KR100953692B1 - The Recognition Device and Method of Malfunction Counter - Google Patents

Abstract

The present invention relates to a counter malfunction recognizing apparatus and method for recognizing a malfunction due to coil disconnection and short circuit inside an electric counter using a coil.

Counter malfunction recognition apparatus according to the present invention is largely composed of a control unit for controlling the electric counter and the electric counter, the electric counter and the control unit is connected via a cable unit.

The control unit is a microcomputer for controlling the input and output signals of the power supply, the electric counter and arithmetic processing of the signal value, a current driver for supplying a current to the electric counter according to the output signal of the microcomputer, measuring the output voltage of the current driving device By checking the connection state between the electric counter and the microcomputer, and characterized in that the voltage measuring device for recognizing the malfunction due to disconnection and short circuit inside the electric counter.

Counter, malfunction, recognition device

Description

Electric counter malfunction recognition device and its method {The Recognition Device and Method of Malfunction Counter}

The present invention relates to a counter malfunction recognition device for recognizing malfunctions due to coil disconnection and short circuit inside an electric counter using a coil.

In general, an electric counter is a device designed to generate a magnetic field by using a current flow, and to mechanically count the number of operations.

1 is a view showing the structure of the electric counter. The electric counter 10 is largely comprised of an electric coil 11, a contact plate 12, a cam 13, and a counter 14.

When a current flows through the electric coil 11, an electromagnetic force is generated, and when the electromagnetic force is generated, the contact plate 12 moves downward to the electric coil 11 to come into contact with the electric coil 11.

As described above, the contact plate 12 contacts the electric coil 11 when the electromagnetic force is generated, and repeats the vertical movement falling when the electromagnetic force disappears.

The cam 13 serves to transfer the up and down movement of the contact plate 12 to the rotational movement to the counter 14.

That is, the counter 14 increases the number of the counter 14 each time the vertical movement of the contact plate 12.

In general, the counter 14 is a rotary type (rotary) counter is mainly used because the number is increased by the transmission of the rotational movement of the cam (13).

In general, the electric counter 10 is operated using a microcomputer.

Briefly explaining the principle, as shown in FIG. 2, the microcomputer 60 outputs a pulse signal for operating the electric counter 10.

The output controller 20 receiving the pulse signal transmits a current signal for generating an electromagnetic force to the electric coil 11 of the electric counter 10.

In this principle, the number of the electric counter 10 increases as much as the pulse signal output from the microcomputer 60.

As described above, the detailed operation method of the electric counter using the conventional microcomputer can be described through the driving circuit of the electric counter using the microcomputer shown in FIG. 3.

As shown in FIG. 3, the driving circuit includes a main control part 100, a cable part 90, and an electric counter 10.

The main controller 100 is a microcomputer 60 that outputs a control signal for controlling the operation of the power supply 40, the electric counter 10, and the flow of the driving current of the electric counter 10 using the control signal. It is composed of a connector 70 which is a part for connecting the current driving device 30, the main control unit 100 and the electric counter 10 to control.

The connector 70 of the main control part 100 and the electric counter 10 are connected by a cable of the cable part 90.

The cable unit 90 is a cable of a total of three wires, a power cable 91 for connecting the electric counter 10 to the power source 4, and a current cable 92 for connecting the electric counter 10 to the current driving circuit 30. In addition, the electric counter 10 includes a voltage measuring cable 93 connected to the voltage measuring circuit 50 and also connected to the power cable 91.

When the pulse control signal 25 output from the microcomputer 60 is input to the current driving circuit 30, a driving current flows through the electric counter 30 so that the coefficient of the electric counter is pulsed by the pulse control signal 25. It will increase by a number.

The voltage measuring device 50 connected to the electric counter 10 measures the connection state of the electric counter 10 and the power supply 40 with a voltage and inputs the voltage to the microcomputer 60.

If the cable unit 90 is disconnected from the connector 70 and the electric counter 30 does not operate, no voltage is applied to the voltage measuring device 50 so that no voltage is input to the microcomputer.

However, the following problems occur when using the drive circuit of the electric counter using the conventional microcomputer.

First, when the measurement cable 93 is disconnected from the connector 70, the electric counter 10 recognizes that the main controller 100 and the electric counter 10 are not connected, despite the normal operation. do.

Second, the electric coil 11 (see FIG. 1) of the electric counter 10 is internally disconnected, so that the microcomputer 60 operates the electric counter 10 normally even if the count value of the electric counter 10 does not increase. It will be recognized as an incorrect counter.

Third, even though the electric coil 11 of the electric counter 10 is internally short-circuited and the count value of the electric counter 10 does not increase, the microcomputer 60 recognizes that the electric counter 10 is operating normally and thus is incorrect. Will be displayed.

Conventionally, an electric counter using a microcomputer is used in various places in real life such as gas stations of gas stations, bank money machines, and airport baggage management.

As an example, FIG. 4 is a diagram illustrating a structure of an oil lubricator in which a microcomputer is built, and includes an electric counter 10, a display device 15, a microcomputer 60, a pump 72, a flow meter 74, and a detector. 76 and the pipe 78.

The fluid (fuel) moves along the pipe 78 in the direction of the arrow and is moved to the flow meter 74 through the pump 72.

The flow meter 74 uses an impeller (wing van) flow meter which is mainly used to measure the amount of fluid such as petroleum by using the rotational speed of the impeller placed in the vertical direction of the fluid flow in proportion to the flow velocity of the fluid. .

The detector 76 converts the impeller rotation amount of the flow meter 74 to the microcomputer 60, and the microcomputer 60 calculates the rotation amount data as the amount of fluid and displays the value. It is delivered to the device 15 and the electric counter 10, respectively.

Although there is a display device 15 that outputs the amount of fluid as described above, the reason why the electric counter 10 is included in the structure is to recover data when the display device 15, which is an electronic display device, is damaged. This is because it is a stabilizer.

Conventional utility model application 20-1997-006634 [name of the invention: pulse generator and counter of the lubricator] is an example of the lubricator for operating the electric counter using a microcomputer conventionally.

The prior art is a CPU 410, the electric counter 10 as shown in FIG. And a controller 450, a display unit 460, and the like, generating a pulse by a flow rate (fluid) supply detection signal using the CPU 410, and outputting an output signal to the electric counter 10 according to the generated pulse. By increasing the coefficient by transmitting it can prevent the malfunction by the conventional mechanical counter.

However, since there is no device to detect the connection between the electric counter and the CPU from time to time, the count of the electric counter that does not receive the pulse signal of the CPU does not increase, and the value of the wrong coefficient may be transmitted to the controller.

In addition, since the malfunction of the electric counter due to disconnection or short-circuit of the electric coil 11 inside the electric counter 10 cannot be distinguished, it takes a lot of time to identify the cause of the malfunction of the electric counter 10.

The present invention has been proposed to solve the above problems,

First, an electric counter malfunction recognition device is configured to connect an electric counter and a control device to a cable part, and checks the connection state between the control unit and the electric counter, and recognizes malfunction due to disconnection and short circuit inside the electric counter. do.

Second, the purpose of reducing costs by reducing the number of existing cables connecting the control unit and the counter.

The present invention for achieving the above object is composed of an electric counter, a control unit and a cable unit, the control unit is a microcomputer to recognize the counter operation state by processing the power source, input and output signals, the current to the electric counter according to the pulse signal of the microcomputer It consists of a current driving circuit for transmitting, a voltage measuring device for transmitting a signal of the connection state between the electric counter and the microcomputer and a malfunction state due to disconnection and short circuit of the electric counter.

First, by connecting the electric counter and the control device containing a microcomputer, there is an effect that can distinguish the disconnection and short circuit state of the electric coil inside the electric counter, and recognize the malfunction immediately.

Second, it is possible to reduce the cost by connecting the control unit and the electric counter with a minimum cable.

5 is a driving circuit according to an embodiment of the electric counter malfunction recognition device according to the present invention.

The electric counter malfunction recognition device is divided into an electric counter 10 and a control unit 200 for controlling the electric counter 10, and the electric counter 10 and the control unit 200 are connected through a cable unit 900. .

The electric counter 10 is briefly illustrated except for the contact plate 12, the cam 13, and the counter 14 for convenience.

The controller 200 includes a power supply 40, a microcomputer 60, a current driving device 30, a voltage measuring device 500, and a connector 70.

In the embodiment of the present invention, the power supply 40 typically uses 5V / 12V used to drive the IC circuit.

The microcomputer 60 outputs a pulse signal, and the pulse signal of the microcomputer 60 becomes an input signal of the current drive device 30.

In addition, the microcomputer 60 receives an input signal 560 from the voltage measuring device 500.

The microcomputer 60 processes input and output signals to recognize a normal state of the electric counter and a malfunction state due to disconnection or short circuit inside the electric counter.

The current driving device 30 outputs a current capable of driving the electric counter 10 according to the output signal of the microcomputer.

In the embodiment of the present invention, the current drive device 30 uses an npn-transistor (emitter: E-base: B-collector: C), but other components that can adjust the current according to the output signal of the microcomputer are different. Parts can also be used.

 The voltage measuring device 500 transmits the output signal of the current driver 30, that is, the state value according to the output signal 590 according to the driving state of the electric counter 30, to the microcomputer 60. Do it.

As shown in FIG. 6, the internal circuit of the voltage measuring device 500 includes a separation resistor 510, a filter capacitor 520, a filter resistor 530, and a buffer 540.

The separation resistor 510 transfers the state value of the collector C voltage to the buffer 540.

The filter capacitor 520 and the filter resistor 530 serve to reduce external influences, ie noise, generated when the state value of the collector C voltage transmitted through the separation resistor 510 is transmitted to the buffer 70. do.

The buffer 540 temporarily stores the state value in order to solve the difference in transmission speed generated when the state value received from the separation resistor 520 is transmitted to the microcomputer 60.

The connector 70 is a connection device for connecting the control unit 200 to the cable unit 90.

The cable unit 90 is a line connecting each component of the controller 200 and the electric counter 10, and is connected through the connector 70 of the controller 200.

In the present invention, the cable unit 90 is composed of a power cable 95 and a measuring cable 97.

The power cable 95 is a cable connecting the electric counter 10 and the power supply 40,

The measurement cable 97 is a cable for connecting the electric counter 10 to the voltage measuring device 500 and the current drive circuit (30).

As described above, unlike the cable unit 90 (see FIG. 3) consisting of three existing cables, the reason why the cable unit 90 is composed of two in the present invention is as follows.

First, although the conventional voltage measurement cable 93 was provided to check the connection state of the power supply 40 and the electric counter 10, the voltage measurement circuit 50 can only check the connection state of the electric counter ( 10) Malfunction due to internal disconnection or short circuit could not be recognized.

Therefore, except for the voltage measuring cable 93, after connecting the output line of the current drive device 30 and the input line of the voltage measuring device 500, and then connecting the electric counter (10) with the measuring cable (97) 10) Not only the microcomputer 60 can recognize a malfunction due to internal disconnection and short circuit, but also can quickly deal with the distinction between disconnection and short circuit.

Second, by reducing the use of three existing cables to two, there is an effect that can reduce the cost.

The driving principle in the normal state of the electric counter malfunction recognition device according to the present invention is as follows.

The pulse signal 25 output from the microcomputer 60 is input to the input of the current drive device 30, that is, to the base B of the transistor.

When the HIGH signal of the pulse signal 25 is input to the base B due to the characteristics of the npn transistor, a low voltage is output to the collector C, and thus the voltage of the measuring cable 97 is lowered.

At this time, current flows from the power cable 95 to the measurement cable 97. That is, the driving current flows to the electric counter 10 by the current driving device 30.

On the contrary, when the LOW signal of the pulse signal 25 is input to the base B, the voltage of the collector C is high, and therefore the voltage of the measuring cable 97 is high.

At this time, the current flow of the electric counter 10 is suppressed so that the count value of the electric counter 10 increases only once.

In the normal state as described above, the output (590 node) voltage of the current drive measured by the voltage measuring device 500 according to the input voltage of the pulse 25 signal of the current drive device is shown in FIG.

If the electric coil 11 inside the electric counter 10 is shorted, as shown in FIG. 8, even if HIGH is input to the current driving device 30, the state of the output 590 node does not change.

In addition, when the electric coil 11 in the electric counter 10 is disconnected, as shown in FIG. 9, the output 590 node voltage is lowered without changing the pulse 25 signal, thereby recognizing that the electric counter is disconnected. .

10 is a flowchart illustrating a process of recognizing a normal state of an electric counter and a malfunction state due to disconnection and short circuit in the microcomputer 60 according to the present invention.

As shown in FIG. 10, a step of measuring a state value of the input signal 560 is performed.

Next, a step of determining whether the state value of the input signal 560 is LOW is performed (S13).

Next, the step of checking the state value of the current output signal 25 is performed (S14).

Next, by comparing the state values of the input signal 560 and the current output signal 25, when the input signal 560 is LOW, determining whether the output signal 25 is HIGH (S15).

Next, when the state value of the output signal 25 is LOW, it is determined that the disconnection state and displays an alarm (S16).

If the state value of the output signal 25 is HIGH, it is determined that the state is normal and the end of the process is performed (S19).

If the state value of the input signal 560 is HIGH in step S13, the step of checking the state of the current output signal 25 is performed.

Next, by comparing the state values of the current input signal 560 and the current output signal 25, and checks whether the state value of the output signal 25 is LOW when the state value of the input signal 560 is HIGH. Perform the step (S22).

Next, if the state value of the current output signal 25 is HIGH, it is determined that the short-circuit state, and displays the alarm (S26).

If the state value of the current output signal 25 is LOW, it is determined that the normal state and terminates. (S24)

By implementing the electric counter malfunction recognition device according to the present invention as described above it can be used in various real life where the electric counter is used. For example, when applied to the gas station of the gas station (see Fig. 4), it is possible to immediately recognize and cope with the malfunction caused by the disconnection and short circuit inside the electric counter that can occur during oiling, it is possible to reduce the error of the electric counter coefficient value as well By identifying the disconnection or short circuit that causes the malfunction, it can reduce the time required for recovery.

1 is a block diagram of a configuration of an electric counter according to the present invention;

2 is a block diagram of a method of operating an electric counter using a microcomputer according to the present invention.

3 is an electric counter driving circuit diagram using a conventional microcomputer.

Figure 4 is a block diagram of a lubricator using a conventional electric counter.

5 is a driving circuit related to the electric counter malfunction recognition device according to the present invention.

6 is an internal circuit diagram of a voltage measuring device of an electric counter malfunction recognition device according to the present invention;

7 is a voltage input and output graph relating to the normal state of the electric counter malfunction recognition apparatus according to the present invention.

8 is a voltage input and output graph relating to a short circuit state of the electric counter malfunction recognition apparatus according to the present invention.

9 is a voltage input and output graph of the disconnection state of the electric counter malfunction recognition device according to the present invention.

10 is a flowchart illustrating a method of recognizing a malfunction of the electric counter according to the present invention.

11 is a block diagram of the prior art;

Claims (7)

Electric counter; A control device for controlling the electric counter; Consists of a cable unit for connecting the electric counter and the control device, The control device power; A microcomputer which processes input / output signals of an electric counter to recognize a normal state of the electric counter and a malfunction state due to a short circuit or disconnection inside the electric counter; A current driving device connected to the microcomputer and an electric counter to supply current to the electric counter according to an output signal of the microcomputer; A voltage measuring device which reduces noise of an output signal of the current driving device and transmits a state value of the output signal to the microcomputer, The voltage measuring device And an isolation resistor, a filter circuit, and a buffer for reducing noise generated when the output signal of the current driver circuit is transmitted to the microcomputer. delete The method of claim 1, The cable part The power cable connected to the electric counter An electric counter malfunction recognition device, comprising: a measuring cable connecting an electric counter to a voltage measuring device and a current driving device; The method according to claim 1 or 3, The input terminal of the voltage measuring device And a node of an output terminal of a current driving circuit provided inside the controller, and an output terminal of the voltage measuring device is connected to an input terminal of the microcomputer. (a) measuring state values HIGH and LOW of the microcomputer input signal; (b) measuring status values HIGH, LOW of the microcomputer output signal; (c) comparing the state values of the input signal and the output signal of the microcomputer to recognize the malfunction due to the normal state of the electric counter and the disconnection or short circuit state inside the electric counter. Recognition method. The method of claim 5, The normal state and disconnection state recognition method of the electric counter of step (c) When the status value of the input signal of the microcomputer is LOW, it is compared with the output signal of the microcomputer. Recognizing a normal state when the output signal of the microcomputer is HIGH and ending; If the output signal of the microcomputer is LOW, it recognizes the disconnection state and the alarm display method comprising the step of displaying an alarm. The method of claim 5, Recognizing the normal state and short-circuit state of the electric counter of step (c) When the status value of the input signal of the microcomputer is HIGH, it is compared with the output signal of the microcomputer. If the output signal of the microcomputer is LOW, recognizing a normal state and ending; If the output signal of the microcomputer is HIGH, the electric counter malfunction detection method comprising the step of recognizing the disconnection state and displaying an alarm.

Images