KR101034644B1 - Contactless type safety electroscope - Google Patents

Abstract

The present invention relates to a non-contact safety detector for non-contact inspection of the safety of the power supply wiring, and more specifically, to ensure accurate safety inspection by accurately detecting whether the wiring is live and the temperature of the wiring connection portion. Of course, the present invention relates to a non-contact safety detector that can notify the worker whether the wiring is live when the worker approaches the wiring and can prevent the safety accident in advance.

To this end, the non-contact safety detector according to the present invention, a non-contact detector for detecting whether the electricity flows in the wiring (wire or not), the non-contact sensing the temperature of the wiring connection portion, the wiring integrally assembled to the detector Display for indicating temperature sensor, wiring detected by detector and temperature of wiring connection detected by wiring temperature sensor, information on whether wire detected by detector is activated, and temperature information detected by wiring temperature sensor And a human body sensor to control the display unit to be displayed on the display unit, and a human body sensor to detect whether the human body approaches or not to transmit the detected human body approach result to the controller.

Wiring, contactless, temperature, live, safety, inspection

Description

Contactless safety detector {Contactless type safety electroscope}

The present invention relates to a non-contact safety detector for non-contact inspection of the safety of the power supply wiring, in particular, by accurately sensing the wiring whether the wiring and the temperature of the wiring connection to enable accurate safety inspection, as well as the operator The present invention relates to a non-contact safety detector that can notify a worker whether or not the wire is live when a lamp approaches the wire and prevent a safety accident.

In general, for the purpose of supplying power to various buildings, facilities, or equipment, terminal blocks are installed in a water / distribution panel or an electric panel, and power is connected to the terminal blocks to supply power. Circuit breakers are installed on the load side to prevent various safety accidents caused by abnormal power supply such as surge.

Furthermore, in recent years, the terminal block, the circuit breaker and the wiring temperature and the live state of the wiring is monitored, and the result of the monitoring is informed to the remote manager or the operator in the field to supply the electrostatic power, Contactless safety detectors are being used to prevent safety accidents.

On the other hand, such a non-contact safety detector 30, as shown in Figure 1, is installed in close proximity to the terminal block 10 or the breaker (not shown) to which the wiring 20 is connected, the live state of the wiring 20 at this time And a detector 31 and a wire temperature sensor 32 to detect a non-contact temperature of the connection portion of the wire 20.

In addition, the live state of the wires detected by the detector 31 and the wire temperature sensor 32 and the temperature of the wire 20 connection unit are transmitted to a remote manager through a communication module (not shown) or provided in the apparatus. It is configured to be displayed through a display unit (not shown).

However, in the conventional non-contact safety detector 30 as described above, since the detector 31 and the wiring temperature sensor 32 are spaced apart from each other, the range S1 and the wiring temperature detected by the detector 31 are detected. The range S2 inspected by the sensor 32 is inevitably different from each other, and thus there is a problem in that a measurement error occurs between the detector 31 and the wiring temperature sensor 32.

In addition, when an operator approaches the wiring 20, by separately detecting whether or not the approach to the operator to prevent the operator from unintentionally approaching and contacting the live wiring 20, or wiring There was a problem in that the operator could not pay more attention to the abnormal power generation due to a poor contact between the lug 21 and the bolt 22 connecting the 20.

The present invention has been proposed to solve the above-described problems, and by accurately detecting whether the wiring is live and the temperature of the wiring connection to ensure accurate safety inspection, of course, when the worker or the like approaches the wiring The present invention relates to a non-contact safety detector that can notify workers of livelines and prevent safety accidents.

To this end, the non-contact safety detector according to the present invention includes a detector for non-contact sensing whether electricity is flowing in the wiring (live or not); A wire temperature sensor which senses a non-contact temperature of a wire connection unit and is integrally assembled to the detector; A display unit which displays whether the wire detected by the detector is live or the temperature of the wire connection unit detected by the wire temperature sensor; And a controller configured to control the display unit to receive live information on the wire detected by the detector and temperature information detected by the wire temperature sensor.

At this time, the detector is made of an annular detection terminal for detecting the induced electromotive force generated around the wiring or the wiring connection when the wire is live, the wiring temperature sensor is the inner center of the detector consisting of the annular detection terminal It is preferably installed in.

In addition, it is preferable to further include a human body detecting sensor for detecting whether the approach of the human body in a non-contact manner and transmits the result of the detected human approach to the control unit.

The controller may further include a logic gate for generating an alarm through the display unit when an approach detection signal of the human body is input through the human body sensor and an active signal of the wiring is input through the detector. It is preferable to include.

In addition, it is preferable to further include an ambient temperature sensor for detecting the temperature of the surrounding environment to transmit the detected ambient temperature information to the controller.

In addition, the control unit receives the ambient temperature information detected by the ambient temperature sensor and a reference value generator for generating a reference value variably according to the temperature change of the ambient environment provided by the generated reference value and the wiring temperature sensor Comparing the temperature; Comprising, and the control unit is preferably received to receive a comparison result of the comparator to control the alarm through the display unit when the temperature provided by the wiring temperature sensor exceeds the reference value.

The apparatus may further include a communication module configured to transmit the temperature information input to the controller and information on whether wires are live or not to an external manager.

According to the non-contact safety detector according to the present invention as described above, by reducing the measurement error between the detector and the wiring temperature sensor it is possible to accurately detect whether the wiring is live or the temperature of the wiring connection. In addition, when an operator or the like approaches the wiring, the worker is notified whether the wiring is live or not, so that a safety accident can be prevented.

Hereinafter, a non-contact safety detector according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

However, in the following description, the monitoring of the temperature and the liveness of the wiring connection portion, and the like, in particular, the monitoring of the portion of the wiring connected to the terminal block as an example, but the present invention is not limited to this, the wiring is connected to the circuit breaker Obviously, parts and other parts can also be monitored.

2 is an installation state diagram showing an installation state of the non-contact safety detector according to the present invention, Figure 3 is a block diagram showing a non-contact safety detector according to the present invention, Figure 4 is a display unit of the non-contact safety detector according to the present invention 5 is a configuration diagram showing a control unit of a non-contact safety detector according to the present invention.

First, as shown in FIG. 2, each wire 20 (that is, a power line or a cable) places a lug 21 provided at its end on a terminal and fastens the bolt 22. Thus, the wiring 20 is connected to each terminal, and the terminal block 10 is composed of a set of terminals as described above, and the non-contact safety detector 100 according to the present invention is a terminal block to which the wiring 20 is connected. It is installed close to (10).

In addition, the non-contact safety detector 100 according to the present invention is wired with the detector 110 and the terminal block 10 to detect whether the wiring 20 is live on the front surface of the body (B) facing the terminal block (10). Wiring temperature sensor 120 for detecting the temperature of the connection portion 20, that is, the connection portion between the lug 21 and the terminal is provided, the rear portion of the body (B) for detecting the access of the operator through the heat response, etc. The human body sensor 130 is installed.

Therefore, the present invention detects whether the wiring 20 is live in a non-contact manner in which the detector 110 does not directly contact the wiring 20, and also the wiring temperature sensor 120 also makes a non-contact wiring. (20) By detecting the temperature of the connecting portion, it is possible to detect an abnormal occurrence due to a poor contact between the lug 21 and the bolt 22 and the like.

In particular, in the related art, the detector 110 and the wiring temperature sensor 120 are assembled in a state in which they are separated from each other by a predetermined distance, and thus the inspection ranges S1 and S2 are different from each other (S1 ≠ S2), and accordingly, a measurement error Compared to the present invention, the detector 110 and the wiring temperature sensor 120 are integrally assembled so that the inspection ranges S1 and S2 are equal to each other (S1 = S2) and accordingly the detector The measurement error due to the installation position of the 110 and the wiring temperature sensor 120 is different from each other.

In addition, the present invention detects the proximity of the worker when the worker approaches the wiring 20 by the human body sensor 130 to inform the worker, and at the same time to inform the worker whether the wiring 20 is live or not safety It helps prevent accidents.

To this end, the non-contact stable detector 110 according to the present invention, as shown in Figure 3, the detector 110 in the front portion of the body (B) facing the wiring 20 (or terminal block 10) side ) Is installed, the wiring temperature sensor 120 is installed at the same position as the detector 110, the human body sensor 130 is installed on the rear portion of the body (B).

The detector 110 is preferably screwed to the body B because the thread is formed on the outer circumferential surface thereof, but other press-fitting or interference fitting methods are also applicable, and the wiring temperature sensor 120 supports a support frame or the like. Through the detector 110 is fixed inside.

In FIG. 3, the detector 110 detects induced electromotive force generated around the wiring 20 or the connection portion of the wiring 20 when electricity flows through the wiring 20 and the wiring 20 is in a live state. Consists of the detection terminal, the wiring temperature sensor 120 is an example of being installed in the inner center of the detector 110 made of the annular detection terminal.

That is, in the present invention, since the wiring temperature sensor 120 is integrally assembled at the inner center of the detector 110, the inspection range S1 by the detector 110 and the inspection range of the wiring temperature sensor 120 ( S2) is integrally assembled to have the same central axis and to inspect the same parts (S1 = S2).

At this time, one side of the detector 110 is connected to the input terminal of the small signal detector 111 through the detection resistor (R), the output terminal of the small signal detector 111 is connected to the input terminal of the signal amplifier 112, The output terminal of the signal amplifier 112 is connected to the input terminal of the controller 170.

Here, the small signal detector 111 detects the induced electromotive force generated when the wiring 20 is live by the detector 110, and thus inputs a weak induced current (ie, a small signal) generated by the detector 110. The state of the wire 20 is sensed.

In addition, the signal amplifier 112 receives the weak signal output from the small signal detector 111, amplifies the signal level suitable for processing in the controller 170, and provides the signal to the controller 170.

Therefore, when a current flows through the wiring 20, the wiring 20 is connected to the control unit 170 through the detector 110, the detection resistor R, the small signal detector 111, and the signal amplifier 112. Informing the live state, and informs the remote manager through the communication module 160 that the power is being supplied through the wiring 20, the wiring 20 to the field worker near the wiring 20 through the display unit 150 Make sure you are alerted.

In addition, the wire temperature sensor 120 is used as an infrared temperature sensor as an example, the light emitting unit 121 and the light receiving unit 122 of the infrared temperature sensor is of the annular detector 110 in an integrated state. It is installed in the inner center. The light receiver 122 of the infrared temperature sensor is connected to the controller 170.

Accordingly, the wiring temperature sensor 120 detects the temperature of the connection portion of the wiring 20, that is, the temperature of the connection portion between the lug 21 and the terminal of the wiring 20 connected through the bolt 22 and informs the controller 170. To help.

The wiring temperature sensor 120 may also detect the temperature of the wiring 20 itself, but the wiring 20 itself may not only have a small temperature change, but a part in which the problem is seriously generated in the actual power system is the lug 21. The connection part of the wiring 20 is mainly monitored because it is a terminal connection point such as between the terminal and the terminal (or between the lug 21 and the bolt 22).

That is, according to the present invention, abnormal power supply is mainly generated due to poor connection of the wiring 20 connection part, and the risk of electric shock of the operator is high through the wiring 20 connection part which is not protected by the insulation coating, and sparks are generated. By monitoring the temperature of the wiring 20 connection part where the risk of fire due to the fire is large, the entire system of the wiring 20 system is monitored.

Meanwhile, the present invention further includes an ambient temperature sensor 140, a display unit 150, a communication module 160, and a controller 170 in addition to the above configurations, among which the ambient temperature sensor 140 is included. ) Detects the temperature of the surroundings in which the non-contact safety detector 100 of the present invention is installed and notifies the result to the controller 170.

The ambient temperature sensor 140 is the temperature of the wiring 20 connection detected by the wiring temperature sensor 120 according to the change in the temperature of the surrounding environment or due to the abnormal occurrence in the actual wiring 20 connection itself To determine whether or not

For example, in a hot weather such as summer, even if the temperature of the connection portion 20 of the wiring detected by the wiring temperature sensor 120 is slightly increased, when the temperature is at a level similar to the temperature detected by the ambient temperature sensor 140, the temperature rise is electric power. It is possible to know that it is not due to abnormality of the system but according to the surrounding environment.

As shown in FIG. 4, the display unit 150 includes a temperature display unit 151 for displaying a temperature of a connection portion of the wiring 20 detected by the wiring temperature sensor 120 and a non-contact safety detector 100. Power supply display unit 152 indicating whether the normal power supply is supplied and the non-contact safety detector 100 is in normal operation, and a test indicating whether the wiring 20 is live according to the detection result through the detector 110. The operator approaches the over temperature display unit 154 and the live wire 20 which indicate whether the temperature of the connection unit 20 detected by the wiring temperature sensor 120 is abnormally high. And an alarm speaker 155 for issuing an alarm.

However, since the connection relationship between the operation power supply unit (not shown) and the operation power supply unit and the power display unit 152 for operating the non-contact safety detector 100 of the present invention is already known technology, a detailed description thereof is omitted. do.

The communication module 160 includes information on whether the operating power of the non-contact safety detector 100 is normally supplied, information on whether the wiring 20 detected through the detector 110 is active, and a wiring temperature sensor 120. ) Transmits the temperature information detected through the wiring 20 and the ambient temperature information detected through the ambient temperature sensor 140 to a water / distribution management station located remotely.

The communication module 160 may be a wired communication modem for RS-485 cable communication or the like, but the present invention is not limited thereto and may be a wireless communication modem.

As shown in FIG. 5, the control unit 170 includes a central processing unit 171 (MCU: Micro Controller Unit), a comparator 172 and a logic gate 173 (Logic Gate), wherein the peripheral The temperature sensor 140, the display unit 150, and the communication module 160 are directly connected to the central processing unit 171, and the wiring temperature sensor 120 is connected to the central processing unit 171 through the comparator 172. The human body sensor 130 and the detector 110 are connected to the central processing unit 171 through a logic gate 173.

Therefore, when the approach detection signal of the human body through the human body sensor 130 is input to the first input side of the logic gate 173 and the live signal of the wiring 20 through the detector 110 is input to the second input side, The controller 170 may generate an alarm indicating that the operator is approaching the wire 20 in the live state through the alarm speaker 155 of the display unit 150.

To this end, an AND gate should be used for the logic gate 173.

However, the human body sensor 130 and the detector 110 may be directly connected to the central processing unit 171 instead of being connected to the central processing unit 171 through the logic gate 173, in which case the wiring 20 Regardless of whether the wire is active or not, an alarm will be issued when the worker approaches the wire 20, and the wire 20 is displayed through the inspection confirmation display unit 153 regardless of the worker's access. will be.

In addition, when the temperature information of the surrounding environment detected by the ambient temperature sensor 140 is provided to the controller 170, the controller 170 generates a reference value variably according to the current ambient temperature to generate a first value of the comparator 172. At the same time, the temperature of the wiring 20 connection portion detected by the wiring temperature sensor 120 is input to the second input terminal of the comparator 172, so that the temperature of the wiring 20 connection portion is a reference value. In case of exceeding the alarm, an over temperature display unit 154 may alert the remote control station.

Of course, the ambient temperature sensor 140 may be directly connected to the central processing unit without going through the comparator 172. In this case, the temperature display unit 151 directly displays the temperature of the connection portion of the wiring 20 through the temperature display unit 151 as described above. (20) It is possible to inform the remote control station of the temperature of the connection.

In addition, the operation power supply information of the non-contact safety detector 100 input to the central processing unit 171 as described above, information on whether the wiring 20 is active, the temperature information and the ambient temperature information of the connection portion 20 of the wiring 20 Etc. may be transmitted to the remote control station through the communication module 160.

The specific embodiments of the present invention have been described above. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various modifications and variations can be made without departing from the spirit of the present invention. Those who have it will understand.

Therefore, since the embodiments described above are provided to fully inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

The non-contact safety detector of the present invention reduces the measurement error between the detector and the wiring temperature sensor so that it is possible to accurately detect whether the wiring is live or the temperature of the wiring connection. In addition, when an operator or the like approaches the wiring, the worker is notified whether the wiring is live or not, so that a safety accident can be prevented. Thus, smooth power supply is possible through the switchgear.

1 is an installation state diagram showing an installation state of a non-contact safety detector according to the prior art.

2 is an installation state diagram showing an installation state of the non-contact safety detector according to the present invention.

Figure 3 is a block diagram showing a non-contact safety detector according to the present invention.

Figure 4 is a front view showing a display portion of the non-contact safety detector according to the invention.

5 is a block diagram showing a control unit of the non-contact safety detector according to the present invention.

<Explanation of symbols for the main parts of the drawings>

110: detector 120: wiring temperature sensor

130: human body detection sensor 140: ambient temperature sensor

150: display unit 160: communication module

170: control unit B: body

10: terminal block 20: wiring

21: lug 22: bolt

Claims (7)

A detector for non-contact sensing whether or not electricity flows through the wiring; A wire temperature sensor which senses a non-contact temperature of a wire connection unit and is integrally assembled to the detector; A display unit which displays whether the wire detected by the detector is live or the temperature of the wire connection unit detected by the wire temperature sensor; And And a controller configured to receive information on whether the wire detected by the detector is active and temperature information detected by the wire temperature sensor to be displayed on the display unit; The detector comprises an annular detection terminal for detecting induced electromotive force generated around the wiring or wiring connection part when the wiring is live; The wiring temperature sensor is a non-contact safety detector, characterized in that installed in the inner center of the detector consisting of the annular detection terminal. delete The method of claim 1, The non-contact safety detector, characterized in that it further comprises a human body sensor for detecting whether the approach of the human body in a non-contact manner and transmits the result of the detected human approach to the controller. The method of claim 3, The controller may include a logic gate configured to generate an alarm through the display unit when an approach detection signal of the human body is input through the human body detection sensor and a live signal of the wiring is input through the detector. Non-contact safety detector, characterized in that. The method of claim 1, Non-contact safety detector for detecting the temperature of the surrounding environment further comprises an ambient temperature sensor for transmitting the detected ambient temperature information to the controller. The method of claim 5, The control unit may receive the ambient temperature information detected by the ambient temperature sensor and generate a reference value variably according to the temperature change of the ambient environment, and generate the reference value and the temperature provided by the wiring temperature sensor. Comparators for comparing; including, And the control unit receives a comparison result of the comparator and controls an alarm to be issued through the display unit when the temperature provided by the wiring temperature sensor exceeds the reference value. The method according to any one of claims 1 to 6, And a communication module for transmitting the temperature information input to the controller and information on whether the wire is live or not to an external manager.

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