KR101320996B1 - Sensor fault diagnosis system - Google Patents

Abstract

The present invention relates to a failure diagnosis system for a door open / close detection sensor, and more particularly, to a failure diagnosis system for a door open / close detection sensor capable of diagnosing a failure through a self-diagnosis of a reed switch installed in a door of a security system.
The above invention is a magnet; A reed switch opened and closed corresponding to the magnet; Electromagnet for canceling the force of the magnetic field of the magnet for opening and closing the reed switch; Magnetic force control unit for adjusting the magnetic field force of the electromagnet; And a diagnosing unit for canceling the magnetic force of the magnet through the electromagnet to detect whether the reed switch is opened or closed and confirming normality. A display unit displaying opening and closing of the reed switch; And a control unit.

Description

Sensor fault diagnosis system for door open / close detection sensor

The present invention relates to a failure diagnosis system for a door open / close detection sensor, and more particularly, to a failure diagnosis system for a door open / close detection sensor capable of diagnosing a failure through a self-diagnosis of a reed switch installed in a door of a security system.

In general, many places use security systems for security.

In such security systems, door open / close detection sensors are frequently used to detect the open / close of the door.

A typical example of such a conventional door opening and closing detection sensor is shown in FIG. 1.

In Figure 1, the member number 1 indicates a permanent magnet, 2 indicates a reed switch, respectively.

As shown in the drawing, the door open / close detection sensor is composed of a permanent magnet 1 generating a magnetic field respectively installed on the door and the door frame, and a reed switch 2 on / off by the magnetic field of the permanent magnet 1. have.

The reed switch of the door opening and closing detection sensor as described above has two magnetic lead pieces opened in a sealed glass tube by elasticity, and when the magnet approaches, two pieces of lead become magnetic circuits and two lead pieces are pulled out. The power is turned on by closing the contact, and if the magnet is away, the elasticity of the lead piece returns to the open state and the power is turned off.

In such a glass tube, an inert gas is sealed to form stable operation.

However, when the reed switch is used for a long time, the elasticity of the reed pieces may change, so that the user may be in danger when the door opening and closing cannot be detected due to the deformation of the door and the door frame.

In addition, in order to check whether the installed door opening and closing detection sensor is operating normally, people have to go out and check it regularly and manually.

In addition, there is a difficulty in the installation and construction of workers because the characteristics are different depending on the type or structure of the door to install the security system.

Therefore, the present invention has been made to solve the problems of the prior art and the necessity of the development of the technology as described above, self-diagnosis of the reed switch of the door open / close detection sensor used in the security system installed in the door, etc. It is an object of the present invention to provide a failure diagnosis system for a door open and close detection sensor that can be easily determined through.

It is another object of the present invention to provide a failure diagnosis system for a door open / close detection sensor that can facilitate installation and construction of an operator by adjusting the magnetic field force of the electromagnet or changing the polarity according to the magnetic field that changes according to the type or structure of the door.

The present invention to achieve the above object is a magnet; A reed switch opened and closed corresponding to the magnet; Electromagnet for canceling the force of the magnetic field of the magnet for opening and closing the reed switch; Magnetic force control unit for adjusting the magnetic field force of the electromagnet; And a diagnosing unit for canceling the magnetic force of the magnet through the electromagnet to detect whether the reed switch is opened or closed and confirming normality. A display unit displaying opening and closing of the reed switch; It provides a failure diagnosis system for a door opening and closing detection sensor comprising a.

The reed switch provides a failure diagnosis system for a door opening and closing detection sensor, characterized in that consisting of one or two.

The magnetic force control unit provides a failure diagnosis system for the door opening and closing detection sensor, characterized in that for controlling the current supplied to the electromagnet to open the reed switch in response to the force of the magnetic field of the magnet acting on the reed switch. .

The magnetic force control unit provides a failure diagnosis system for the door opening and closing detection sensor further comprises a pole switching unit for switching the output of the magnetic force control unit to change the polarity of the electromagnet.

The magnetic force control unit is composed of a timer consisting of a resistor and a capacitor, an amplification control unit for adjusting the amplification rate consisting of two resistors, amplification unit consisting of an OP amplifier to amplify by the amplification control unit at the time started by the timer Provides a fault diagnosis system for the door opening detection sensor.

As described above, the present invention has the effect of greatly improving the manual work of directly checking the state of the sensor and directly checking the operation state of the sensor by directly dispatching a person to the site where the security system is installed.

In addition, according to the present invention, a large number of sensors mounted in the security system can be conveniently diagnosed remotely to check the operation state of the sensor regularly, and by locating and fixing the defective sensor, the efficiency of the security system can be maximized. Can be.

On the other hand, it is possible to easily change the magnetic force and polarity of the electromagnet according to the position of the magnet spacing and polarity that may occur when the sensor is installed, there is an effect that can easily install the sensor to improve the workability.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

1 is an explanatory diagram showing a conventional door opening and closing detection sensor,
2 is an explanatory diagram showing a failure diagnosis system for a door opening and closing detection sensor according to the present invention;
3 is an explanatory diagram of a state in which two reed switches are installed in a failure diagnosis system for a door opening and closing detection sensor according to the present invention;
4 is an explanatory diagram of a state in which a pole switching unit is installed in a failure diagnosis system for a door opening and closing detection sensor according to the present invention;
5 is a circuit diagram of the magnetic force control unit of the failure diagnosis system for door opening and closing detection sensor according to the present invention;
6 is a voltage graph applied to the electromagnet by the magnetic force control unit of the failure diagnosis system for the door opening and closing detection sensor according to the present invention.

In order to fully understand the present invention, the advantages of the operability of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings showing preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in more detail with reference to specific embodiments of the present invention. The following examples are merely provided to explain the present invention in more detail, whereby the technical scope of the present invention is not limited.

(Example)

2 is an explanatory view showing a failure diagnosis system for a door opening and closing detection sensor according to the present invention.

The fault diagnosis system for the door opening and closing detection sensor of the present invention as shown in this

The magnet 10, the reed switch 20, the electromagnet 30, the magnetic force control unit 40, the diagnosis unit 50, and the display unit 60 are included.

The reed switch 20 is switched on / off according to the magnetic force of the magnet 10 is a permanent magnet.

That is, the reed switch 20 detects the magnetic force of the magnet 10, and if there is a magnetic field, the switch is turned on and the door is closed, and if there is no magnetic field, the switch is turned off and the door is open. ) State.

The electromagnet 30 refers to a magnet in which the current is magnetized and returns to its original state which is not magnetized when the current is stopped. When the magnetization is performed, the force of the magnetic field of the magnet 10 that opens and closes the reed switch 20 is magnetized. Offset

The magnetic force control unit 40 for controlling the magnetic field force of the electromagnet 30 is a portion for adjusting the voltage applied to the electromagnet 30.

That is, when a high voltage is applied to the electromagnet 30, the magnetic force is strong, and when a low voltage is applied to the electromagnet 30, the magnetic force is weakened. Thus, the magnetic force of the electromagnet 30 may be adjusted using the magnetic force control unit 40.

In addition, the diagnosis unit 50 cancels the magnetic force of the magnet 10 through the electromagnet 30 to detect whether the reed switch 20 is opened or closed by the elasticity of the reed switch 20 and the reed switch 20. By checking whether the on / off operation of the normal operation of the door to open and close the door of the security system using the sensor to detect whether the opening and closing of the reed switch (20) through the signal to check and control the status , The power of the magnetic force control unit 40 can be adjusted.

The diagnostic unit 50 is connected to the external control unit to supply power to the electromagnet 30 in accordance with the signal to execute the self-diagnosis in the control unit and check the state of the reed switch 20 to transmit to the control unit.

In addition, the display unit 60 which displays the opening and closing of the reed switch 20 is a portion which displays the switched on or switched off state of the reed switch 20.

For example, when the display unit 60 is an LED (Light Emitting Diode), the LED is connected to the reed switch 20 so that the LED is turned on when the reed switch 20 is switched on and the LED is turned off when the reed switch 20 is switched off. Is turned off, so that the state of the reed switch 20 can be confirmed.

As another example, the display unit 60 may have various forms such as using a device for making a sound.

As shown in FIG. 3, the reed switch 20 may be configured as one or two. When the reed switch 20 is configured as two, the reed switch 20 may be connected in series or in parallel.

The magnetic force control unit 40 controls the current supplied to the electromagnet 30 to open the reed switch 20 in response to the force of the magnetic field of the magnet 10 acting on the reed switch 20. The magnetic force control unit 40 further includes a pole switching unit 70 for switching the output of the magnetic force control unit 40 to change the polarity of the electromagnet 30 as shown in FIG. 4. .

In addition, the magnetic force control unit 40 may be supplied with power from the inside / outside, for example, the power is supplied from the diagnosis unit 50.

In this case, the power supplied from the diagnosis unit 50 may be DC, and the magnetic force adjusting unit 40 includes a timer consisting of a resistor R1 and a capacitor C1 and two resistors R2 and R3 as shown in FIG. 5. Amplification control unit for adjusting the amplification rate consisting of a), an amplification unit consisting of an OP amplifier to amplify the voltage by the amplification control unit at the time started by the timer.

When the magnetic force control unit 40 receives a self-diagnosis execution command from a remote site or the site, the magnetic force control unit 40 may switch the on / off state of the reed switch 20 by adjusting the voltage of the magnetic force control unit 40.

When the magnet 10 is installed near the reed switch 20, the magnet 10 is set high by the magnetic force adjusting part 40 to adjust the magnetic force of the electromagnet 30 in order to switch off the reed switch 20. When voltage is required, and the magnet 10 is installed far from the reed switch 20, a low voltage is applied to the magnetic force adjusting unit 40 to switch the state of the reed switch 21 to the off state.

The sensor used as a security device is in a state in which the door is closed (lead switch is on), and in this case, there may be a state change in the test of opening and closing the door (reed switch on / off) to determine whether the sensor is broken. It can be judged as normal.
In the diagnosis unit 50 of the present invention, the failure of the reed switch 20 can be self-diagnosed.

As shown in the graph of FIG. 6, the height of the voltage supplied to the magnetic force control unit 40 is increased as time t passes by a timer, so that the magnet 10 becomes higher in the reed switch 20. If it is installed far away is diagnosed at a quick time, if it is installed near the reed switch 20 can be self-diagnosis after a certain amount of time.

For example, the process of installing the failure diagnosis system for the door opening and closing detection sensor of the present invention configured as described above will be described in detail.

When the door is installed in the door-government government (the door-government means a part for fixing a door including a door frame, etc., and is not limited to the term), and when installing the equipment necessary for the security system, the door-government government attaches a magnet 10 to the door. The reed switch 20 may be installed on the door, or on the contrary, the reed switch 20 may be installed on the door part and the magnet 10 may be installed on the door.

If it installs in this way, the reed switch part 20 will be in a switched-on state.

If the display unit 60 is an LED, the LED is lit to indicate a switch-on state.

When the security system installer applies power to the electromagnet 30 by the magnetic force adjuster 40, the electromagnet 30 generates an electromagnetic force, and when the electromagnetic force of a certain intensity or more occurs, the reed switch 20 is switched off. The LED, which is the display unit 60, is turned off to indicate a switch-off state.

Then, when the power to the electromagnet 30 is cut off by the magnetic force adjustment unit 40, the reed switch 20 is switched on again, the LED of the display unit 60 is turned on.

Thus, even if the sensor is initially installed without setting the optimum voltage, the voltage value changes with time as shown in the graph of FIG. 6, so that when the magnet 10 and the reed switch 20 are installed close to each other, If the magnet 10 and the reed switch 20 are installed far away, the self-diagnosis is performed at a low level of voltage, and then the test is performed remotely to see if the reed switch 20 operates normally or needs repair due to a failure. You can check it.

The magnetic force control unit 40 can set the time to be charged by the time constant in the capacitor of the capacitor (C1) and is used as an input of the OP amplifier (OPAMP).

The op amp can adjust the amplification degree according to the ratio of two resistors (R2, R3), and the output voltage value is gradually adjusted according to the input voltage (voltage charged in the capacitor).

In FIG. 3, the reed switch 20 includes two reed switches.

This is because by using two reed switches 20, one reed switch is sensed by the magnetic force of the N pole, and the other reed switch is sensed by the magnetic force of the S pole, which is left and right than when one reed switch is used. There is an advantage that can secure more operating range with respect to the direction.

In FIG. 4, the pole switching unit 70 further includes.

The pole switching unit 70 is a part for converting the polarity of the electromagnet. For example, when the polarity of the magnet 10 is changed from left N and right S to left S and right N, the polarity of the electromagnet 30 can be simply changed. This is advantageous in that the reed switch 20 can be used by simply changing the polarity of the electromagnet 30 without changing the polarity of the magnet 10 in order to change the polarity of the pre-installed magnet 10.

10: magnet 20: reed switch
30: electromagnet 40: magnetic control unit
50: diagnostic unit 60: display unit

Claims (5)

magnet;
Reed switches formed of one or two opening and closing corresponding to the magnet;
Electromagnet for canceling the force of the magnetic field of the magnet for opening and closing the reed switch;
A magnetic force control unit controlling a current supplied to the electromagnet to open the reed switch in response to the magnetic field force of the magnet acting on the reed switch by adjusting the magnetic field force of the electromagnet; And
A diagnosis unit for checking whether the on / off operation of the reed switch is normally operated by detecting whether the reed switch is opened or closed by canceling the magnetic force of the magnet through the electromagnet;
A display unit displaying opening and closing of the reed switch;
In the failure diagnosis system for a door opening and closing detection sensor, comprising:
The magnetic force control unit further comprises a pole switching unit for switching the output of the magnetic force control unit to change the polarity of the electromagnet, the amplification control unit for adjusting the amplification rate consisting of a timer consisting of a resistor and a capacitor and two resistors And amplification unit comprising an amplification unit configured to amplify by the amplification control unit at the time point started by.


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