SU730320A3 - Device for preventing contact of mobile unit and overhead electric transmission line current conductor - Google Patents

Description

This invention relates to devices for protecting mobile units from dangerous proximity to live conductors and network lines. Contact protection devices using a magnetic field are known. They have a point sensitive element. They are characterized by a low measurement accuracy, a large dependence on the angular location, and also a dependence on the position in height. The two perpendicularly arranged one to another coils have a directional characteristic that corresponds to a flat four-beam star (if they are connected in series). The measured signal does not depend on the voltage, but on the current of the power transmission lines, which can vary, for example, from 0.6A to several hundred Amperes. The directional characteristic is degraded from the shadow of the boom arm, inductive motors interfere with the measured signal (1, There is also a method of protection against touch, according to which the electric field strength is measured at two different points of the crane, removed from each other depending on a given A ratio is formed from these values, which is then compared with a given value. A preliminary ratio of field strengths occurs in two points of space at distances x that correspond to For example, the distance to the wires of power lines 12. It is also known a device for contact, containing two sensors located on the boom and on the case, amplifiers, a measuring unit for the field strength ratio and a reacting body 2. However, the valve is in contact with the ground, which significantly affects field strength (shielding). The capacity of the earth crane, depending on weather conditions, also impairs the measurement results. The closest in technical essence to the proposed is a device for protection against touching Fitting current lead minutes to an overhead line comprising a sensor electric field strength, the boom mounted on the mobile unit and connected to the signal transmission line current frequency amplifier acting on the actuating unit arranged on the light indicator.

acoustic element and disconnecting body 3. However, weather conditions strongly influence the measurement result. In addition, the measurement error due to the shielding of the sensor element leads to a decrease in the response distance.

The aim of the invention is to improve the reliability of the device.

This is achieved by the fact that in the proposed device comprising an electric field strength sensor mounted on a boom of a mobile unit and connected to an amplifier of a signal of a power line current frequency, an executive unit performed on a light indicator, an acoustic element and a disconnecting organ, an electric field strength sensor the form of a capacitor, the output of which is connected to the inputs of the newly introduced capacitance meter, the output of the latter is connected to the first input of the newly introduced block ne emnozheni, a second input coupled to an output of said amplifier frequency signal transmission line current and the output of multiplying block is connected to the input of the executive authority. The capacitance meter can be made in the form of a generator with a transformer at the output, the secondary winding of which has an asymmetrical output, with a part of the secondary winding with a smaller number of turns connected between the capacitor plate and the input of the preliminary amplifier E1, the output of which is connected to a sigva / ha amplifier. generator frequency and rectifier, and a part of the secondary winding of a transformer with a large number of rollers is connected to the first plate of a trimmer capacitor whose second plate is connected to the casing of the mobile unit. Comparators can be inserted into the execution unit, connected between the output of the multiplication unit and, accordingly, the inputs of the acoustic element and disconnecting the organ, and the comparator connected to the illuminated indicator is connected to the output of the indicated capacitance meter.

The invention allows for multi-stage warning. For example, when the minimum allowed distance is reached, an acoustic signal is emitted which allows the driver of the mobile unit to maneuver, and if the mobile unit is still approaching and reaches the minimum distance allowed, the unit turns off the automatic machine.

Reliability and safety can be increased by connecting to the output of a capacitance measuring unit for measuring the capacitance of a comparator mass, to the output of which a indicating device is connected. This provides alarms that the warning device and the protection against touching the conductors are operational and functioning.

Figure 1 shows a block diagram of a device for protection against confining to current-carrying lines of the network; in fig. 2 - generator circuit with transformer output; Fig. 3 is a structural diagram of the proposed device mounted on an autoclave; in fig. 4 is a circuit for including the proposed device.

The proposed device contains a plate 1 of a capacitive sensor, which is placed in isolation on a movable unit and on the one hand is connected to a capacitance measuring unit 2 for measuring the capacitance of the plate-mass, and on the other hand is connected to an amplifier 3 s-signal of the current of power transmission lines. Measurement unit 2 —and frequency signal amplifier 3 (network frequency) are connected by their outputs to multiplication unit 4, the output of which is connected to execution unit 5.

The block 2 of the tank contains a generator 6 with a transformer output. The transformer of the generator 6 (figure 2) has asymmetrical wiring. Part 7 of the secondary winding has a smaller number of turns, and is connected in series between the lining and the preamplifier input. Part 8 of the secondary winding has a greater number of turns and is connected to trimmer capacitor 9.

The lining may consist of insulated steel-wire-reinforced conductors, which along the edges of the steel structure are parallel to the wire, are slung over the cable drum and electrically connected (Fig. 3).

The capacitance of dispersion C between the lining 1 and the electric line of the air network changes as they are removed. The current flowing through the capacitance depends on the magnitude of the mains voltage and on the value of the capacitance itself.

While the lining 1 is moving in space, the capacitance of St disperses between the lining and the mobile crane changes. The impedance measured between the mobile crane and the ground is more dependent on the pollution of the mobile crane and on atmospheric conditions. Impedance can be indicated by capacitance C and resistive resistance RI connected in parallel between the platform of the autoclave and the ground. This impedance is in any case as much as the order of magnitude of the impedance of the capacitance of C and C, therefore the platform or frame of the autoclave is considered to be lost.

When the crane is approaching the power line at the minimum allowed distance, the value of capacitance C is, for example, 5 pF, capacitance C 350-700 pF. The capacitances C and C form a voltage divider, and a voltage is applied to the lining 1 which is diverted from the air supply network just through this voltage divider. With a change in capacitance C-, the voltage across the plate 1 also changes in proportion to this change. Changes in capacitance C- should not affect the output signal of the device to protect against contact with conductors. Therefore, capacitance C must be measured and the output signal adjusted according to this value. In our example, the capacitance C-d is measured by a measuring signal of 5 kHz.

The secondary winding of the transformer of the generator 6 has a output connected to the input of the preamplifier 10 with a large input resistance. On the output of amplifier 10 are connected, on the one hand, an amplifier (network frequency signal with selective action (low-pass filter)), and on the other hand an amplifier 12 of measuring frequency 5 kHz. The outputs of amplifiers 11 and 12 are connected via one rectifier 13 and 14, the outputs of which are connected to the inputs of the multiplication unit 4. Comparators 15 and 16 are connected to the output of the multiplication unit 4, the threshold values of which are different, an acoustic element is connected to the output of the comparator with a smaller porotovom value, and a switching element that interrupts the ignition circuit of the engine of a truck crane.The output of the rectifier 14 is connected to the third comparator 17, to the output of which, for example, a light indicator

The proposed device provides a three-stage protection. Even before the truck approaches the open network, an acoustic signal (sound) is emitted for the limiting (threshold) allowable distance, after which there is still time for maneuvering and braking. When the mobile unit (truck crane) reaches the maximum allowable distance, the unit stops.

The preamplifier 10 is built on a cascade of a transistor with a field effect, and the amplifiers 11 and 12 are based on operational feedback amplifiers, the comparators are posited on trigger circuits using integrated circuit technology.

threshold values of which are controlled by a potentiometer (Fig. 4). The multiplier 4 is composed of said field effect transistors, and an output signal independent of the capacitance C can be obtained.

Claims (3)

1. Device for stitching from touching a mobile unit to the conductor of an overhead transmission line, containing an electric field strength sensor, mounted on the boom of the mobile unit and connected to the power amplifier signal of the power line current frequency, performed on an acoustic indicator light. 0 element and disconnecting body, differing by the fact that, in order to increase the reliability of operation, the electric field strength sensor is made in the form 5 of the capacitor, the output of which is connected to the outputs of the newly introduced capacitance meter, the output of the latter is connected to the first input of the newly introduced multiplication unit, the second input of which is connected to the output 0 of the above-mentioned power amplifier of the current frequency of the transmission line, and the output of the multiplication unit is connected to the input of the actuator. five 2. The device according to claim 1, characterized in that the capacitance meter is made in the form of a generator with an output transformer, the secondary winding of which has an asymmetrical output, with a part of the secondary circuit with a smaller number of turns connected between the capacitor plate and the preamplifier input, the output of which is connected to the series-connected amplifier of the generator frequency signal and rectifier, and part of the secondary winding of the transformer with a large number of turns connected to the first plate trimmer capacitor, 0 the second lining of which is connected to the casing of the mobile unit. 3. Device according to Claims 1 and 2, differing from the fact that computers, 5 rators are inserted into the executive unit, connected between the output of the multiplication unit and, accordingly, the inputs of the acoustic element and a shut-off organ, and a comparator connected to a light indicator, 0 its input is connected to the output of the specified capacitance meter. Sources of information taken into account during the examination 1. Kozlov V.I. Protection device 5 from touching the current-carrying hour