FR2725516A1 - Helical flowmeter - Google Patents

Abstract

The flowmeter has a body (1) supporting a detector (2) inside of which is fixed a measuring assembly comprising a cartridge (3) in the axis of which is mounted a rotating helix (4). The body has a internal projection (21) and the cartridge is fixed to the body by a sleeve (14) fitted with an external edge (16) so as to press against the projection. The sleeve (14) has another internal edge (15) which presses against one of the ends of the measuring assembly. A clamping device (20,21) is provided between the cartridge and the other end of the measuring assembly. The internal projection and the edges are circular.

Description

"Propeller flow meter"
The flowmeter of the invention comprises a body supporting a sensor and inside which is fixed a measuring assembly comprising a sleeve in the axis of which a propeller is rotatably mounted, flowmeter characterized in that the body has at least an internal projection and in that the socket of the measuring assembly is fixed in the body using a sleeve provided with an external rim to rest on the internal projection of the body and an internal rim to rest on one end of the measuring assembly, a clamping means being provided between the sleeve and the other end of the measuring assembly.

 According to another characteristic of the invention, the internal projection of the body is circular.

 According to another characteristic of the invention, the internal projection of the body comprises three projections distributed on the internal periphery of the body, one of which includes the sensor.

 According to another characteristic of the invention, the external rim of the sleeve comprises at least one adjustment screw coming to bear on the internal projection of the body for adjusting the axial position of the measuring assembly in the body.

 The invention is shown by way of nonlimiting example in the single attached drawing which is an axial sectional view of an embodiment of the flow meter.

 The present invention therefore aims to achieve a flowmeter comprising a measuring assembly removably arranged inside a body and can therefore be the subject of a standard exchange. This standard exchange can be done quickly and precisely inside a body which, being completely independent during the manufacture of the measuring assembly, can be obtained directly from the foundry and will receive a measuring assembly machined with precision.

 In the attached drawing, the turbine comprises a body 1 comprising a central tubular portion at the ends of which flanges 11 and 12 are joined, the upstream flange 11 being provided with a tranquilizer 13.

 This body 1 is, in the example shown, provided with three radial bores inside which are fixed three cylindrical housings 2 so that the internal end 21 of these housings protrudes inside the body 1.

 One of these boxes 2 contains a coil (not shown) and constitutes the sensor of the flow meter. Inside this body 1 is disposed, in a removable manner, a measuring assembly comprising a cylindrical sleeve 3 with circular section. Inside this bushing is mounted for rotation a propeller 4 provided with a magnet 5 at the periphery of one of its blades. This magnet is arranged in the axis of the coil placed in one of the housings 2 in order to induce in this coil a voltage constituting a signal whose frequency is proportional to the speed of rotation of the propeller and, therefore, to the flow rate of the fluid flowing in the turbine.

 The propeller is mounted for rotation, by pivots 6 and 7, in the cores 8 and 9 of two cross-pieces 10 and 11 held in longitudinal slots at the ends of the bush 6.

 The three internal projections 2, arranged radially in the same plane and distributed regularly approximately 120 ′ from each other, are surrounded by two rings 12 and 13 which can therefore be considered to be part of the internal projections 21. These rings 12 and 13 are held on either side of the internal projections 21 by screws 23, for example three in number distributed regularly and passing between the projections 21.

 The positioning of the measuring assembly inside the body 1 is obtained by means of a sleeve 14 of circular section, the internal diameter of which corresponds substantially to the external diameter of the sleeve 3. This sleeve 14 has at the 'one of its ends a circular internal rim 15 which comes to bear, at one end of the measuring assembly, on the end of the cross-pieces 10. The other end of this sleeve is provided with an external rim 16 intended to come to bear on the ring 13, by means of screws 17, for example three in number, screwed inside the holes 18 provided in the additional thickness formed by the flange 16. The adjustment by screwing of these screw 17 resting on the ring 13 makes it possible to precisely adjust the axial orientation of the measuring assembly in the body 1.

 The circular additional thickness formed by the external rim 16 also includes tapped holes 19 angularly offset from the holes 18 and into which screws 20 are screwed, for example three in number, arranged through an inlet ring 21, the internal edge 22 is profiled in a curved manner in order to facilitate the guiding of the fluid.

 To ensure the mounting of the measuring assembly inside the body 1 of the turbine; it suffices to fix the rings 12 and 13 on either side of the housings 2 using the screws 23, to place the measuring assembly inside the sleeve 14, to introduce the assembly into the body 1 so that the sleeve is disposed inside the internal projections 2n, to tighten the screws 17 to adjust the axial position of the measuring assembly, then to put in place the inlet ring 21 by tightening it against the end of the spider 11 using the screws 20.

Claims (7)

 1) Propeller flowmeter comprising a body (1) supporting a sensor (2) and inside which is fixed a measuring assembly comprising a sleeve (3) in the axis of which is mounted a propeller (4) , flow meter characterized in that the body (1) has at least one internal projection (21) and in that the sleeve (3) of the measuring assembly is fixed in the body by means of a sleeve (14 ) provided with an external rim (16) to rest on the internal projection of the body and an internal rim (15) to rest on one end of the measuring assembly, a clamping means (20, 21) being provided between the sleeve and the other end of the measuring assembly.  2) Flow meter according to claim 1, characterized in that the internal projection (2 "12, 13) of the body is circular.  3) Flow meter according to any one of the preceding claims, characterized in that the internal projection of the body comprises three projections (21) distributed on the internal periphery of the body, one of which includes the sensor.  4) Flow meter according to any one of the preceding claims, characterized in that the internal flange (15) and / or the external flange (16) of the sleeve are circular.  5) Flow meter according to any one of the preceding claims, characterized in that the external flange (16) of the sleeve (14) comprises at least one adjustment screw (17) bearing on the internal projection of the body for adjustment the axial position of the measuring assembly in the body.  6) Flow meter according to claims 2 and 3, characterized in that two rings (12 and 13) are arranged laterally on either side of the three internal projections (21) to form the circular internal projection.  7) Flow meter according to any one of the preceding claims, characterized in that the clamping means is constituted by a ring (21), the internal edge of which is profiled, fixed by screws (20) to the sleeve (14) and coming to bear on one end of the measuring assembly.