KR0120009B1 - Power failure protection apparatus of a sewing machine - Google Patents

Abstract

An apparatus for protecting a power failure of sewing machine is provided to protect a driving device of the sewing machine. The power failure protection apparatus comprises: a voltage detecting part(10) for detecting a reset level of logic to compare a reference value according to a control voltage(Vcc); a converter part(15) for generating switching signals to convert the reset signal of the voltage detecting part(10); and a switching part(20) for controling ON/OFF of a driving power in accordance with the output signal of the converter part(15).

Description

Outage protection device of sewing machine

1 is a schematic circuit diagram of an electrostatic protection device according to an embodiment of the present invention.

2 is a detailed circuit diagram of a voltage monitoring unit applied to the electrostatic protection device of the present invention.

* Explanation of symbols for main parts of the drawings

10: voltage monitoring unit 15: converter unit

20: switching unit 30: voltage divider circuit

31: reference voltage section 32: first comparator

33: Andgate 34: Cylist

35: second comparator

The present invention relates to an electrostatic protection device of a sewing machine, and more particularly, by monitoring the state of the control power supply and protecting the drive element and erroneously by first shutting off the drive power before the control power is turned off according to the level of the control signal. It relates to an electrostatic protection device of the sewing machine that can prevent the early.

In the conventional sewing machine, since there is no specific application technology that prevents damage to the driving element and related circuit elements by cutting off the driving unit power before the control power is turned off, the sewing power supply of the sewing machine to the control power supply (± 5V, ± 12V) during power failure or power off. When the main control unit is in the normal operating region (about ≥ 3V to 4.5V in the case of 5V), the driving unit of the main control unit causes abnormal operation due to the influence of power supply noise, and thus, the driving device and the related circuit device are easily damaged.

Accordingly, the present invention is to solve the above-mentioned problems of the prior art, the object of which is to prevent the driving element protection and malfunction early by first shutting off the power of the drive unit before the control power is turned off when the machine is out of power or power off. It is to provide an electrostatic protection device of the sewing machine.

In order to achieve the above object, the present invention compares a control voltage (Vcc) with a reference voltage to determine a reset level of logic, and a reset signal of logic output from the voltage monitor (10). Is converted to a switching signal in accordance with an output signal of the converter unit 15 and the converter unit 15 connected to the voltage monitoring unit 10 and the control power supply (Vcc) ON / OFF (ON / OFF) The switch unit 20 performs an operation.

At this time, between the output terminal of the converter unit 15 and the input terminal of the switching unit 20 may include a series circuit of a diode (D) and a resistor and a capacitor.

In addition, the voltage monitoring unit 10 includes a sensing terminal SEN through which a control voltage Vcc of a control power supply is introduced and at least two resistors in series to divide the control voltage Vcc into a sensing voltage. The voltage dividing circuit 30, a reference voltage unit 31 for generating a reference voltage for comparison with the sensing voltage level of the voltage dividing circuit 10, the sensing voltage of the voltage dividing circuit 30 and the reference voltage unit 31. The first comparator 32 which receives the sensing voltage and the reference voltage as two input terminals, and the output signal and the external input signal RSN of the first comparator 32 to determine the reset level by comparing the reference voltages of AND gate 33 (AND GATE) that accepts the two input terminals, the output of the AND gate 33 to the gate (G) terminal, the input power supply (Vcc) to the anode (A) terminal Thyristor 34, the reference voltage of the reference voltage section 10 and the thyristor 34 A second comparator 35 having an input terminal connected to the anode A terminal of the thyristor 34 for comparing all inputs, and having a reference voltage of the reference voltage unit 31 introduced into an input signal, and the second comparator 35 And a corresponding pair of transistors connected to the output terminal of the second comparator 35 for output control of the reset signal of the positive and negative parts according to the output level of the comparator 35.

In addition, the voltage monitoring unit 10 is a capacitor C ₁ and C connected to the input terminal of the first comparator 32 and the cathode (K) terminal of the thyristor 34 in order to delay a predetermined signal for a predetermined time. ₂ additionally included.

Hereinafter, a preferred embodiment of the electrostatic protection device of the sewing machine according to the present invention based on the accompanying drawings in detail as follows.

1 is a schematic circuit diagram of an electrostatic protection device according to an embodiment of the present invention, and FIG. 2 is a detailed circuit diagram of a voltage monitoring unit applied to the electrostatic protection device of the present invention.

That is, as shown in FIG. 1, the control voltage Vcc is connected to be applied to the sensing terminal SEN of the voltage monitoring unit 10 and to be applied to the resistor R ₁ and the converter unit 15. In addition, an output side reset terminal RST of the voltage monitoring unit 10 is connected to an input side of the converter unit 15, and a series circuit of a diode D and a resistor R ₂ is connected to an output terminal of the converter unit 15. And a condenser (C ₃ ) and a switching unit are configured.

In addition, as shown in FIG. 2, the voltage monitoring unit 10 has a circuit configuration as follows.

The control voltage Vcc applied to the sensing terminal SEN is divided into a sensing voltage by a voltage dividing circuit 30 composed of two resistors R ₃ and R ₄ , and the sensing voltage is applied to an input terminal of the first comparator 32. . In addition, the reference voltage unit 31 is provided to set the reference value from the input power source Vcc, and the reference voltage derived from the reference voltage unit 31 is delayed for a predetermined time by the capacitor C ₁ and then the first comparator 32 The reference voltage section 31, the capacitor C1 and the first comparator 32 are interconnected so as to be applied to another input terminal.

In addition, an output of the first comparator 32 is connected to an input terminal of an AND gate 33 together with an external input signal RSN. An output of the thyristor 34 is an output of the thyristor 34. The input power Vcc is applied to the anode A terminal of the thyristor 34, and the output of the AND gate 34 is delayed for a predetermined time to the cathode K terminal of the thyristor 34. Capacitor C ₂ is connected. Again, the anode side of the thyristor 34 is connected to the input terminal of the second comparator 35 together with the reference voltage of the reference voltage section 31, and the output of the second comparator 35 is connected to the bases of the transistors Q ₁ and Q ₂ . And B) terminals. Accordingly, reset terminals RST + and RST- corresponding to the transistors Q ₁ and Q ₂ are output.

Referring to the operation of the device of the present invention configured as described above are as follows.

That is, as shown in FIGS. 1 and 2, the voltage monitoring unit 10 connected to the control voltage Vcc side divides the voltage through the resistors R ₃ and R ₄ of the voltage dividing circuit 30 when the control voltage is applied to the sensing voltage. This sensing voltage outputs a low level when the control voltage sensed in comparison with the reference voltage of the reference voltage unit 31 in the first comparator 32 is less than or equal to the reference voltage value.

Accordingly, even if the external input signal RSN is input at a high level, the AND gate 32 outputs a low level when one of the inputs is at a low level, thereby keeping the thyristor 34 off. The transistor Q ₂ through the second comparator 35 is turned on to output a low level reset signal RST-.

Therefore, at this time, as shown in FIG. 1, the low-level reset signal RST- is converted into the high level in the converter unit 15 to turn off the switching unit 20, thereby driving the driving voltage toward the driver unit (not shown). It will not be supplied.

Similarly to the above condition, when the sensing voltage becomes lower than the reference voltage value even when the power is off, the reset signal is set to a low state so that the driving voltage is not supplied to the driving unit.

On the other hand, when the sensed control voltage of the voltage monitoring unit 10 is equal to or greater than the reference voltage value, the first comparator 32 outputs a high level, and the AND gate 32 also outputs a high level to the thyristor 34. ) Is turned on.

Accordingly, after being delayed by the capacitor C ₂ for a predetermined time, the second comparator 35 turns on the transistor Q ₁ to output a high level reset signal RST +.

As such, when the control power is established during power failure or power-off through the voltage monitoring unit 10, the level values of the reset terminals are processed by the converter unit 15 to turn on or off the power supply switching unit 20 according to each signal. It turns off and controls the power supply of a drive part.

As described above, the present invention senses by a monitoring unit that monitors the control power, and the sensing voltage is configured to signal the reset level values in the converter unit on / off according to the magnitude of the reference voltage. As a result, the driving unit power supply is preferentially shut off before the control power supply is turned off, so that driving device protection and malfunction can be prevented early.

Claims (3)

The voltage monitoring unit 10 determines a reset level of logic by comparing a control voltage Vcc and a reference voltage, and the voltage monitoring unit to convert a reset signal of logic output from the voltage monitoring unit 10 into a switching signal. The converter unit 15 connected to the unit 10 and the control power supply (Vcc), and the switching unit 20 for performing the ON / OFF operation in accordance with the output signal of the converter unit 15 In the electrostatic protection device of a sewing machine comprising, the voltage monitoring unit 10, the sensing terminal (SEN) to which the control voltage (Vcc) of the control power supply; A division circuit 30 having at least two resistors connected in series to divide the control voltage Vcc into a sensing voltage; A reference voltage unit 31 for generating a reference voltage for comparison with the sensing voltage level of the division circuit 10; A first comparator 32 for receiving the sensing voltage and the reference voltage as two input terminals to determine a reset level by comparing the sensing voltage of the voltage dividing circuit 30 with the reference voltage of the reference voltage unit 31; An AND gate 33 for receiving the output signal of the first comparator 32 and the external input signal RSN as two input terminals; A thyristor (34) for introducing the output of the AND gate (33) to the gate (G) terminal and the input power supply (Vcc) to the anode (A) terminal; In order to compare the reference voltage of the reference voltage unit 10 and the energization input of the thyristor 34, an input terminal connected to the anode A terminal of the thyristor 34 is provided, and the reference voltage of the reference voltage unit 31 is provided. A second comparator 35 introduced into the input signal; And positive (+) according to the output level of the second comparator 35. And a corresponding pair of transistors connected to the output terminal of the second comparator (35) for output control of the negative reset signal. The method of claim 1, wherein the voltage monitoring unit 10 further comprises a capacitor C ₁ and C ₂ connected to the input terminal of the first comparator 32 and the cathode (K) terminal of the thyristor (34). Electrostatic protection device of the sewing machine characterized in that. The apparatus of claim 1, further comprising a series circuit of a diode (D) and a resistor and a capacitor between an output terminal of the converter unit and an input terminal of the switching unit.