JPH051931Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a device for detecting a specific cable from among a large number of installed live cables.

(Conventional technology) The conventional technique will be explained based on FIG.

The high-voltage power transmitted by a high-voltage cable 101 buried underground is reduced to a low voltage in a transformer tower 102 and then transmitted to a hand hole 104 by a cable 105 laid in a conduit or duct 103. There is. Further, power is distributed to customers A, B, C, etc. through a cable 105 branched within the hand hole 104. When removing or replacing a cable that has been laid in this manner, it is necessary to detect the end of the cable to be removed within the hand hole. For example, when removing or replacing a cable that is distributing power to customer B, it is necessary to detect the connection cable between customer B and the end located in the handhole. If this cable is a dead wire, it can be easily detected with a tester, etc., but since it is a live cable, such measures cannot be taken, and it can be detected by a sign plate attached to the cable in the hand hole, a design drawing, etc. was detected.

(Problem to be solved by the invention) Therefore, there is a possibility that a tag may fall off, a display tag may be attached by mistake, or the wiring to another customer may be accidentally disconnected due to a change in the name of the customer. be. Therefore, an object of the present invention is to provide a cable detection device that does not cut the cable due to mistaken recognition.

(Means for Solving the Problem) The technical means for solving the above problem is to install a cable detection device that detects a specific cable from among a plurality of installed live cables, and to detect the load on the specific live cable. A connecting cord is provided with a connecting clip at the end for one-touch connection at the side end, and when the voltage of the specific live cable is applied through the connecting cord, the contact is activated at preset time intervals. A detector is provided that has a timer-equipped relay that opens and closes, and a load that is connected in series to the contacts of the timer-equipped relay and receives current from the live cable in synchronization with the closing timing of the contacts, and further a clamp-type ammeter that is sequentially set on the power supply side ends of the plurality of live cables for confirming that the current of the live cables is changing in synchronization with the opening and closing of the contacts of the timer-equipped relay; The goal is to create a configuration that provides the following.

(Function) According to the cable detection device having the above configuration, when the connection clip at the end of the connection cord is connected to the load side end of a specific cable to be detected, the relay with timer detects the signal from the specific live cable. Due to the applied voltage, the timer relay opens and closes its contacts at preset time intervals. As a result, current from the live cable is applied to the load connected in series to the contact in synchronization with the closing timing of the contact. On the other hand, the readings of clamp-type ammeters set sequentially at the power supply side ends of multiple live cables are
When it is confirmed that the contact timing changes in synchronization with the timing of opening and closing the contacts of the timer-equipped relay, it can be recognized that the live cable to which the clamp-type ammeter is set is a specific cable.

(Example) An example of the present invention will be described based on the drawings.
The device according to the present invention is composed of a detector and a clamp-type ammeter.

The detector 4 will be explained based on FIG.
The timer-equipped relay 2 is connected to the input terminals 1, 1, and input terminal voltage is always applied thereto, and the A contacts 2A and B contacts 2B are activated at each set time of the timer. Current flows through the load 3 when the A contact 2A of the timer relay 2 is closed. At this time, if a resistor is used for the load 3, it will generate heat, so a cooling fan 7 is connected to the input terminal 1, in order to cool the load 3. It is constantly operated with an applied voltage of 1. Also, A of relay 2 with timer
When the contact 2A is closed, the lamp 5A is connected, and when the B contact 2B is closed, the lamp 5B is connected to each other through the A contact 2A and the B contact 2B in order to display the status of each contact. Input terminals 1 and 1 are equipped with cords 10 with alligator clips 9 and 9 for external input.
is connected.

The operation of the detector 4 based on the above configuration will be explained based on FIG. 1. By applying voltage to the input terminals 1, 1 through the alligator clips 9, 9, the timer-equipped relay 2 repeatedly opens and closes the A contact 2A and simultaneously opens and closes the B contact according to the set time of the timer. . More specifically, as shown in Figure 2, the timer used in the relay with timer 2 is a timer that can set the time for which the A contact 2A is closed and the B contact 2B is open (M shown in Figure 2) and the A contact. It is equipped with a timer that can set the time (N shown in FIG. 2) during which the B contact 2A is open and the B contact 2B is closed. Note that the setting time of each timer can be arbitrarily set within the range of 0 to 10 seconds. Therefore, when the timer setting time of the timer relay 2 is set to M seconds and N seconds, the A contact 2A is closed for M seconds and the lamp 5A is lit at the same time, and then the B contact 2B is closed for N seconds and at the same time the lamp 5B is turned on. It operates even in a series of cycles in which the lamp lights up. Also, when A contact 2A is closed, voltage is applied to load 3 via input terminals 1 and 1, so load 3
Similarly, current flows periodically. Note that, in order to remove the amount of heat generated in the load 3, the cooling fan 7 is constantly operating to cool the load 3.

Next, the cable detection device according to the present invention will be explained in more detail based on FIG. 3. A live cable 12 is wired from terminals P, C ₂ , E, C ₁ provided in the hand hole 11 to customers A, B, etc. Therefore, for example, a case will be described in which the live cable 12 to consumer B is set as the specific cable 12 to be removed. First, the line voltage of the cable 12 is measured using a tester or the like. In this example, P~C ₁ , P
Since the line voltage between ~C ₂ and C ₁ ~C ₂ is 200V,
Check the line voltage at customer B's location using a tester, etc.
Detects the 200V cables 12, 12, connects the alligator clips 9, 9 for the input terminals of the detector to the cables 12, 12, and also connects the relay 2 with a timer.
M, which is the closing time of the A contact 2A, and N, which is the closing time of the B contact 2B, are set. Then, due to the operation of the timer-equipped relay 2, current periodically flows through the detector 4 as described above. In other words, the current in the cable 12 connected to customer B is transmitted to the connected detector 4.
Since the current flowing through the cable 12 increases by the load 3, the current flowing through the cable 12 also changes according to the period of the timer setting time, that is, the period of each (M+N) time. Therefore, each terminal P, C ₂ ,
A clamp-type ammeter 13 is used to measure the current value on the cable 12 that is wired from E and C ₁ to each customer. By communicating with each other using a transceiver, etc., and detecting the cable 12 whose current value repeats fluctuations that match the cycle of the timer set times M and N set in the timer relay 2, the cable in the handhole and the demand are detected. A cable 12 that matches the cable to the house can be detected.

Thereafter, by performing the same procedure for other cables, it is possible to detect all cables to destinations other than customer B.

In addition, if there is a fluctuation in the load of customer B,
Timer setting time M, N of relay 2 with timer
By selecting a period different from that of the load fluctuation, it is possible to detect the load fluctuation without any problem. Furthermore, when the load of consumer B is no load, only the current flowing through the detector 4 is the current flowing through the cable 12, so that detection can be made more reliably.

(Effect of the invention) As described above, according to the invention, in the detector connected to the load side end of a specific live cable,
Instructions for clamp-type ammeters that are set in sequence at the power supply side ends of multiple live cables while a load current is applied to the load from the live cable at predetermined time intervals by applying voltage from a specific live cable. When it is confirmed that the value changes in synchronization with changes in the load current, it is possible to recognize that the live cable to which the clamp-type ammeter is set is a specific cable. Cable can be detected.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of the detector, FIG. 2 is an operational diagram of A and B contacts of a relay with a timer, FIG. 3 is a concrete implementation diagram of the present invention, and FIG. 4 is a cable installation diagram. 1...Input terminal, 2...Relay with timer, 3
...Load, 12...Cable, 13...Clamp type ammeter.

Claims (1)

[Scope of utility model registration request] A cable detection device that detects a specific cable from among a plurality of laid live cables,
a connection cord provided with a connection clip at the end for one-touch connection to the load side end of the specific live cable; A relay with a timer that opens and closes contacts at set time intervals, and a load that is connected in series to the contacts of the relay with a timer and receives current from the live cable in synchronization with the closing timing of the contacts. and further set in sequence at the power supply side ends of the plurality of live cables to detect that the current in the live cables is changing in synchronization with the opening and closing of the contacts of the relay with timer. A cable detection device characterized by being equipped with a clamp-type ammeter for confirmation.