FR2610402A1 - Fluid-based proximity detector - Google Patents

Abstract

Fluid-based proximity detector, characterised in that it comprises: - an elongate hollow body 1 with a pressurised fluid inlet 4 at one end and an outlet 5 on the side; - a hollow piston 6 mounted so as to move in translation inside the body 1; and - a striker 10 mounted so as to move in translation in the piston 6, and projecting out of the body so a to abut against the object 15 to be detected, under the action of the pressurised fluid. The piston 6 and the striker 10 are both fitted with a slot 9, 13, and these slots are arranged so as to connect the pressurised fluid inlet 4 with the outlet 5, only when the striker 10 encounters the object 15 to be detected.

Description

Presence detector p fluid
The present invention relates to a presence detector supplied with a pressurized fluid, applicable in particular to the detection of the closing of doors in an elevator.

 We know that in the event of an elevator failure, in particular an electrical failure, it is important to check that all the doors are properly closed before any manual or other restarting. For this purpose, it is necessary to have a detector which is not dependent on the electric current. However, known detectors of this kind are most often very complicated and therefore unreliable.

The main object of the present invention is to remedy this drawback and, to do this, it relates to a presence detector which is essentially characterized in that it comprises
- an elongated hollow body with a pressurized fluid inlet at one end and an outlet on the side
- a hollow piston mounted movable in translation in the body; and
- a striker mounted movable in translation in the piston and projecting outside the body so as to abut against the object to be detected under the action of the fluid under pressure
the piston and the striker being each provided with a light and these lights being arranged so as to put the fluid inlet under pressure in communication with the outlet, only when the striker meets the object to be detected.

 It is thus possible to very simply make a presence detector having a high reliability.

 Preferably, a return spring is provided to automatically return the piston and the striker to their rest position in the absence of pressurized fluid on the inlet.

An embodiment of the invention is described below & by way of example, with reference to the attached drawing in which
- Figure 1 is a simplified sectional view of a presence detector according to the invention; and
- Figures 2 and 3 are views similar to Figure 1, showing the detector in two different operating positions.

 The presence detector shown in FIG. 1 firstly comprises an elongated hollow body 1 provided at one end with a bottom 2 and at the other end with a cover 3. In the bottom 2 is formed an inlet 4 for a pressurized fluid, for example compressed air, while an outlet is provided in 5 on the side of the body 1. Inside the latter is mounted movable in translation a hollow piston 6 subjected to the action a return resort 7 interposed between the cover 3 and a shoulder 8 of the piston. This shoulder determines the stroke of the piston when it abuts either against the body 1 or against the cover 3.

 The hollow piston 6 is moreover provided with a light 9 which is arranged so as to be opposite the compressed air outlet 5, when the piston abuts against the cover 3, as shown for example in FIG. 2 .

 Inside this hollow piston 6 is mounted movable in translation a striker 10 capable of projecting outside and whose corresponding end is provided with an adjusting screw 11. The other end of the striker has a recess central 12 over part of its length and a lumen 13 opening into said recess. This lumen 13 is arranged so as to be substantially perpendicular to the compressed air outlet 5, when the assembly is at rest as in the position shown in FIG. 1.

The interior or rear end of the striker is by wing fitted with a flange 14, the role of which will appear more clearly later and which is designed to fit into a recess of corresponding shape formed on the rear face of the piston 6.

 We will now describe the operation of the presence detector according to the invention, in its particular application to the detection of the closing of the doors of an elevator.

 A cut in the electrical supply to the installation causes for example the automatic opening of a solenoid valve interposed between the detector and a source of static compressed air constituted by a bottle or a tank. The detector is then supplied with compressed air by its input 4.

Of course, the detector could also be supplied with hydraulics, provided that a generator is provided, or else hydropneumatics.

 Under the action of compressed air applied to the inlet 4, the piston 6 and the striker 10, which are at rest in the position shown in Figure 1, are driven forward inside the body fixed 1. Two cases can then arise.

 Suppose first of all that the object to be detected, constituted here by the closed door of an elevator or by a member integral with this door, is in the position shown at 15 in FIG. 2, that is to say a few millimeters from the end of the adjusting screw 11. In this case, the striker 10 immediately abuts against the object 15 to be detected and practically does not move, while the piston 6 moves against the action exerted by the return spring 7, until it abuts against the cover 3 by its shoulder 8. We are then in the position shown in FIG. 2, position in which the light 9 of the piston and the light 13 of the striker are opposite the outlet 5 of the body 1. The compressed air inlet 4 is thus in communication with the outlet 5 via the recess 12 of the striker, so that one collects at 5 pneumatic information indicating the presence of the object to be detected.

 If the object to be detected is not in place, the piston 6 moves in the same way as above, but the striker 10 moves integrally with it via the flange 14, since it encounters no obstacle . We are then in the position shown in FIG. 3. In this position, the light 9 of the piston is indeed opposite the outlet 5, but not the light 13 of the striker, so that there is no communication between the inlet and outlet of compressed air. As a result, no pneumatic information appears in 5.

 When the compressed air ceases to be applied to the inlet 4, the detector automatically returns to its rest position in FIG. 1 under the action of the return spring 7, the striker 10 then being driven directly by the piston 6, by means of its flange 14. Of course, the detector could also be brought back to its rest position by a pneumatic, hydraulic or hydropneumatic action.

 In the case of an elevator, the detectors of the various landing doors will advantageously be connected in series, so that the assembly only delivers pneumatic information if all the doors without exception are properly closed. It goes without saying, however, that the present invention is not limited to this particular application. Indeed, the detector according to the invention could also be advantageously used to detect a bad positioning of mechanical parts on manufacturing tools, in particular on machines with automatic loading, in order to avoid a deterioration of the part or the material during of start-up, and more generally each time a safety lock must be provided before any movement or return to service.

 It goes without saying, moreover, that many modifications could be made to this detector, without going beyond the ambit of the present invention. In particular, the seal could be ensured by O-rings & levre or others, instead of being achieved by the precision of the assembly play as in the example shown and described.

Claims (2)

REVERDICATIONS  1. Fluid presence detector, characterized in that it comprises  - an elongated hollow body (1) with an inlet (4) of pressurized fluid at one end and an outlet (5) on the side - a hollow piston (6) mounted movable in translation in the body (1) this and  - a striker (10) mounted movable in translation in the piston (6) and projecting from the outside of the body so as to abut against the object P detected (15) under the action of the fluid under pressure  the piston (6) and the striker (10) being each provided with a light (9, 13) and these lights being arranged so as to put the inlet (4) of fluid under pressure in communication with the outlet (5) , only when the striker (10) meets the object to be detected (15).  2. Presence detector according to claim 1, characterized in that a return spring (7) is provided for automatically returning the zen piston and the striker (10) to their rest position in the absence of pressurized fluid on the entrance (4).