JPH0625060Y2 - Electronic switch - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (b) Field of the Invention The present invention relates to an electronic switch capable of selectively switching various timer operation modes.

(B) Conventional technology and its problems In conventional electronic switches such as photoelectric switches and proximity switches, on delay, off delay, on
There is a configuration in which various timer operation modes such as off-delay, one-shot operation, non-delay (no delay) can be selectively switched. In this type of electronic switch, in order to secure the delay time, a time constant circuit consisting of a capacitor and a resistor and a timer circuit consisting of a transistor are used.
The signal detected by the detection circuit is input to the timer circuit, and the signal of a predetermined timer operation mode is obtained through the timer circuit. Therefore, even in the non-delay operation mode, the first constant may occur due to the CR constant of the timer circuit.
As shown in the figure, the output signal B had some delay times T1 and T2 at the rise and fall with respect to the input signal A. However, in order to perform a precise output operation, it is desirable that the delay times T1 and T2 be 0 in the non-delay operation mode.

(C) Object of the Invention In view of the above, an object of the invention is to provide an electronic switch capable of reducing the delay time to substantially zero in the non-delay operation mode.

(D) Configuration and effect of the invention In order to achieve the above object, the electronic switch of the invention has a detection circuit (2) for outputting a pulse signal and a first switching means (S4, S2, S1), A timer circuit (3) for delaying the pulse signal output by the detection circuit for a predetermined time to output a delayed pulse signal when the first switching means is in a connected state, and a delayed pulse signal output by the timer circuit The detection circuit outputs a first drive circuit (5) that has a second switching means (Tr ₁ ) that performs a switching operation in synchronization, and drives a load (Ry) by the operation of the second switching means. in synchronization with a pulse signal to have a third switching means for switching operation (Tr _2), a second driving circuit for driving the load by the operation of the third switching means The second was a part of the connection state or disconnected state of the connection of the drive circuit, a fourth switching means for controlling the force non-operation state of the second drive circuit when the cut-off state (S8)
And a means (4) for switching and connecting any one of the first switching means of the timer circuit.

In this electronic switch, in the timer circuit, when the first switching means sets the mode other than the non-delay mode, the pulse signal from the detection circuit is delayed by the timer circuit, and the delayed signal is the first drive circuit. The second switching means is operated to drive the load.

On the other hand, when the fourth switching means is connected and the non-delay mode is set, the third switching means operates in response to the pulse from the detection circuit, and the load is immediately driven by the second drive circuit. . That is, according to this electronic switch, in the non-delay mode, the load can be driven with the delay time of zero without being affected by the capacitor and the resistance of the timer circuit.

(E) Embodiment Hereinafter, the invention will be described in detail with reference to an embodiment. In the embodiment, a case where the present invention is applied to a photoelectric switch will be described.

FIG. 2 is a circuit diagram of a photoelectric switch showing an embodiment of the present invention. In the figure, 1 is an oscillation circuit, which is a pulse lighting circuit of the light emitting element L. A detection circuit 2 is composed of a phototransistor PT (which may be a photodiode) and an amplification circuit. When the detected object 6 arrives, the light from the light emitting element L is reflected by the detected object 6,
The phototransistor PT receives light. An analog timer circuit 3 receives a signal from the detection circuit 2 and performs a timer operation. The timer circuit 3 includes a capacitor and a resistor for controlling the timer time, a logic circuit for logically executing operations of various timer operation modes such as on-delay, off-delay, on / off-delay, and one-shot operation, and a transistor. Has been. Reference numeral 4 is a rotary switch (timer operation mode setting device) for switching and setting the timer operation mode of the timer circuit 3. The rotary switch 4 is S1, S2, S4, S8.
The contact switches S1 and S are provided by moving the steps by rotating the rotary switch 4.
2, S4 and S8 are turned on / off to set a predetermined timer operation mode. Note that one ends of the contact switches S1, S2, S4, and S8 are commonly connected to G
It is connected to the ND potential.

An output circuit 5 is composed of a transistor Tr1 and a relay Ry, and the output end of the timer circuit 3 is connected to the base of the transistor Tr1 via a resistor R2.
The emitter of the transistor Tr1 is connected to GND, and the relay Ry is connected between the collector and the power supply V. A switching circuit including a transistor Tr2 is provided between the output end of the detection circuit 2 and the output circuit 5. That is, the output end of the detection circuit 2 is connected to the base of the transistor Tr2 via the resistor R1, the emitter of the transistor Tr2 is connected to one end of the contact switch S8 on the (+) side, and the collector is the transistor of the output circuit 5. It is connected to the connection point between the collector of Tr1 and the relay Ry.

Next, the operation of the photoelectric switch of the above embodiment will be described.

First, when the normal timer output is required, the contact switch S8 of the rotary switch 4 is turned off. Then, a timer signal in a mode corresponding to the combination of ON / OFF of the contact switches S1, S2, S4 is output from the output end of the timer circuit 3, that is, point d.

Now, for example, the contact switches S1, S2, S4 are also off, and in this case, the on-delay mode is set. When the object 6 to be detected arrives and the light emitted from the light emitting element L is reflected by the object 6 to be detected and is received by the phototransistor PT, the detection circuit 2 outputs a detection signal and its output end, that is, a. The signal waveform at the point changes from "L" (low) to "H" (high) as shown in FIG. Since the contact switch S8 is off (see FIG. 3c), the transistor Tr2 is off, and therefore the signal at the point a is directly applied to the input end (point b) of the timer circuit 3 (FIG. 3b). reference). The timer circuit 3 receives this signal,
Based on the setting state of the rotary switch 4, a signal which changes from "L" to "H" is delayed from the signal at point a by a time T and is output from its output terminal, that is, point d (see FIG. 3d). . While the "H" signal at the point d is input to the transistor Tr1, the transistor Tr1 is turned on and the relay Ry
An on-current flows through. Therefore, the collector of the transistor Tr1, that is, the point e becomes "L" (see FIG. 3e). When the on-delay mode is set by the rotary switch 4 in this way, after the detection signal of the detection circuit 2, that is, the signal at the point a changes from "L" to "H", the output circuit 5 turns on after a lapse of time T. To do.

Next, when it is desired to output the output signal of the detection circuit 2 without delay, the rotary switch 4 is set to the non-delay mode. By this setting, the contact switch S8 is closed (see FIG. 4c). While the detected object 6 does not arrive and the output of the detection circuit 2 is not obtained, as shown in FIG.
The points b and b are both "L", and the output end of the timer circuit 3, that is, the point d is also "L". Therefore, the transistor Tr1 of the output circuit 5 is also off, and the point e is "H". There is.

When the object 6 to be detected arrives and the phototransistor PT receives the reflected light, the detection circuit 2 outputs a detection signal, and a
The waveform of the point changes from "L" to "H". Contact switch S8
Since the transistor Tr2 is turned on, the transistor Tr2 is turned on, so that the potential at the point b rises only about the base-emitter potential VF of the transistor Tr2 and does not reach the input threshold potential VO of the timer circuit 3. , The timer circuit 3 does not operate. However, when the transistor Tr2 is turned on, the point e becomes "L", and an on-current flows through the relay Ry.

When the phototransistor PT no longer receives the reflected light, the output terminal (point a) of the detection circuit 2 changes from "H" to "L", the transistor Tr2 turns off again, and the waveform at point e also changes from "L" to "H". ", And the relay Ry also turns off. In this way, the non-delay mode is set, and the contact switch S
When 8 is turned on, depending on the presence or absence of the output signal of the detection circuit 2,
The transistor Tr2 is turned on / off, and the output signal of the detection circuit 2 is led to the output circuit 5 with the delay time of turning on / off the transistor Tr2. One transistor on /
Since the off delay time is relatively small, it is possible to perform a non-delay operation with almost no delay.

It should be noted that the above embodiment has been described for the case of being applied to the photoelectric switch, but this invention is applied to what if the timer operation mode is switched and the timer operation mode includes the non-delay operation mode. It is also applicable to proximity switches and other electronic switches.

[Brief description of drawings]

FIG. 1 is a diagram showing input / output waveforms for explaining problems of a conventional electronic switch, FIG. 2 is a circuit diagram of a photoelectric switch showing an embodiment of the present invention, and FIG. FIG. 4 is a signal waveform time chart of each point for explaining the operation when the on-delay mode is set, and FIG. 4 is a signal waveform time chart of each point for explaining the operation of the same photoelectric switch when the non-delay mode is set. 2: Detection circuit, 3: Timer circuit, 4: Rotary switch, 5: Output circuit, Tr2: Transistor (switching circuit).

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor, Sumio Horiike, Tateishi Electric Co., Ltd., No. 10, Hanazono Dodo-cho, Ukyo-ku, Kyoto City, Kyoto Prefecture (56) References JP-A-49-76456 (JP, A) 55-144440 (JP, U) Actually opened Sho 57-182947 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A detection circuit (2) for outputting a pulse signal, and a first switching means (S4, S2, S1),
A timer circuit (3) for delaying the pulse signal output by the detection circuit for a predetermined time to output a delayed pulse signal when the first switching means is in a connected state, and a delayed pulse signal output by the timer circuit Second switching means (T
r ₁ ), and a third drive circuit (5) that drives the load (Ry) by the operation of the second switching means and a third drive circuit that performs a switching operation in synchronization with the pulse signal output from the detection circuit. A second drive circuit which has a switching means (Tr ₂ ) and drives the load by the operation of the third switching means, and a part of the connection of the second drive circuit is put into a connection state or a disconnection state, and cut off. Fourth switching means (S8) for forcibly controlling the second drive circuit to be in the non-operating state in the state
And a means (4) for switching and connecting any one of the first switching means of the timer circuit.