JPS6224794Y2 - - Google Patents

Description

[Detailed Description of the Invention] This invention relates to an improvement of a photoelectric signal generating device that generates a signal by detecting a rotor slit provided in a signal rotor.

An example of a photoelectric signal generating device of this kind that is conventionally known and used in an engine ignition power distribution device will be explained with reference to FIGS. 1 to 4. In the figure, 1 is a housing fixed to an engine (not shown, the same applies hereinafter), 2 is a rotating shaft rotatably supported by this housing 1 and rotates in synchronization with the engine, and 3 is this rotating shaft 2. A disc-shaped signal rotor 3a is positioned through a blank 4 and fixed by a screw 5, and a first rotor 3a is formed near the outer periphery of the signal rotor 3 in accordance with the crank angle of the engine. Lotus slit 3b is a second rotor slit formed in the signal rotor 3 corresponding to a predetermined piston position in each cylinder of the engine; 6 is a light-receiving side holder made of synthetic resin fixed to the housing 1; , 7 is a first light-receiving element held in the light-receiving holder 6 so as to face the first lotus slit 3a, and 8 is a first light-receiving element held in the light-receiving holder 6 so as to face the second lotus slit 3b. The second light-receiving element 9, which is held in such a way that it can be
A synthetic resin light-emitting side holder fixed by
10 is a first light emitting element held in the light emitting side holder 9 so as to face the first light receiving element 7 through the first rotor slit 3a; A second light-emitting element 12 is held to face the second light-receiving element 8 through the second rotor slit 3b, and 12 indicates the signal between the first light-receiving element 7 and the second light-receiving element 8. A light-receiving side plate fixed to the light-receiving side holder 6 so as to be interposed between the rotor 3 and the first light-receiving element 7 is provided with the first
A first light-receiving side slit 12a formed in a shape similar to that of the lotus slit 3a, and a second slit 12a formed in a shape similar to that of the second lotus slit 3b in a portion facing the second light-receiving element 8. 2 light receiving side slits 12b. Reference numeral 12c denotes a circular guide hole provided in the light-receiving side plate 12, and is set to a size corresponding to the diameter of the pin 14 so that a pin 14, which will be described later, is inserted therethrough. 13
is a light-emitting side plate fixed to the light-emitting side holder 9 so as to be interposed between the first light-emitting element 10 and the second light-emitting element 11 and the signal rotor 3; a first light-emitting side slit 13a formed in a shape similar to the first lotus slit 3a in a portion facing the above;
A portion facing the second light emitting element 11 has a second light emitting side slit 13b formed in a shape similar to the second lotus slit 3b. 13c is a guide hole formed in the light emitting side plate to correspond to the guide hole 12c, and 14 is a metal pin protruding from the light emitting side holder 9, which connects the guide hole 12c and the guide hole 13c. and positioned so that the first light-receiving slit 12a and the second light-receiving slit 12b face the first light-emitting slit 13a and the second light-emitting slit 13b, respectively. are doing. 1
5 is the first light receiving element 7 and the second light receiving element 8
This is an electronic circuit that shapes the waveform of the signal generated by the pulse signal and converts it into a pulse signal.

In the structure configured as described above, when the engine rotates, the signal rotor 3 is
rotates in synchronization with the engine, and the first light emitting element 10
and the first light-receiving element 7, and the light rays between the second light-emitting element 11 and the second light-receiving element 8 are
The electronic circuit 15 generates a pulse signal corresponding to the crank angle of the engine and a predetermined piston position in each cylinder of the engine.

However, the first light emitting side slit 13a and the first
In order to position the light-receiving side slit 12a, the second light-emitting side slit 13b, and the second light-receiving side slit 12b directly opposite each other, a high-precision pin 14, a guide hole 13c, and a guide hole 1 are required.
2c is required, and specifically, it is necessary to pursue the accuracy of the diameter of the pin 14, the pitch between the pins 14, the diameter and position of the guide hole 13c and the guide hole 12c, etc., and the photoelectric signal generator is extremely difficult to use. It had the disadvantage of being expensive.

This invention was made in order to eliminate the above-mentioned drawbacks of the conventional device, and its purpose is to provide an inexpensive, highly accurate photoelectric signal generating device.

An embodiment of this invention will be described below with reference to FIGS. 5 to 7. In the figure, 6a is a screw hole provided in the light-receiving side holder 6 so that a screw 16 (described later) is screwed into it, 9a is two pins integrally molded on the light-emitting side holder 9, and 9b is a screw hole in which the screw 16 (described later) can be screwed. a through hole provided in the light emitting side holder 9 so as to be inserted;
Reference numeral 12d denotes a guide hole provided in the light-receiving side plate 12, which includes a fitting hole 12e formed in a perfect circle and having a size similar to the diameter of the pin 9a, and this fitting hole 1.
2e and a slit 12f provided continuously. 12g is the light receiving side plate 12
The short axis is the guide hole provided in the above pin 9.
It is formed of a fitting hole 12h formed in an oval shape with a size corresponding to the diameter of a, and a slit 12f provided continuously to the fitting hole 12h. 13d is the guide hole 12d in the light emitting side plate 13.
Guide holes formed in the same shape corresponding to
13g is a guide hole formed in the light emitting side plate 13 in the same shape as the guide hole 12g, and 16 is a screw for fixing the light emitting side holder 9 and the light receiving side holder 6. Descriptions of other symbols are omitted as they are the same as those of the conventional device.

When assembling the device configured as described above, first, the light-receiving side plate 12 and the light-emitting side plate 13 are fixed to the light-receiving side holder 6 and the light-emitting side holder 9, respectively, and then the pins 9a are inserted into the guide holes 12d and the guides. By inserting the light receiving side plate 12 and the light emitting side plate 1 into the hole 12g,
3. That is, the light receiving side holder 6 and the light emitting side holder 9 are positioned and fixed with screws 16. Here, since the fitting holes 12e and 13e are made perfect circles with a size according to the pin diameter, and the fitting holes 12h and 13h are made oval, the spacing between the pins 9a and the It is possible to position the light-receiving side plate 12 and the light-emitting side plate 13 even if there is a positional error.Furthermore, since a slit is provided in each guide hole, even if the diameter of the pin 9a is larger than the predetermined size, it will not fit. Positioning can be done by press-fitting into the matching hole.

As described above, according to this invention, the pin is integrally molded on the light-emitting side holder or the light-receiving side holder, and each of the light-emitting side plate and the light-receiving side plate has a fitting hole that tightly fits one of the pins. We formed a guide hole consisting of a continuous slit, and a guide hole consisting of an elongated hole that fits into the other pin with a margin in the direction between the two pins, and a continuous slit. The assembly accuracy can be improved by absorbing component errors, and a highly accurate photoelectric signal generating device can be obtained at a very low cost.

[Brief explanation of drawings]

Fig. 1 is a sectional view of an engine ignition power distributor showing a conventional device, Fig. 2 is a front view of a signal rotor showing a conventional device, Fig. 3 is a sectional front view showing a conventional device, and Fig. 4 is a sectional view of a conventional device. 5 is a sectional front view showing an embodiment of this invention, FIG. 6 is a sectional plan view showing an embodiment of this invention, and FIG. 7 is a sectional view showing an embodiment of this invention. FIG. In the figure, 3 is the signal rotor, 3a is the first
3b is a second lotus slit, 6 is a light-receiving side holder, 7 is a first light-receiving element, 8
9 is a second light receiving element, 9 is a light emitting side holder, 9a is a pin, 10 is a first light emitting element, 11 is a second light emitting element, 12 is a light receiving side plate, 12a is a first light receiving side slit, 12b is a Second light receiving side slit, 1
2d and 12g are guide holes, 12e and 12
h is a fitting hole, 12f is a slit, 13 is a light emitting side plate, 13a is a first light emitting side slit, 13b
is a second light-emitting side slit, and 13d and 13g are guide holes. In addition, the same symbols in the figures are the same,
or a significant portion.

Claims (1)

[Scope of utility model registration request] A signal rotor having a lotus slit, a light emitting element and a light receiving element arranged to face each other across the rotor slit, a light emitting side holder made of synthetic resin holding the light emitting element, and a light receiving element holding the above light receiving element. a light-receiving side holder made of synthetic resin; a light-emitting side plate provided on the light-emitting side holder so as to be interposed between the light-emitting element and the signal rotor and allowing light from the light-emitting element to pass through in a predetermined pattern; and the above-mentioned signal. A light receiving plate is provided on the light receiving holder to be interposed between the rotor and the light receiving element and allows light from the light emitting element to pass through in a predetermined pattern, and is integrated with the light emitting holder or the light receiving holder. at least two pins that are molded and fit into guide holes formed in the light-emitting side plate and the light-receiving side plate to relatively position the light-emitting side plate and the light-receiving side plate, the guide hole is a guide hole consisting of a fitting hole that tightly fits with the above-mentioned pin on one side and a slit continuously formed in this fitting hole, and a guide hole that fits with the above-mentioned pin on the other side in the direction of compensating for the spacing error between each pin. A photoelectric signal generating device characterized by having a guide hole consisting of an elongated elongated hole and a slit formed continuously in the elongated hole.