RU82043U1 - DEVICE FOR SELECTIVE MEASUREMENT OF RESISTANCE OF THE GROUNDING CHAIN OF REINFORCED CONCRETE SUPPORTS OF THE CONTACT NETWORK - Google Patents

Abstract

A device for selective measurement of the resistance of the ground circuit of reinforced concrete supports of the contact network of electrified railways, containing a pulse voltage generator with a capacitor of a reference capacitance installed at the output, the output terminals of the generator are connected to the input terminals of the starter, the output terminals of which are connected to the rail and the support console via measuring cables and metal slopes , the second output of the generator is connected to the input of the voltmeter, the output of which is connected to the input of the threshold element, the first output which is connected to the first input of the timer, the output of the timer is connected to the first input of the converter, the second output of the threshold element is connected to the second input of the converter, the third output of the threshold element is connected to the input of the information collection and storage device, the output of which is connected to the indicator input, characterized in that the fourth the output of the threshold element is connected to the second input of the timer.

Description

The utility model relates to the field of electrical engineering and can be used to selectively measure the resistance of the ground circuit of reinforced concrete supports of the contact network of electrified railways.

The suspension wire suspension bracket is mounted on a reinforced concrete support with bolts that separate from the metal reinforcement of the support with synthetic bushings inserted into the mounting holes of the support. The resistance of the “armature-console” contact for new supports when measuring in dry weather should be at least 10,000 Ohms (“On changing the procedure for assessing the electro-corrosion hazard of reinforced concrete supports of a direct current contact network.” Technical instructions No. K-02/06 .; 2/18 dated 05/15/06. JSC Russian Railways. Department E and E). During operation, due to natural aging, the resistance of synthetic bushings decreases, and when the resistance "console-armature" is less than 100 Ohms, the support is transferred to the category of electro-corrosive.

Currently, there is a representative list of measuring instruments for the resistance of the ground circuit of reinforced concrete supports.

Known devices (F4103, ADO, PK-1M, etc.) for measuring the resistance of single supports and the input resistance of a group of supports.

The disadvantage of the devices is either a high output impedance (up to tens of ohms, for the F4103 device), or significant weight and size indicators (about 10 kg, ADO device), or extremely low noise immunity (PK-M1 device), which, together with low diagnostic characteristics limits their use for the purpose of diagnosing the state of the ground circuit of reinforced concrete supports of the contact network.

A device is known (“A device for operational monitoring of the ground circuit” “Locomotive” No. 4, 1998, p.40-41), as well as (“Equipment for monitoring the state of the ground circuit of the reinforced concrete supports of the contact network ISO-1MZ”. TU 3185.803.71492113.1- 04. It is entered in the State Register for No. 29798. Certificate RU.C.34.007.A No. 21477. Developer and manufacturer of LLC "Electrodiagnost", Novosibirsk), which includes two measuring units, and one of them, the generator unit, is taken as an analog . The generator unit of the device contains a pulse voltage generator with an output capacitor of known electric capacitance _ET. That an internal source is charged to a predetermined voltage U _COI commute through metal slopes on the rail and the support bracket, and then output from the generator to the circuit under test with a predetermined repetition frequency f _C

(f _C ≈10 Hz) impulses of the test voltage are applied. For each pulse of the test voltage, the timer measures the time τ _TIME of the voltage drop across the capacitor C _ET due to its discharge on the resistance of the grounding circuit of the support (group of supports) from U _ICP to U _ICP / e, where e is the base of the natural logarithm. Transducer according to previously established depending converts the value τ _times a value Rop bearing resistance (Rgr) for Rop ratio (P _GR) = Kτ _TIMES / C _ET, where K - coefficient of proportionality, and a repetition frequency f _C value Rop (Rgr) arrives at the indicator input.

The disadvantages of the device are the relatively low output test voltage of the generator block (U _OUT ≈60 V), which is almost an order of magnitude lower than the output voltage of the M1101 megohmmeter (U _OUT = 500 V), recommended for testing reinforced concrete supports. ("Instructions for the maintenance and repair of supporting structures of the contact network (K-146-2002) / Ministry of Railways of the Russian Federation - M .: Transizdat, 2003).

The closest to the claimed device in technical essence is the generator unit described in application No. 2008108803/22 (009525) (“Device for monitoring the state of the ground circuit of the concrete supports of the contact network.” Applicant LLC “Electrodiagnost”, Novosibirsk). The prototype device by the principle of action coincides with the analogue discussed above. An increase in the amplitude of the output pulse voltage to U ₁ ≈500 V (at U ₁ ≈60 V for an analog), as well as the introduction of a threshold element, an information collection and storage device, and a starter into the prototype device, made it possible to simplify the procedure for determining the resistance Rop (Rгр) , increase the reliability, efficiency of determining the state of the ground circuit of reinforced concrete supports.

However, during the first operational tests on real objects of the prototype device, results were obtained that showed that the ground circuit of the contact network supports in some cases has a pronounced nonlinearity, which manifests itself in a sharp decrease in the recorded value of the support resistance with a slight increase applied to the subject the support of the test voltage, which leads to undesirable consequences, which are expressed in the fact that part of the supports translate without any special reason to the category of corrosive with an increase in the volume of work on their maintenance. At the same time, the prototype device has positive qualities, since the output voltage of the prototype U = 500 V contributes to the electrical breakdown of oxide films having a high resistance at the point of attachment of the device to the slopes of the device clamping devices, which provides more objective results of measuring the resistance Rop (Rgr) .

The objective of the utility model of the device, based on the foregoing, is to adjust the technical parameters of the prototype device, aimed at increasing

the objectivity of measuring the resistance of supports Rop (groups of supports Rгр) while maintaining the positive diagnostic qualities of the prototype device, expressed in its ability to exclude from the process of measuring resistance Rop (Rгр) oxide films existing on the surface of metal slopes due to electrical breakdown by an applied test voltage pulse with an amplitude value U = 500 B.

According to the claimed utility model, the task is implemented in a device for selective measurement of the resistance of the ground circuit of reinforced concrete supports of the contact network of electrified railways, containing a pulse voltage generator with a capacitor of a reference electric capacitance installed at the output, the output terminals of which are connected to the input terminals of the starter, the output terminals of which are through metal slopes connected to the rail and the support console, the second output of the generator is connected to the input of the voltmeter, output which is connected to the input of the threshold element, the first output of which is connected to the first input of the timer, the output of the timer is connected to the first input of the converter, the second output of the threshold element is connected to the second input of the converter, the third output of the threshold element is connected to the input of the information collection and storage device, the output of which connected to the indicator input, characterized in that the fourth output of the threshold element is connected to the second timer input.

Figure 1 presents a block diagram of a device for measuring the resistance of the ground circuit of reinforced concrete supports of the contact network.

Figure 2, as an example, explaining the principle of operation of the device, shows a plot of the output voltage of the device.

Presented in figure 1, a device for selective measurement of the resistance of the ground circuit of the concrete supports of the contact network contains a pulse voltage generator 8 with an output capacitor of the reference capacitance _ET . The output terminals of the generator 8 through the starter 9, the measuring cables 3, 12 and the metal slopes 5, 14 are connected to the rail 4 and the console 18 of the support 19. Between the slopes 5 and 14 a spark gap is connected 10. The output of the voltmeter 7 is connected to the output of the generator 8, the output of which connected to the input of the threshold element 2, the first output of the threshold element 2 is connected to the first input of the timer 6, the second output of the threshold element 2 is connected to the input of the converter 11, in which the value of the decrease in the output voltage of the generator 8 from the first of this level U ₁ ≤Uamp to the second predetermined level 0≤U ₂ ≤U _{1 is} converted into the resistance value of the support Ron according to a previously established dependence. The third output of the threshold element 2 is connected to a device for collecting and storing information 15, the output of which is connected to the input of the indicator 17. The fourth

the output of the threshold element 2 is connected to the second input of the timer 6, which provides regulation of the voltage range ΔU = U ₁ -U ₂ , within which the resistance value Rop is measured.

The operation of the claimed device is as follows. An internal source of DC charge output capacitor C _ET generator 8, measuring actuator 9 via the cables 3, 12 and metal slopes 5, 14 commute controlled oscillator circuit whose resistance is, Rop is the sum of the resistance connected in series 1 and the resistance 16. The switching actuator 9 resistance Rop accompanied start discharge the output capacitor C _EBs on resistance Ron and the connection to the operation of the device threshold element 2, whose function is to control backside levels of a voltage U ₁ and U _2. When the voltage at the output capacitor C _{ET of the} generator 8 decreases from Uamp to U ₁ , the command starts the timer 6 from the first output of the threshold element 2, which starts the countdown of the discharge time of the capacitor from the set value U ₁ . When the output voltage of the generator 8 is reduced to the second predetermined voltage level U _{2, the} timer 6, by the command received from the fourth output of the threshold element 2, stops measuring time, and the result of measurements of time t is fed to the input of the converter 11 open by the command of the threshold element 2, where of the previously established dependence, the value of the measured time t is converted into the resistance value of the ground circuit of the test support Rop (Rgr), which is fed to the input of the device 15 opened by the command of the threshold element. e 15 Rop (Rgr) are entered into the memory to output a measured value Rop (Rgr) is output to the indicator.

The external keyboard of the device allows you to measure the resistance Ron in the range of the test voltage ΔU = U ₁ -U ₂ ranging from U ₁ = Uamp to U ₂ = 0, while maintaining the condition U ₁ > U ₂ , giving the range ΔU a value from several volts to several hundreds of volts. A set of measured resistance of the support at different values of ΔU = U ₁ -U _{2 is} entered in the specified sequence into the non-volatile memory of the device 15 and analyzed in order to obtain information about the current technical condition of the ground circuit of the examined reinforced concrete support.

Figure 2, as an example, explaining the principle of operation of the device, shows a diagram of the output voltage of the device, on which ΔU _PROT designates the voltage range within which the prototype device measures the time interval t _P reducing the output voltage from U _1PROT to U _2PROT . In the protected device measure the time interval t _y while reducing the output voltage of the device from U _{1 UTR} U _{2 UTR} .

From figure 2 it follows that in the device the measured time interval t _y corresponds to a decrease in the test voltage from U _1USTr ≈200 V to U _2USTr ≈20 V, which is within the range of the induced potential that actually affects the supports of the contact network while the value U _1USTR ≈200 V is close to the maximum value of the potential induced on the support, which is recorded during the operation of railways with power supply at DC voltage.

In the case of the prototype device, as follows from figure 2, the measurement of the resistance Ron is performed at a voltage in the range from U _1PROT ≈470 V to U≈200 V, which clearly exceeds the actually acting potentials on the supports in the conditions of their operation.

The introduced changes to the prototype device made it possible to convert it into a protected device, which, having retained all the positive qualities of the prototype, allows a more objective measurement of the resistance of the ground circuit of the concrete supports of the contact network in the output voltage region of the device, which matches the values of the existing potentials in the ground circuit of the supports contact network.

Various options for setting the values of U ₁ and U ₂ while maintaining the condition U ₁ > U ₂ , adjusting the range ΔU = U ₁ -U ₂ from units of volts to several hundred volts allows more reasonable measurements of the resistance of the grounding circuit of supports when exposed to a voltage comparable to ( or equal) with the magnitude of the induced voltage (potential) recorded during operation of the DC power section with traction.

A positive consequence of the introduction of the proposed device into operation is the exclusion of unreasonably high volume of work on maintenance of supports with a non-linear dependence of the resistance on the value of the applied voltage.

Claims (1)

A device for selective resistance measurement of the ground circuit of reinforced concrete supports of the contact network of electrified railways, containing a pulse voltage generator with a capacitor of a reference capacitance installed at the output, the output terminals of the generator are connected to the input terminals of the starter, the output terminals of which are connected through the measuring cables and metal slides to the rail and the support console , the second output of the generator is connected to the input of the voltmeter, the output of which is connected to the input of the threshold element, the first output which is connected to the first input of the timer, the output of the timer is connected to the first input of the converter, the second output of the threshold element is connected to the second input of the converter, the third output of the threshold element is connected to the input of the information collection and storage device, the output of which is connected to the indicator input, characterized in that the fourth the output of the threshold element is connected to the second input of the timer.