CS258995B1 - Cable line verification device - Google Patents

Abstract

The solution is a device for verifying a cable line by one person. The device for this purpose consists of two parts, namely a verification part and a connection part, where the verification part is formed by a power supply with a grounding terminal, which is connected to switches with signaling elements by a power button, the outputs of which are connected to a common verification terminal, where a pulse source and a selection circuit are connected to the switches through a frequency divider, which is connected to a circuit for transmitting a synchronization pulse, which is connected by a synchronization terminal through a synchronization line of the cable to the synchronization terminal of the connection part, and that the connection part consists of a voltage source, which is connected by a power switch to a frequency divider* to which the pulse source is connected and which is connected by a power switch to a selection circuit, further with an input filter and with switches, where the switches are connected to a frequency divider and the switches are connected to a grounding terminal, the switches being provided with numbered terminals and the input filter with a synchronization terminal.

Description

BACKGROUND OF THE INVENTION The present invention relates to a cable line verification device comprising two separate parts.

The existing cable line verification equipment, which is carried out during assembly or repair work, requires the participation of two workers. In case of laid cable it is necessary to verify its lines before their connection. This activity is time-consuming and uses a device for so-called cable ringing, consisting of a source of electric power and optical signaling, possibly a buzzer and headphones.

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These disadvantages of the prior art for the verification of cable lines are eliminated by a two-part device according to the invention, the verification part and the connection part, which consists in that the verification part consists of a power supply with an earthing terminal connected by a power button and switches with signaling elements. The switches are connected to a verification terminal and to the switches connected by a frequency divider to a pulse source and a selector circuit that is connected to a synchronization pulse transmission circuit. The synchronization pulse circuit is connected by a synchronization terminal to one cable line and connected to a selection circuit and a frequency divider. The connection part consists of a voltage source which is connected by a power switch to a frequency divider to which the pulse source is connected and which is connected by a power switch to a selection circuit, an input filter and switches where a frequency divider is connected to the switches. Switches

- 2 258 995 are connected to the earthing terminal and connected to numbered terminals. The inlet filter is equipped with a synchronization terminal.

An advantage of the device according to the invention is that it allows verification of cable lines by one worker in a substantially shorter time than the current two worker methods. Furthermore, it has the advantage that it allows verification of cable lines even when there is no line with different color insulation in the cable, and that it enables both the connector and the verification part to be manufactured in modules for a certain number of lines so that of cable production lines, this equipment is able to fully meet all requirements. Another advantage of the device is its low energy consumption, which is due to the fact that both parts of the device are only in operation for the time of pressing the power button on the verification work, i.e. only for the time of line verification.

The device according to the invention is illustrated by way of example in the accompanying drawing.

The apparatus according to the exemplary embodiment consists of two separate parts, namely a believing part and a connecting part, wherein the verification part consists of a power supply 2 ^{8 with a} grounding terminal 2, which is connected to the switches 1 with signaling elements 2, The pulse source 10 and the selection circuit 12 are also connected to the switch 1 via the frequency divider 1, which is also connected to the synchronization pulse transmission circuit 13, which is connected to the line 17 of the cable 16 by the synchronization terminal 2. The synchronization pulse transmission circuit 13 is connected to the selection circuit 12 and further to the frequency divider 11. The connecting part consists of a voltage source 15 which is connected to the frequency divider 11 to which the 10 pulse source is connected by the power switch 13. The frequency divider 11 and the power switch 8 are coupled to the selector circuit 12, the input filter 14 and the switches 1. On the switch 1, only the 11 k-turn divider is connected and the switches 1 are further connected to the ground terminal 2.

The switches Γ are equipped with numbered terminals J and the input filter 14 with synchronization terminal 2 · Numbered terminals 2 ^{8 the} synchronization terminal 2 is used to connect the lines 12 and 18 of the cable 16.

- 3,258,995

The device according to the invention operates by connecting the cable lines 17 to be verified to the numbered terminals. One of the lines 17 'that can be clearly identified by the color of the insulation at both ends of the cable 16 is the synchronization line 18, which is connected to the synchronization terminals 2 on both parts of the device and the ground terminals 4 are earthed. After pressing the power button 5, the IQ pulse source is activated. The pulses emanating from the frequency divider 11 control the operation of the selector 12 and together control the switching of the switches 1 with the signaling elements 2. On arrival of the control pulse from the last output of the selector 12 to the last switch 1 with the signaling element 2 impulse. The transmitted synchronization pulse causes the power switch 8 to be switched on in the connection part, thereby actuating the pulse source 10, and in both parts of the device actuating the frequency dividers 11 and selection circuits 12 to the same precisely defined state. The power switch 8 is kept closed for at least one cycle of switching the switches 1 and is activated again by the arrival of the next synchronization pulse. The sequential switching of the switches L is controlled in each part of the device by the selection circuit 12 and simultaneously by the pulses from the frequency divider 11, thereby ensuring that at most one switch at most one switch 1 is switched on and a delay is required between two adjacent switches 1. to avoid malfunction of the device at the minimum frequency deviation of pulses coming from the sources 10 in both parts of the device. By sending the first synchronization pulse, synchronous switching of the switches 1 in both parts is ensured. Thus, by applying the line to be verified 17 to the verification terminal 6 of the verification part, a single conducting path is created through the line to be verified 17 '' and the switch. 1 in the connection part and the switch 1 with the signaling element 2 in the verification part, which switches 1 correspond in sequence. The signal passed throws out the light signaling element 1 of the switch 1, the number of which corresponds to the number of the terminal 2 on the terminal to which the line 17 currently being verified is connected.

If it is not possible to clearly identify either line 17 at both ends of the cable 16, to use that line as a synchronization line 18 to connect the synchronization terminals 2 ^{to the}

258 995 of both parts of the device work with the device as follows. All the lines 17 of the cable 16 are connected to the connection terminals 2 of the connection part except for the one which is connected to the synchronization terminal 2. ^{On the} other side of the cable 16 any line 17 is connected to the verification terminal 6 of the verification part. The synchronization line 18 is found by successively placing the remaining lines 17 on the synchronization terminal 2 of the verification part until a light signal occurs. Connecting terminals 2 Passes synchronization sync pulse, which turns on _the switch 8 in the supply connection piece and the indicating switch 1 in the two parts to synchronous switching, whereby the synchronization link is found.

The 10 pulse sources that have both parts of the device must have sufficient frequency stability to avoid deviations from synchronous switching during one switch cycle 1 in both parts. The frequency splitters 11 reduce the frequency of the pulse source 10 'to a level suitable for verifying the lines 17 of all cable types 16 and unshielded. The connector input filter 14 ensures that a random interference signal is not registered as a synchronization pulse.

Claims (2)

SUBJECT TTBTALLE2U 2.58 995 Device for verifying cable lines, consisting of a verification and connection part, characterized in that the verification part is constituted by a power supply (7) with an earth terminal (4), which is connected to switches (1) with signaling elements / 2), whose outputs are connected to a common verification terminal (6), where the switches (1) are connected through a divider (11) of the frequency source (10) and a selection circuit (12), which is connected to the circuit (13) for sending a synchronization pulse which is a synchronization terminal (9). connected by the synchronization line (18) of the cable (16) to the synchronization terminal (9) of the connection part and that the connection part consists of a voltage source (15) which is connected to the frequency divider (11) by the power switch (8). (10) pulses and which is connected to the power switch (8) with the selection circuit (12), the input filter (14) and the switches (1), where the frequency divider and switches are connected to the switches (1). (1) connected to the earthing terminal (4), the switches (1) having numbered terminals (3) and an inlet filter (14) with a synchronization terminal (9);