid and consisting of an outer elastomeric casing coating a hard and solid core resistant to pressure, and intended to seal or release the seat of a circular opening of the installation, in the manner of a valve, and this by floating or by gravity.

Such closure elements are known and consist of an outer envelope of elastomer coating a sphere corresponding to its internal dimensions, consisting of two hollow sheet metal shells obtained by stamping and welding.

The disadvantage of this type of balls lies mainly in their cost because of the necessary intervention of specialists to make the half-shells and their welding, concentrically during their stamping. It is also often necessary to balance the assembly, which must not present unbalance, of course, because the support of the ball must be undifferentiated, its position in the fluid may vary, and more to avoid localized wear .

It is also known to replace the hemispherical shells by a hard core and full of wood, but this presents, by the presence of wood, the disadvantage of offering a ball whose shape is not constant over time, this which of course has disadvantages to obtain a perfect seal of the opening which is circular and does not deform.

It has also already been proposed to replace the wooden core with a plastic core, but which, for its part, has the disadvantage of having a very smooth surface state, which implies carrying on it projections ensuring as many points of attachment of the rubber coating deposited on the core later.

This solution overcomes the above drawbacks, but is a high cost.

The aim of the present invention is to overcome all these drawbacks and for this purpose concerns a shut-off element for regulating the circulation of a fluid in a hydraulic installation, of the type constituted by a submerged spherical ball constituted by an outer envelope elastomer encasing a hard and solid pressure-resistant core and intended to plug or release directly or indirectly an opening of the installation, characterized in that the core of the sphere is made from an aggregation of aggregates, of origin organic or inorganic, and a binder, of predetermined density according to the choice of components, for a direct or indirect shutter by floating or by gravity.

The invention also relates to the features which will emerge during the following description, which should be considered in isolation or in all their possible technical combinations.

This description given by way of non-limiting example, will better understand how the invention can be made with reference to the accompanying drawings in which: Figure 1 shows a sectional view in the diametral plane of a spherical ball according to the invention , intended to constitute a sealing element in a hydraulic installation.

Figures 2 and 3 show schematically a hydraulic circuit portion comprising a shutter member according to the invention, respectively in an inactive position and in a closed position, in an application of the floating shutter element, for an action in direct shutter. FIG. 4 represents a schematic view of an application of the spherical ball according to the invention, to a level sensor, for an indirect closing action. FIGS. 5 and 6 schematically represent a portion of a hydraulic circuit comprising a shutter element according to the invention, respectively in an inactive position and in a closed position, in an application of the gravitational shutter element, for an action in direct shutter.

In known manner, the hydraulic installation shown in the figures is schematically composed of a hydraulic circuit 1 comprising a pipe 2 and a chamber 3 in which is disposed the shutter element 4 or ball, which chamber comprises an arrival A and an output S.

In general, according to the application examples shown in FIGS. 2, 3 and 5, 6, the shut-off element is a submerged spherical ball consisting of an elastomeric outer shell 10 coating a hard core and full 11 resistant to pressure and intended to seal or release the seat of a circular opening 5 of the installation 1, in the manner of a valve.

According to the examples shown in FIGS. 2 and 3, this is an application of the invention to a floating closure system, whereas according to the application examples shown in FIGS. is a gravity shutter system.

With regard to FIG. 4, it is a variant of application of a floating element according to the invention, but acting indirectly on a closure system via a mechanical control system 6 connected to the level 7 of a liquid 8 in a tank 9 to be controlled, whereas according to the previous examples, it was a direct action in shutter on an opening.

According to a general characteristic of the invention, the core 11 of the spherical ball 4 is made from an aggregation of aggregates, of organic or mineral origin, and a binder, of predetermined density according to the choice of components, for floating or gravity filling.

According to a first exemplary embodiment (FIGS. 5 and 6), the core 11 is obtained from a mixture of gravel, sand, cement and water forming a concrete whose density is greater than 1000 k / m ³ , to obtain a closure ball 4 acting closing in the circuit 1, by gravity.

According to an alternative embodiment (FIGS.

4), the core 11 is obtained from a mixture of aggregates whose density is less than

1000 k / m ³ , to obtain a closure ball 4 acting in closing in the circuit 1, by floating.

This density can vary between 350 and 800 k / m ³ , whereas ordinary concrete is

2,400 k / m ³ . According to a practical example of embodiment, the mixture constituting the core 11 is a lightweight concrete whose density is less than 1000 k / m ³ , by incorporating a foaming product creating pores for obtaining an aerated concrete or cell.

This may be for example a mixture of sand, lime, cement, water and an expansion agent for creating the cells filling with air.

Advantageously, the pores which are created naturally favor the attachment of the rubber of the outer casing 10, without additional intervention on the surface appearance of the solid core 11, contrary to what was proposed by the prior art.

Alternatively, the mixture constituting the core 11 is a light concrete whose density is less than 1000 k / m ³ , by incorporation of light loads, to obtain an aerated or cellular concrete.

In all cases, the percentages of the components vary according to the density to be obtained.

Whether it is, according to the above examples, a traditional concrete, higher density ai, or a cellular or aerated concrete, density less than 1, the interest of the invention is to present a core 11 of selected density, having a surface appearance sufficiently rough to allow the attachment of the rubber coating 10, while offering a very high resistance to pressure, advantages to which must be added the ease of production.

It should be noted that, although the so-called cellular or alveolar concrete is known in itself and appreciated in the construction, for its qualities of resistance and lightness, it was not so obvious to reach the new application, object of the present invention, to floats for hydraulic circuits.

Therefore, this is a vanquished prejudice to solve a problem in a completely different field, for a result also completely different from the traditional use of this material.

With regard to the outer casing 10 of elastomer, it may be for example an ethylene-

Propylene Diene Monomer (EPDM), a Nitrite-

Butadiene-Rubber (NBR) or again

Fluoroelastomer (FKM).

It may also be a silicone.

In all cases, the coating 10 will be deposited on the core 11 by overmolding or by soaking in a polyurethane or a latex.

Claims

1. Shut-off element for regulating the circulation of a fluid in a hydraulic installation (1), of the type consisting of a submerged spherical ball (4), comprising an outer casing (10) made of elastomer coating a hard core and solid (11), resistant to pressure and intended to close or release, directly or indirectly, an opening of the installation, characterized in that the core (11) of the spherical ball (4) is made from a aggregation of aggregates, of organic or inorganic origin, and a binder, of density greater than or less than 1000 k / m ³ , predetermined according to the choice of components, in order to obtain a sealing ball acting either in closing in the circuit by gravity, or opening in the circuit by floating.

Closure element according to Claim 1, characterized in that the core (11) is obtained from a mixture of gravel, sand, cement and water forming a concrete whose density is greater than 1000 k / m ³ , in order to obtain a closing ball (4) acting in closing in the circuit (1), by gravity.

Closure element according to Claim 1, characterized in that the core (11) is obtained from a mixture of aggregates with a density of less than 1000 k / m ^{3 in} order to obtain a ball shutter (4) acting in closure in the circuit (1), by floating.

4. Shutter element according to claim 3, characterized in that the mixture constituting the core

(11) is a lightweight concrete whose density is less than 1000 k / m ³ , by incorporating a foaming product creating pores for obtaining aerated or cellular concrete.

Closure element according to Claim 3, characterized in that the mixture constituting the core (11) is a lightweight concrete whose density is less than 1000 k / m ³ , by incorporation of light loads, for the obtaining an aerated or cellular concrete.

6. sealing member according to one of claims 1 to 5, characterized in that the envelope (10) of elastomer is made of ethylene-propylene-Diene-Monomer (EPDM).

Closure element according to one of Claims 1 to 5, characterized in that the elastomer casing is made of Nitrite-Butadiene-Rubber (NBR).

8. shutter element according to one of claims 1 to 5, characterized in that the casing (10) of elastomer is made of fluoroelastomer (FKM).