JP3906495B2 - Timer device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a timer device used in a sequence circuit or the like.
[0002]
[Prior art]
An example of a conventional timer device is shown in FIG. In the figure, 1a and 1b are input terminals of an AC power source, 2 is a rectifier circuit comprising a diode bridge, 3 is a smoothing capacitor constituting a smoothing circuit, 4 is an instantaneous output relay having an instantaneous contact 4a which is a contact , 5 Is a first transistor that turns on and energizes the drive coil of the instantaneous output relay 4 when the AC power is applied to the input terminals 1a and 1b, and closes the instantaneous contact 4a, and 6 is a timed contact 6a that is a b contact. time limit output relay having, 7 ₀ starts time limiting operation when the input terminal 1a, the DC voltage rectified smoothed in response to the application of AC power to 1b has been applied, it has passed a predetermined time Sometimes, a time limit circuit for outputting a time-up signal T as a time-limit signal, 8 is turned on by the time-up signal T and energizes the drive coil of the time-limit output relay 6 to open the time contact 6a. That is the second transistor.
[0003]
When the second transistor 8 is turned on, the diode 30 is conducted and the first transistor 5 is turned off. At this time, both the output relays 4 and 6 are driven via the second transistor 8. When the power supply is turned off and the application of the AC power supply is stopped, the driving of the output relays 4 and 6 is stopped, the instantaneous contact 4a is opened and returned, and the timed contact 6a is closed and returned.
[0004]
[Problems to be solved by the invention]
Such a timer device is used in a sequence circuit, for example, as shown in FIG.
[0005]
In the figure, reference numeral 32 denotes a power source, and the instantaneous contact 4a, the time limit contact 6a and the timer device 33 are connected in series with the power source 32, and a load 34 is connected to the input terminals 1a and 1b of the timer device 33. However, a self-return type snap switch 35 is connected to the instantaneous contact 4a in parallel.
[0006]
This sequence circuit is a circuit that supplies power to the load 34 for a predetermined time after the snap switch 35 is turned on. That is, when the snap switch 35 is turned on, power is applied to the input terminals 1a and 1b of the timer device 33 through the closed timed contact 6a, whereby the first transistor 5 described above is turned on and instantaneous output is performed. The drive coil of the relay 4 is energized to close the instantaneous contact 4a. Even when the snap switch 35 is released, power is supplied to the timer device 33 and the load 34 via the instantaneous contact 4a and the time limit contact 6a.
[0007]
Then, when a certain time has elapsed, the second transistor 8 is turned on by the above-described time-up signal T, and the drive coil of the time limit output relay 6 is energized, so that the time limit contact 6a is opened, and the load 34 and timer device 33 Stop power supply. As a result, energization of the drive coils of the output relays 4 and 6 is stopped, and the instantaneous contact 4a and the time limit contact 6a are opened and closed, respectively.
[0008]
However, the contact return time may differ for each contact. In the circuit of FIG. 3, when the time for closing and closing the timed contact 6a is shorter than the time for opening and closing the instantaneous contact 4a, The following problems arise.
[0009]
That is, before the instantaneous contact 4a opens and returns, the time limit contact 6a returns to the closed state, so that power is applied to the timer device 33 again, and the instantaneous contact 4a is held closed and the load 34 is again fed for a certain period of time. That is, in this case, the instantaneous contact 4a cannot be opened and returned, and the power supply to the load 34 is turned on and off at regular intervals by opening and closing of the time limit contact 6a. However, there is a drawback that it is not possible to perform the power feeding once.
[0010]
Further, in general, in the timer device, the above-described instantaneous output relay 4 and timed output relay 6 may be operated respectively twice when the timer device is started and when a preset time has elapsed. In some cases, it is not necessary to operate the instantaneous output relay, but rather two time-limited output relays are required, and a timer device that can easily cope with such a case is desired.
[0011]
The present invention has been made in view of the technical problems as described above, and its main purpose is to return the instantaneous output relay earlier than the time-limited output relay when the application of power is stopped. In addition, another object is to enable the instantaneous output relay to be used as a time-limited output relay.
[0012]
[Means for Solving the Problems]
The present invention is configured as follows in order to achieve the above-described object.
[0013]
That is, the timer device of the present invention is connected to the AC power source in series via the instantaneous a contact and the time limit b contact, and is operated by operating a self-returning switch parallel to the instantaneous a contact. A timer device to which the AC power is supplied via a time-b contact, which is driven by a rectifier circuit that rectifies AC from the AC power source, a smoothing circuit that smoothes the rectifier circuit output, and the smoothing circuit output. a time limit circuit for outputting a time-limit signal to open the Delayed contact b by performing a time limit operation Te, the time limit output relay having a b-contact and limit the time of driving coil at the limit, the limit time in response to an input of the limit time signal a time limit output relay drive element for opening the Delayed contact b by energizing the driving coil, the output current from the smoothing circuit to the limit at circuit, before the limit time circuit is reset A current detection circuit that outputs a detection signal for closing the instantaneous a-contact when the output current value is higher than the output current value when the output of the time limit signal is stopped; and instantaneous output relay having an instantaneous driving coil, wherein in response to an input of the detection signal by supplying an electric current to the instantaneous driving coil and an instantaneous output relay drive element for closing the momentary contact a, the Delayed drive coil and the instantaneous driving coil, which is connected in parallel to the smoothing circuit, the current detection circuit, the output current, when it is less than the detected current value, the instantaneous output relay to stop the output of the previous SL detection signal The energization of the instantaneous drive coil by the drive element is stopped, the instantaneous a contact is closed, and the time limit b relay of the time limit output relay is closed and restored by stopping the output of the time limit signal of the time limit circuit. It is intended to quickly open return than. The current detection circuit is inserted into an output current line between the smoothing circuit and the time limit circuit, and a detection element for detecting the output current, and the output current is reduced below the detection current value A current response element that stops outputting the detection signal to the instantaneous output relay drive element in response to the detection element output may be provided.
[0014]
Further, the timer device of the present invention may be configured such that the instantaneous output relay can be operated as a timed output relay so that the detection signal or the timed signal can be switched and given to the instantaneous output relay drive element.
[0015]
According to the timer device of the present invention, since the detection signal of the current detection circuit is given to the instantaneous output relay drive element, when the power supply is turned off and the output current from the smoothing circuit to the time limit circuit decreases, the time limit output relay The instantaneous output relay can be returned by detecting the output current before returning. That is, the instantaneous output relay can be returned before the time limit output relay.
[0016]
Further, according to the timer device of the present invention, since either the time limit signal or the detection signal of the current detection circuit can be switched to the instantaneous output relay drive element, the instantaneous output relay is connected to the same time limit output relay as the time limit output relay. It can be operated.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0018]
FIG. 1 is a block diagram of a timer device according to one embodiment of the present invention, and parts corresponding to those of the conventional example of FIG.
[0019]
In the figure, 1a and 1b are input terminals of an AC power source, 2 is a rectifier circuit comprising a diode bridge, 3 is a smoothing capacitor constituting a smoothing circuit, 4 is an instantaneous output relay having an instantaneous contact 4a, and 5 is an instantaneous output relay. First transistor as an instantaneous output relay driving element for driving 4 as described later, 6 is a timed output relay having a timed contact 6a, 7 is rectified and smoothed in response to application of AC power to the input terminals 1a and 1b A time limit circuit that starts a time limit operation when a predetermined DC voltage is applied and outputs a time up signal T as a time limit signal when a preset time has elapsed, 8 is turned on by the time up signal T This is a second transistor as a timed output relay drive element for energizing the drive coil of the timed output relay 6 to open the timed contact 6a. It is basically the same conventional example of.
[0020]
In this embodiment, in order to allow the instantaneous output relay 4 to function as a time-limited output relay, a switching circuit 12 that can be switched by the user by a switch operation from the outside is provided. The switching circuit 12 includes a switching contact 12a connected to the base of the first transistor 5 that drives the instantaneous output relay 4 via a resistor 14, and a first fixed terminal connected to the time-up signal output unit 7a of the time limit circuit 7. A contact 12b and a second fixed contact 12c connected to the collector of a third transistor 26 of a current detection circuit 25 described later are provided.
[0021]
In this embodiment, when the instantaneous output relay 4 is used as an instantaneous output relay, the switching contact 12a is connected to the second fixed contact 12c side, and when used as a timed output relay, the switching contact 12a. Is switched to the first fixed contact 12b side.
[0022]
As a result, the instantaneous output relay 4 can be used as an instantaneous output relay or a time-limited output relay, as will be described later.
[0023]
In this embodiment, for example, when used in the sequence circuit of FIG. 3 described above, the instantaneous output relay 4 can be returned before the time limit output relay 6. The configuration is as follows.
[0024]
That is, in this embodiment, a current detection circuit 25 that detects an output current flowing from the smoothing capacitor 3 to the time limit circuit 7 is provided, and the first transistor 5 of the instantaneous output relay 4 is connected by the detection output of the current detection circuit 25. The current detection circuit 25 includes a current detection resistor 27 inserted in the output current line from the smoothing capacitor 3 to the time limit circuit 7, and emitters at both ends of the current detection resistor 27. Each base is connected, and its collector includes a third transistor 26 as a current response element connected to the second fixed contact 12c of the switching circuit 12 and a current limiting resistor 28.
[0025]
When the instantaneous output relay 4 is used as an instantaneous output relay, that is, when the switching contact 12a of the switching circuit 12 is connected to the second fixed contact 12c side, the power is turned on to input terminals 1a, When the AC power supply is applied to 1b and the rectified and smoothed DC voltage rises and the output current flowing through the current detection resistor 27 of the current detection circuit 25 exceeds the detection current, the third transistor 26 of the current detection circuit 25 is turned on. As a result, the first transistor 5 is turned on and the drive coil of the instantaneous output relay 4 is energized.
[0026]
On the other hand, when the power supply is turned off and the application of the AC power supply to the input terminals 1a and 1b is stopped, the output voltage of the smoothing capacitor 3 decreases, and the output current flowing through the current detection resistor 27 of the current detection circuit 25 is When the current is less than the detection current, the third transistor 26 of the current detection circuit 25 is turned off, whereby the first transistor 5 is turned off and the energization to the drive coil of the instantaneous output relay 4 is cut off and returned.
[0027]
Therefore, by setting the detection current of the current detection circuit 25 to a current higher than the current for returning the time limit output relay 6, that is, the current for resetting the time limit circuit 7, the application of the AC power supply to the input terminals 1a and 1b. When the operation is stopped, the instantaneous output relay 4 can be returned before the time limit output relay 6 is returned.
[0028]
For this reason, the resistance values of the current detection circuit 25 are appropriately set so that the current before the time limit circuit 7 is reset is detected by the current detection resistor 27 and the resistor 10 described later.
[0029]
Furthermore, in the timer device of this embodiment, when the power is turned off, that is, when the application of the AC power to the input terminals 1a and 1b is stopped, the return time until the time limit circuit 7 is reset is allowed. Therefore, a Zener diode 9 is inserted in the power supply line on the positive electrode side of the time limit circuit 7 in order to shorten the time. The resistor 10 connected in series with the Zener diode 9 supplies the smoothed DC voltage to the time limit circuit 7 as a DC voltage of about 5 V together with the current detection resistor 27, the Zener diode 9 and the like. This is a resistor for setting a required detection current value as described above.
[0030]
When an AC power supply is applied to the input terminals 1a and 1b, both ends of the Zener diode 9 are equal to or higher than the Zener voltage, so that a current flows through the Zener diode 9 and is in a conductive state. The output voltage of the smoothing capacitor 3 is applied.
[0031]
On the other hand, when the power supply is turned off and the application of the AC power supply to the input terminals 1a and 1b is stopped, the output voltage of the smoothing capacitor 3 decreases and the voltage across the Zener diode 9 becomes less than the Zener voltage. The current to the time limit circuit 7 is interrupted by the Zener diode 9, the voltage application to the time limit circuit 7 is stopped, and the time limit circuit 7 is reset.
[0032]
In this way, when the DC voltage applied to the time limit circuit 7 becomes equal to or lower than the voltage corresponding to the Zener voltage, the power line to the time limit circuit 7 is immediately shut off by the Zener diode 9, so that the resistor 31 as shown in FIG. compared to the conventional example for applying a DC voltage to the time limit circuit 7 ₀ via a time-limit circuit is able to shorten the recovery time until it is reset.
[0033]
Note that the Zener diode 9 may be omitted as another embodiment of the present invention.
[0034]
Further, in this embodiment, the first and first currents corresponding to the drive currents for driving the instantaneous output relay 4 and the timed output relay 6 respectively are supplied as dummy when the instantaneous output relay 4 and the timed output relay 6 are not driven. Two dummy current means 23 and 24 are provided in parallel to the smoothing capacitor 3, respectively. Each dummy current means 23, 24 is composed of two dummy resistors 15, 16; 17, 18 in parallel with each other and fourth and fifth transistors 19, 20 connected to the dummy resistors 15, 16; Each is composed.
[0035]
The dummy resistors 15 and 16 of the first dummy current means 23 are energized by turning on the fourth transistor 19 when the instantaneous output relay 4 is not driven, that is, when the first transistor 5 is turned off. A dummy current similar to that at the time of driving the instantaneous output relay 4 flows, and the dummy resistors 17 and 18 of the second dummy current means 24 are not driven, that is, the second transistor 8 is turned off. When the output relays 4 and 6 are driven, the fifth transistor 20 is turned on and energized, and a dummy current similar to that when the time-limited output relay 6 is driven flows. Thus, fluctuations in the potential difference between both ends of the smoothing capacitor 3 when not driven are suppressed.
[0036]
In addition, when the output relays 4 and 6 are not driven, that is, when the first and second transistors 5 and 8 are turned off, the application of the AC power supply to the input terminals 1a and 1b is stopped. The residual charge of the smoothing capacitor 3 can be discharged through the dummy resistors 15, 16; 17, 18, whereby the return time until the time limit circuit 7 is reset is set to each output relay 4, 4. It can be made substantially the same as the return time in the state where 6 is driven.
[0037]
In this embodiment, two dummy resistors 15, 16; 17, 18 are provided corresponding to each output relay 4, 6. However, as another embodiment of the present invention, each output relay 4, 6 is provided in each output relay 4, 6. Correspondingly, one dummy resistor may be provided, or only one output relay 4 or 6 of each output relay 4, 6 may be provided with a dummy current means, and the dummy current means is omitted. May be.
[0038]
For the purpose of displaying the operation of the time limit output relay 6, the LED 21 that is turned on when the time limit output relay 6 is driven is connected in parallel to the drive coil of the time limit output relay 6.
[0039]
The power supply line of the time limit circuit 7 is provided with the LED 11 as described above, and the sixth transistor 22 is connected in parallel with the LED 11, and the sixth transistor 22 is ON / OFF controlled by the time limit circuit 7. In this embodiment, the LED 11 blinks during timing, and the blinking cycle is shortened as the set time approaches.
[0040]
Next, the operation of the timer device having the above configuration will be described.
[0041]
First, the switching contact 12a of the switching circuit 12 is on the second fixed contact 12c side, and the base of the first transistor 5 of the instantaneous output relay 4 is connected to the Zener diode 13 via the resistor 14, and the instantaneous output relay Shall be used as
[0042]
When an AC power supply is applied to the input terminals 1a and 1b, the AC voltage is rectified by the rectifier circuit 2 and smoothed by the smoothing capacitor 3, and the smoothed DC voltage rises, and the current detection resistor 27 of the current detection circuit 25 rises. When the output current flowing in the current becomes equal to or greater than the detection current, the third transistor 26 of the current detection circuit 25 is turned on, whereby the first transistor 5 is turned on and the drive coil of the instantaneous output relay 4 is energized. The instantaneous contact 4a is closed. Further, when the time limit circuit 7 starts the time limit operation due to the rise of the DC voltage and a preset time elapses, the time up signal T is output to the second transistor 8 of the time limit output relay 6, thereby the second transistor 8 is turned on and the drive coil of the time limit output relay 6 is energized, and the time limit contact 6a of the time limit output relay 6 is opened.
[0043]
Next, when the application of the AC power supply to the input terminals 1a and 1b is stopped, the voltage of the smoothing capacitor 3 decreases, and when the output current flowing through the current detection resistor 27 of the current detection circuit 25 becomes less than the detection current, The third transistor 26 of the detection circuit 25 is turned off, whereby the first transistor 5 is turned off, the energization of the drive coil of the instantaneous output relay 4 is cut off, and the instantaneous contact 4a is opened and returned.
[0044]
When the voltage of the smoothing capacitor 3 decreases and the voltage across the zener diode 9 of the power supply line of the time limit circuit 7 becomes less than the zener voltage, the zener diode 9 is cut off and the time limit circuit 7 is reset. Thus, the output of the time-up signal T from the time limit circuit 7 is stopped, the second transistor 8 is turned off, the energization of the drive coil of the time limit output relay 6 is cut off, and the time limit contact 6a is returned to the closed state.
[0045]
Thus, since the output current before the time limit output relay 6 returns is detected by the current detection circuit and the instantaneous output relay 4 is returned, the instantaneous output relay 4 is turned on before the time limit output relay 6 returns. Can be restored.
[0046]
Further, when the DC voltage applied to the time limit circuit 7 becomes less than the voltage corresponding to the Zener voltage, the power line to the time limit circuit 7 is immediately cut off by the Zener diode 9, so that the DC voltage is supplied to the time limit circuit via a resistor. Compared to the conventional example in which the voltage is applied, the recovery time until the time limit circuit is reset can be shortened.
[0047]
Next, when the instantaneous output relay 4 is operated as a time-limited output relay, the switching circuit 12 is switched, the switching contact 12a is switched to the first fixed contact 12b side, and the first transistor 5 of the instantaneous output relay 4 is switched. The base is connected to the time-up signal output unit 7a of the time limit circuit 7.
[0048]
In this state, when AC power is applied to the input terminals 1a and 1b, the power is rectified by the rectifier circuit 2 and smoothed by the smoothing capacitor 3, the smoothed DC voltage rises, and the time limit circuit 7 is timed. When the operation is started and a preset time elapses, the time-up signal T is output to the second transistor 8 of the time limit output relay 6 and the first transistor 5 of the instantaneous output relay 4, thereby the first and second transistors. The transistors 5 and 8 are turned on to energize the drive coils of the timed output relay 6 and the instantaneous output relay 4 to open the timed contact 6a of the timed output relay 6, and the instantaneous contact 4a of the instantaneous output relay 4 is closed. To do.
[0049]
Next, when the application of the AC power supply to the input terminals 1a and 1b is stopped, the voltage of the smoothing capacitor 3 decreases, and when the voltage across the zener diode 9 of the power supply line of the time limit circuit 7 becomes less than the zener voltage, The diode 9 is cut off and the time limit circuit 7 is reset. As a result, the output of the time-up signal T from the time limit circuit 7 is stopped and the first and second transistors 5 and 8 are turned off. 6 and the drive coil of the instantaneous output relay 4 are cut off, the time contact 6a returns to the closed state, and the instantaneous contact 4a returns to the open state.
[0050]
Thus, when the user switches the switching circuit 12 from the outside, the instantaneous output relay 4 can be used as an instantaneous output relay or a timed output relay.
[0051]
【The invention's effect】
As described above, according to the present invention, the detection signal of the current detection circuit is given to the instantaneous output relay drive element. Therefore, when the output current from the smoothing circuit to the time limit circuit decreases when the power is turned off, the time limit output relay is The instantaneous output relay can be returned by detecting the output current before the return, and the instantaneous output relay can be returned before the time limit output relay.
[0052]
Further, according to the timer device of the present invention, since either the time limit signal or the detection signal of the current detection circuit can be switched to the instantaneous output relay drive element, the instantaneous output relay operates as a time limit output relay. Can be made.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a timer device according to an embodiment of the present invention.
FIG. 2 is a block diagram of a conventional timer device.
FIG. 3 is a diagram illustrating an application circuit example of a timer device.
[Explanation of symbols]
1a, 1b Power input terminal 2 Rectifier circuit 3 Smoothing capacitor (smoothing circuit)
4 instantaneous output relay 6 Period when the output relay 7,7 ₀ Period when circuit 5,8 first, second transistor 9 Zener diode 12 switching circuit 15 to 18 the dummy resistor 23, 24 first, second dummy current unit 25 the current detection circuit 26 Third transistor 27 Current detection resistor

Claims (3)

The AC power source is connected to the AC power source through the switch and the time limit b contact by operating a self-reset type switch connected in series to the AC power source via the instantaneous time a contact and the time limit b contact. Is a timer device,
A rectifier circuit that rectifies alternating current from the AC power supply, a smoothing circuit that smoothes the output of the rectifier circuit, and a time limit signal that is driven by the smoothing circuit output and performs a time limit operation to open the time limit b contact A time limit circuit, a time limit output relay having the time limit b contact and a time limit drive coil, a time limit output relay drive element for energizing the time limit drive coil in response to the input of the time limit signal and opening the time limit b contact When the output current from the smoothing circuit to the time limit circuit is equal to or higher than the detected current value higher than the output current value when the time limit circuit is reset and the output of the time limit signal is stopped, the instantaneous a a current detection circuit that outputs a detection signal for closing the contacts, and instantaneous output relay having the instantaneous a contact and instantaneous driving coil, wherein in response to an input of said detection signal And an instantaneous output relay drive element for closing the instantaneous a contact is energized during driving coils,
The timed drive coil and the instantaneous drive coil are connected in parallel to the smoothing circuit;
The current detection circuit, the output current, said when it is smaller than the detected current value, to stop the previous SL energized to stop the output of the detection signal to the instantaneous driving coil by the instantaneous output relay driving element 2. A timer apparatus according to claim 1, wherein the instantaneous a contact is opened and returned faster than the time b contact of the time limit output relay is closed due to the stop of the output of the time signal of the time limit circuit .   The timer device according to claim 1, wherein the instantaneous output relay can be operated as a time limit output relay so that the detection signal or the time limit signal can be switched and given to the instantaneous output relay drive element.   The current detection circuit is inserted into an output current line between the smoothing circuit and the time limit circuit and detects the output current, and the output current is reduced below the detection current value. The timer device according to claim 1, further comprising: a current response element that stops outputting the detection signal to the instantaneous output relay driving element in response to a detection element output.

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