FR2665893A1 - Equipment for conditioning fluids whose effects are automatically regulated as a function of the flow rate - Google Patents

Abstract

The objective of the invention is to regulate automatically the effect of a constant field of forces on a moving fluid regardless of the instantaneous flow rate of said fluid. The case of a magnetic water conditioner is examined below. The apparatus is made up of a number of mutually parallel permanent magnets (1) arranged with a position of polarity. A shutter (5) actuated by a spring (6) is placed in the gap (2). In operation, the pressure difference between (3) and (4) pushes back the shutter (5) whose shape, adapted to the shape of the magnets (1), creates 2 lamina flows (8) of variable thickness. Since the distance from the shutter is a function of the flow rate, an automatic regulation of the thickness of the 2 flows (8) is thus obtained. In addition to the treatment of hard water, these regulators can be adopted in applications such as gas distribution, UV radiation, heat exchanges etc.

Description

The present invention relates to a fluid treatment apparatus whose efficiency depends on the thickness of the laminar flows, on the speed and therefore on the instantaneous flow rate of the fluid itself.

The field of application of the present invention is encountered whenever the fluid, for example water, experiences sudden variations in flow (opening or closing of taps, valves or solenoid valves), while the energy generator (calorific, for example) or radiation (UV. for example) QU of magnetic field works constantly by nature
In the case of the magnetic conditioning of 1 lcau called durq 1 the permanent magnets which equip the so-called anti-scale devices deliver a constant field whatever the said of I water which crosses the lines of force. The effect of the magnetic field is therefore simultaneously depending on the said and the flow speed of the water @ the performance of these devices is therefore not yours and can even become zero for small flows.

It is to overcome these difficulties that the regulated apparatus, object of the present invention, has been designed.

The following description relates to an anti-tartar device whose efficiency is constant whatever the instantaneous flow
It includes 3 parts * A) THE BODY:
------------------ Simple envelope of the devices seen in B & C, its dimensions and nature are truncation of the fluid to be conditioned (temperature, chemical composition, pressure, ... )
It is installed very conventionally in the fluid network with possibly a filter upstream of the assembly.

* t. B) THE MAGNET BLOCK:
------------------------------- This is a body made of non-magnetic material comprising a number of cells in which are housed the magnets (1).

In all embodiments, the magnets are arranged head to tail and parallel to each other so that the opposite poles are side by side. According to a first embodiment of 12inventionS the magnets (i) are located in the same plane.

According to a second embodiment of the invention, the axes of the magnets (1) are the generators of a cylinder
In both cases, the air gaps (2) are either equal, or of variable dimensions if one wishes to modulate the flow rate of the fluid and / or the thickness of its laminar flows (8).

In the 2 cases of figure, the conduits (3) & (4) of arrival and departure of the fluid are either equal to the air gaps (2), or of wider section if one wishes to create a venturi effect in the air gap.

* C) THE REGULATION DEVICE:
---------------------------------- It systematically includes a shutter (5) actuated by a spring (6) and moving in a suitable housing (9).

 - The shape of the shutter (5) depends on the shape itself of the magnets (1) and on the shape of the laminar flows (8) that one wishes to obtain. If the magnets (1) are cylindrical, the shutter (5) can be a straight prism; it can be curvilinear if in addition we want the 2 fluxes (8) to envelop the magnets (1) as much as possible.

 - The shape of the housing (9) must be adapted to the movement of the shutter (5); in general it is straight.

 - The spring (6) is either flat, or spiral, or helical; it can operate either under pressure or in extension. But in all cases, a very conventional calibration device must be provided to modulate the movement of the shutter (5) as a function of the pressure of the reed and the order of passage of the fluid in the air gaps (2) , if these are unequal.

According to a first embodiment of the invention, the regulating device is a set of shutters (5) and springs (6), independent of each other, but connected by mounting to each air gap (2).

According to a second embodiment of the invention, the regulation device is a set of autonomous modules each comprising the shutter (5), the elastic group (6) and the housing (9) which can in this case play the part role polar thus channeling the lines of force of the magnetic field.

According to a third embodiment of the invention, the regulation device is summarized in a piece of elastic molded material of suitable shape and which is pressed against the poles of the magnets (1) thus obstructing the air gaps (2) which it releases more or less by deforming under the effect of the fluid pressure.

Claims (9)

 R E V E N D I C A T I O N S  characterized by an automatic positioning of a shutter (5) in the air gap (2), as a function of the flow rate of the fluid to be treated, which has the effect of instantly regulating the thickness and the shape of the laminar flows (8 ) thus created.  in particular in the case of devices intended for treating hard water which comprise permanent magnets <i) generating a constant magnetic field in intensity and shape,  1 - Device making it possible to automatically regulate the effect of a constant force field on a moving fluid whatever the instantaneous flow of said fluid,  2 - Device according to claim 1,  characterized by the + that it is the position of the shutter (5) in its housing (9) which determines and the shape and the thickness of the laminar flows (8) which it generates.  3 - Device according to claim 2 S  characterized by the fact that the position of the shutter (5) is a function of the instantaneous flow rate and the return force of a spring (ó) whose calibration is adjustable as a function of the network pressure and the characteristics of the flows - lami- airs (8) that one wishes to obtain.  4 - Device according to claim 1,  characterized by the fact that the shape of the obturator (5) depends on the + form of the conduit (4) and on the characteristics of the laminar Trlux <8? that we want to obtain at each flow.  5 - Device according to claim 1,  characterized in that, if the magnetic field generator is a series of cylindrical magnets, these are always arranged, either on a plane or on the genera-tions of a cylinder, parallel to each other and in opposition to polarity.  6 - Device according to one of claims 4 or 5,  characterized by the fact that the geometry of the air gaps (2) and of 1 shutter (5) is not systematically identical along the sheet of magnets (1).  7 - Device according to one of claims 2, s or 4  characterized by the fact that the shutter (5), the spring (6) and its calibration system can be grouped in a module serving as a housing (9) and as a pole piece for the magnet (1) fir, en channel the lines of force as best as possible.  8 - Device according to claim 1,  characterized by the fact that the gap closure function (2). is ensured by a molded piece of elastic material which allows the laminar flows (8) to pass as soon as the pressure is sufficient to deform it.  9 - Device according to claim 1, characterized by 1 the fact that 1 the device is intended to treat a fluid other than water.