FR2601479A1 - Device for recording the number of revolutions of an irregularly turning shaft of a mechanical measuring assembly - Google Patents

Abstract

This device comprises a sensor 8 consisting of a permanent magnet, a commutation contact consisting of a Reed tube 5, a force generator consisting of a fixed permanent magnet 7, the like poles S, S of the sensor and of the force magnet being turned towards each other, the coupling element 3 comprising a stop 3, 2 which limits the accelerated rotational movement of the sensor support 4. Application to the production of water meters with remote electrical indication of consumption.

Description

Device for recording the number of turns of an irregularly rotating axis of a mechanical measuring equipment.

 The subject of the present invention is a device for recording the number of revolutions of an irregularly rotating axis of a mechanical measuring equipment, comprising a coupling element rotating around the axis and having a cam, a sensor support mounted in rotation with another cam which cooperates with the first cam, as well as a sensor rotating at the same time, a fixed mounted switching contact which switches at each revolution and a force generator which prevents the rotational movement of the front sensor support an external dead center located beyond a certain angle of rotation and accelerates it after passing this dead center.

 We know for example a device of this type by DE-C 932 524. I1 comprises a disc mounted in free rotation which is maintained in a rest position by a spring, spiral or-blade. A drive which acts on the disc by a cam and rotates the disc against the action of the spring, is connected to the axis which makes it possible to count the number of revolutions. As soon as the disc and the spring have reached their external dead center, the disc continues to rotate in an accelerated manner under the effect of the spring and thus actuates for a short time an electrical contact, by means of a switching cam. This arrangement means that the contact produces exactly one defined pulse in time at each turn, thus avoiding slow contact which wears out the contacts, increases current consumption and overloads the electrical interpretation circuits, as well as 'a multiple contact, for example following mechanical tolerances of the moving element.

 In order to minimize the reaction of the device to the measuring equipment, the spring force should be as low as possible. However, the system consisting of the spring and the disc is subjected to oscillations, so that the disc oscillates for a certain time around the internal dead center before coming to a stop, the amplitude of this oscillation being all the greater as the force of the spring is weak.

This is why we always observe an undesirable multiple contact.

 If we try to act on the system subject to oscillations by also reducing the mass of the disc, we reduce all the friction inside the system.

The oscillations of the disc are even less damped.

 If one tries to increase friction by additional means, for example by using a leaf spring along which a corresponding plane cam slides, this has the effect of increasing again the undesirable reaction on the crew of measured.

 The object of the present invention is to improve the device of the aforementioned type so as to allow secure contact of a fixed duration without multiple contacts, with a reduced reaction on the measuring equipment. This object is achieved with the device according to the invention in that the sensor is a permanent magnet, the switching contact a Reed tube, in that the force generator is a fixed permanent magnet, the similar poles of the sensor magnet and of the force magnet being directed towards each other, and in that there is provided on the coupling element a stop rotating at the same time which limits the accelerated rotational movement of the sensor support.

 Using permanent magnets to block or speed up the sensor holder has a number of advantages. First of all, the reaction on the measuring equipment is weak since the forces produced by the magnets decrease very quickly when the distance increases. For the same reason, the tendency of the sensor holder to oscillate is reduced. The forces of the permanent magnet act without friction, which also keeps the reaction exerted on the measuring equipment low. The remaining tendency to oscillate is completely eliminated by the rotary stop which limits the accelerated rotational movement of the sensor support. It is thus possible to use contacts as sensitive as a Reed tube which delivers only a single pulse of duration and amplitude determined at each rotation of the axis.

 In order to extend the duration of the contact pulse without affecting the other characteristics of the device, the sensor magnet of a preferred variant of the invention is a sector magnet, radially magnetized.

 To obtain a defined rest position of the sensor support, another magnetically active element, for example a steel rod or a third permanent magnet, is arranged fixed opposite the force magnet in another variant of the invention.

 According to a preferred embodiment of the invention, the coupling element and the sensor support are discs which are mounted on the same axis, that is to say one on the other, one at the above each other or one inside the other. Such a construction requires little base area.

Various other characteristics of the invention will emerge from the following detailed description of an embodiment of the invention shown by way of non-limiting example, in the accompanying drawing, in which
Figure 1 is a cross-sectional view of a detail of a movable assembly of a water consumption meter and
Figure 2 is a top view of the measurement equipment of Figure 1.

Figure 1 shows a cross section of the dial 1 of a measuring equipment of a water consumption meter. To indicate the consumption measured, at least one of the axes 2 of the measurement equipment crosses the dial 1. On the upper face is generally a needle which moves relative to a measurement scale. The speed of rotation of axis 2 of the needle is adjusted by means of a reduction gear according to the values of the scale
Axis 2 of the measuring equipment is equipped with a device for recording the number of revolutions, by means of electrical pulses. This is a disc-shaped sensor holder 4 which carries a permanent magnet serving as a sensor 8. In addition to the sensor holder 4. there is a permanent magnet serving as a force generator 7. Next to the holder sensor 4 and in the area of action of the sensor magnet 8, a Reed tube 5 is mounted. The sensor support 4 is fixed to the axis 2 by means of a transverse pin 2.1.

 As soon as the axis 2 of the measuring equipment and the coupling disc 3 assembled to it rotate, their cams 3.1 4.1 engage one another, so that the disc 4 of the sensor also rotates .

 The sensor magnet 8 and the force magnet 7 are arranged so that their similar poles S. S are directed towards each other, The repulsion which ensues. blocks the rotational movement of the sensor support disk 4 when it approaches the fixed force magnet 7. As soon as the sensor magnet 8 has passed the point of maximum approach, the force of repulsion of the magnet accelerates the support disk 4 of the sensor, which releases the cams 3.1: 4.1 and causes the sensor disk 4 rotates quickly freely and the sensor magnet 8 actuates the contacts of the Reed tube 5.

 To prevent the support disc 4 of the sensor from oscillating on each side of the internal rest point, there is provided on the coupling disc 3 another cam 3.2 serving as a stop. The cam 4.1 placed on the underside of the support disc 4 of the sensor moves towards the stop. which immediately brakes the disc 4.

The stop cam can also be arranged not on the upper face of the coupling disc 3, but on the lower face of the support disc 4 of the sensor.

 If it happens that axis 2 turns upside down, for example in the event of a failure or other. the sensor support disc 4 also rotates in the opposite direction.

In that case. the permanent magnet 8 passes slowly and irregularly in front of the Reed tube 5, the contacts of which remain closed much longer than normal.

This is how the failure can be detected.

 In front of the force magnet 7. that is to say in the region of the point of rest of the support disc 4 of the sensor. another permanent magnet 6 is placed.

This attracts the sensor magnet 8 and thus fixes the support disk 4 of the sensor in this position, until the cam 3.1 of the coupling disk 3 drives the sensor support disk 4.

 Instead of a permanent magnet 6, a simple steel rod can also be used.

 2 shows a top view of the device of Figure 1. The sensor magnet 8 is a sector magnet which is magnetized radially over a sector 8.1 which extends over an angle alpha. By varying the magnetized sector 8.1, one can act on the duration during which the Reed 5 tube is in service, without modifying the other parameters of the device.

Claims (6)

 1. Device for recording the number of revolutions of an axis (2) irregularly rotating of a mechanical measuring equipment, comprising a coupling element (3) rotating with the axis (2) and having a cam (3.1) , a sensor support (4) rotatably mounted with another cam (4.1) which cooperates with the first cam (3.1), as well as a sensor (8) rotating at the same time, a switching contact (5) mounted fixed which switches at each turn and a force generator (7) which prevents the rotational movement of the sensor support (4) before an external dead center located beyond a certain angle of rotation, and accelerates it after exceeding this neutral point, characterized in that the sensor (8) is a permanent magnet, the switching contact (5) a reed tube, in that the force generator (7) is a fixed permanent magnet, similar poles (S, S) of the sensor magnet (8) and the force magnet (7) being directed towards each other, and in that there is provided on the coupling element (3) a stop (3.2) rotating at the same time which limits the accelerated rotational movement of the sensor support (4).  2. Device according to claim 1, characterized in that the sensor magnet (8) is a sector magnet (8.1) magnetized radially.  3. Device according to claim 1 or 2, characterized in that another magnetically active element (6), for example a steel rod or a third permanent magnet is disposed fixed opposite the force magnet (7).  4. Device according to one of claims 1 to 3, characterized in that the coupling element (3) and the sensor support (4) are discs.  5. Device according to claim 4, characterized in that the discs are mounted coaxially  6. Use of a device according to claims 1 to 5 for water meters with remote electrical indication of consumption.