SU661416A1 - Arrangement for checking cable earthing core resistance - Google Patents

Description

one

The invention relates to the field of remote control of mobile mining machines and mechanisms and can be used in coal mining. petrochemical and gas industry.

A device is known for controlling the earth ground of a cable core, in which a power source and a sensing element acting on the actuating element 1 are connected to the ground of the USB cable and the additional cable cores.

The device for controlling the grounding conductor of the cable that feeds the mine mobile machines, is made according to the scheme implemented in the mine magnetic starters. In these actuators, the relay, through which the remote control of the machine is performed, simultaneously performs the function of monitoring the resistance of the grounding wire used as one of the wires that make up the power supply circuit of the relay.

However, the combination of control and monitoring functions of the cable core makes the implementation of these functions mutually dependent.

The closest technical solution is a device for controlling mobile moving machines and mechanisms, in which the control functions of the starter and the monitoring of the resistance of the grounding conductor are separated, the DC relay is connected in parallel to the high-resistance secondary winding of the transformer, and the grounding conductor is connected to the points connections of the transformer and the relay on the one hand and through the contacts of the locking devices to the semiconductor diode on the other side 2.

However, the device monitors the resistance of the serial circuit consisting of a grounding conductor and an additional cable core. As a consequence, an increase in the resistance of the additional core, for example, due to the contact resistance of the contacts of the interlocking devices, causes the relay to switch off. In addition, the device monitors the resistance of the parallel-connected grounding conductor and the natural ground between the chassis of the mobile machine and its starter and can occur

spontaneous turning on of the machine for c4 "stray currents.

The object of the invention is to improve the accuracy of the control.

The goal is achieved by the fact that the device for monitoring the resistance of the cable grounding conductor, containing the master oscillator, an additional core connected to the ground conductor ground at the points of its connection to the ground, the actuator whose input is connected to the output of the threshold element, is supplied with current sources , each of which contains an output and a measuring transformer, an amplifier, a resonant amplifier and an adjustable element, the first output of which is connected through the resonant amplifier with the beginning and end of the winding from eritelnogo transformer, the second output - through Wuxi: divisor respectively starting and ending

windings of the output trans- port of the OphApOpA, the output of the master oscillator being connected to the second adjustable elements, the output and measuring transformers of the first current source of indyk Explicitly connected with the additional core. The transformers of the second current source are connected to the grounding conductor, the inputs of the threshold element are connected to the beginning and the end of the winding of the output transformer of the second source.

The drawing shows a block diagram of a device for monitoring the resistance of a cable earth conductor.

Devices FOR resistance control contains current sources 1 and 2, which are the following AC systems and have a common master oscillator 3.

Each current source contains a terminal amplifier 4 with an output transformer 5, a measuring current transformer 6 with its own resonant amplifier 7 tuned to the frequency of the generator 3, and an adjustable element 8. In the current source 2, a threshold element 9 is connected to the output of amplifier 4 and connected to the input terminal actuator 10, for example a relay. Transformers 5 and 6 current sources are made on ring cores.

Through the cores of the transformers 5 and 6 of the current source 2, the grounding conductor 11 of the cable is passed, and through the cores of the transformers 5 and 6 of the current source 1 - the additional conductor 12 of the cable connected to the grounding conductor at the point 13 connecting the latter to the grounding device of the starter and point 14 connect the grounding conductor to the body of the mobile unit. The connection of the additional conductor of the cable 12 to the conductor 11 at points 13 and 14 may not be galvanized, but via capacitors, or sequentially. - those :: gbt1 le rezoyans ı1e contours, n built on the frequency of the generator 3.

Cable conductors 11 and 12 can be used in a control device operating on direct current or alternating with a frequency different from the frequency of generator 5 of generator 3., -. ;. ,,

The device works as follows. The current sources 2 and 1, connected respectively to the grounding 11 and an additional 12 cores of the cable, create in the latter currents that are equal in magnitude and oppositely directed to the connection points 13 and 14 between the cores and with the ground. Since at each moment of time at points 13 and 14 flow in, for example,

5 from the current source 1 and the corresponding currents from the current source 2 are equal in magnitude, the current in natural grounding, in accordance with the first Kirchhoff law, is zero. Since no current flows through natural grounding, its magnitude

 resistance does not affect the results of monitoring the resistance of the earth conductor. In addition, the equality to zero in a natural ground means that the voltage between point 5 and 13 is equal to zero. As a result, the voltage

 at the output of each of the current sources is equal to the product of the magnitude of the current flowing through each of the cores and the resistance of the corresponding core. Thus, in this device the output voltage

0 of each current source is directly proportional to the resistance of the corresponding core. As the resistance of the earth conductor increases to a predetermined value, the voltage at the output of the current source 2 increases, the threshold element 9 triggers and turns on the actuating element 10, thereby disconnecting the starter to which the mobile machine is connected.

If it is necessary to control the resistance of the additional core 12, it is necessary to connect the threshold and executive elements to the output of the amplifier of the current source 1. Equality of the currents in cores 11 and 12 is ensured by the use of identical

5 sources 1 and 2. The need for current phasing is provided by using a common master oscillator 3 and the corresponding switching on of the transformer windings 5.

Claims (2)

The proposed device will allow to control its resistance, which is permissible according to the safety rules, which leads to an increase in the safety of electrical equipment operation. The device also provides control over the integrity of the earth conductor and eliminates the shunting effect of natural grounding (soil). At the same time, reliable protection is provided against self-switching of machines and mechanisms due to the influence of "stray currents." Apparatus of the Invention A device for monitoring the resistance of a cable grounding conductor, comprising a master oscillator, an additional core connected to the grounding conductor in TQH of its connection to earth, an actuating element whose input is connected to the output of the threshold element, characterized in that control accuracy, it is equipped with two current sources, each of which contains output and measuring transformers, a resonant amplifier and an adjustable element, the first output of which is through a resonant the amplifier is connected to the beginning and end of the winding of the measuring transformer, the second output is through the amplifier corresponding to 0 with the beginning and end of the winding of the output transformer, and the output of the master oscillator is connected to the second inputs of the adjustable elements, the output and measuring transformers of the first current source are inductively connected the transformer, the second current source transformers are connected to the grounding conductor, and both inputs of the threshold element are connected respectively to the beginning and the end of the winding of the output transformer Matora second current source. Sources of information taken into account in the examination of 1, Leibov R. M., Ozernoy M. I. Electrification of underground mining. M., 1972, p. 138. 2. Podvoisky V. K., Muffle L. A. Safety of operation of new mining machines and complexes. “Donbass, 1972, p. 37. P . l Э ± .ЛФ ±. to And novft /