FI63126C - VAEXLANDE ELEKTRONISK PULSGIVARE - Google Patents

Description

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Sweden-Sweden (SE) 7607UU3-H

(71) Aktiebolaget Ljungmans Verkstäder, Limhaonsvägen 109, S-216 13 Malmö, Sweden-Sweden (SE) (72) Bo Ingvar Leander, Ity-gelsjö, Sweden-Sweden (SE) (7 * 0 Oy Kolster Ab (5 * 0 Variable electronic pulse sensor - Växlande elektronisk pulsgivare

The invention relates to a pulse sensor of the type described in the preamble of claim 1.

Photoelectric pulse sensors are used in many contexts to operate binary counting devices by means of measuring means to indicate measured quantities, such as weight and volume, and to indicate the price of the measured quantity. However, the pulse sensor is mechanically connected to measuring devices, which coupling transmits vibrations from actuators, such as pumps, pistons, motors and inefficient return cells, to the pulse sensor, which vibrations e.g. , which causes incorrect messages on the calculator.

It is an object of the invention to provide a pulse sensor which considerably reduces this problem.

The object is achieved according to the invention by giving to the pulse sensor mentioned at the beginning the features according to one or more claims.

An exemplary embodiment of the invention will be described in more detail below with reference to the accompanying drawing 63126, in which Fig. 1 shows a perforated plate for a pulse sensor according to the invention and Fig. 2 shows a circuit diagram of a pulse sensor.

For simplicity, it is assumed below that the described exemplary embodiment is intended to be connected to a flow meter in a liquid dispensing system with a pump, whereby the pulses of the pulse sensor can be used to indicate the volume and / or price of the liquid dispensed by the pump.

For this purpose, the pulse sensor comprises a circular plate 1 of opaque material, which is fixed by means of a central opening 2 to a shaft (not shown) which can be rotated by means of a flow meter. In a known manner, the plate 1 has a row coaxially identical to its central opening, holes 3a, at a constant distance, which are identical. defined by the columns 3b of the plate and this row is intended to be fitted to a photoelectric sensing system, i.e. between a stationary, light-emitting element and a stationary, light-sensitive element, so that the row of holes is in the same plane as these elements. In the example, the holes 3a are rectangular and taper towards the center of the plate.

According to the invention, the plate 1 has a second row concentrically identical to said row of holes 4a of rectangular and constant distance holes defined by the columns 4b of the plate. In the example shown, the second row of holes is arranged below said first row of holes and its holes 4a are substantially the same width and number in the first row of holes 3a and in the circumferential direction they are narrower than these. The axes of symmetry of each hole 3a and the hole 4a inside are radially located on the same plate radius.

The second row of holes belongs in the same way as the first row of holes to the photoelectric sensing system, i.e. it is adapted to be placed between and in the same plane as the stationary, light-emitting element and the stationary, light-sensitive element.

Figure 2 shows a circuit diagram of a pulse sensor, in which the rows of holes are represented by dashed lines 3 and 4. The light emitting element belonging to these rows of holes, e.g. light emitting diode, has reference numeral 5 and 6, respectively. resistor, generates inputs per se to an emotion-type preamplifier 9, e.g. a SIEMENS TCA 105 with a digital direct output 10 and a digital inverted output 11. The direct output 10, from which the pulses are passed on to the volume / price detector, is connected via a conductor 12 to the light emitting element 5 and the inverted output 11 is connected via a conductor 13 to the light emitting element 6. These light emitting elements 5 and 6 are supplied with current from a DC voltage source 14.

With a photosensitive element 7 which is sensitive to the transition from light to dark, i.e. from hole 3a to column 3b, and with a photosensitive element 8 which is sensitive to transition from dark to light, i.e. from column 4b to hole 4a, the operation of the pulse sensor becomes immediately clear and is as follows:

As the light sweeps from the hole 3a to the column 3b, the direct output 10 moves from state 0 to state 1, whereby this pulse via conductor 12 deactivates the light emitting element 5. The inverted output 11 then moves from state 1 to state 0 and activates the light emitting element 6 via conductor 13. the state and the operating state of the element 6 last until the light emanating from the light emitting element 6 meets the next hole 4a in the lower row of holes - in the direction of rotation of the plate 1 - the states 10 and 11 change from state 1 to state 0 and state 0 to state 1, respectively. is activated and the element 6 becomes inoperative until the light of the light emitting element 5 belonging to the upper row of holes sweeps the hole 3a over the transition point between the column 3b.

It can be immediately seen from the above operation description that after disconnecting the pump, the plate 1 receives oscillations e.g. in the region, i.e. in the angular region defined by the column 4b, without any pulse coming directly to the output 10. Likewise, after the light of the element 6 has swept from the column 4b into the nearest hole 4a, the plate can turn in the angular range, i.e. in the angular range defined by the sides delimiting the hole 3a, without any signal being received directly at the output 10.

The pulse sensor according to the invention is in fact an effective addition to the existing slow return locks, i.e. the locks whose function is to prevent the plate from rotating in the opposite direction to the intended direction and thus to prevent false announcements.

4,631 26

The invention can, of course, be modified in many ways within the scope of the invention. Thus, the plate may be a light-transmitting plate with black spots instead of columns to provide opaque fields. Alternatingly arranged light-transmitting and light-impermeable fields are often referred to, as in the claims, as rasters. Of course, the rasters do not have to be circular or arranged on a circular plate, but they may just as well be strip-shaped or they may be arranged on a strip which is allowed to move past the photoelectric sensing elements.

Claims (3)

63126 A pulse sensor comprising a first raster (3) for moving with respect to a first light emitting member (5) and a photosensitive member (7) cooperating with said member, connected to an electronic circuit (9) having an output (10) ) for digital pulses, characterized in that the second raster (4) is arranged at a distance from the first raster (3) to move relative to the second light emitting element (B) and the second light-sensitive element (Θ) cooperating with this element, and that the electronic circuit (9) ) is shaped such that the passage of light from the second light emitting member (6) through the second raster (4) to the second photosensitive member (Θ) renders the second light emitting member (6) inoperative by a pulse from said output (10) and blocking light transmission to the first photosensitive member to the member (7) from the first light emitting member (5) by means of the first raster (3) to activate the second light emitting member (6) by means of a pulse from said output (10). Pulse sensor according to Claim 1, characterized in that the rasters (3, 4) are concentric and that the first raster (3) has identically identical light-transmitting fields (3a) at a constant distance and the second raster has identically similar light-transmitting fields at a constant distance. (4a) having a smaller circumferential width than the light-transmitting fields of the first raster, the light-transmitting fields of the second raster being located in the middle of the extensions of the light-transmitting fields of the first raster. Pulse sensor according to Claim 1 or 2, characterized in that the first photosensitive element (7) is adapted to react to the transition from light to dark and that the second photosensitive element (Θ) is adapted to react to the transition from dark to light ε · χ.