CN110208625B - Hump signal equipment online monitoring system and switch machine online monitoring method - Google Patents

Abstract

The invention provides an on-line monitoring system of hump signal equipment and an on-line monitoring method of a switch machine, which can continuously monitor the working current of the solenoid valve of the signal equipment and the states of all relays in real time by arranging a current detection circuit of a transmitting end of the solenoid valve and a voltage detection circuit of a null point of the relay, then determine whether related operation indexes of the signal equipment meet the requirements according to monitoring results, realize the real-time monitoring of the signal equipment and facilitate data recording and fault analysis. The invention monitors the ZK4 electric air switch machine to obtain the working current, DCJ state, DBJ state and FBJ state of the electromagnetic valve, then determines fault current, action time, switching direction, starting time and switching time according to the monitoring result, and sends real-time data information to a remote terminal to display and store the data.

Description

Hump signal equipment online monitoring system and switch machine online monitoring method

Technical Field

The invention relates to the field of rail transit monitoring, in particular to an on-line monitoring system of hump signal equipment and an on-line monitoring method of a switch machine.

Background

With the gradual realization of hump automation in marshalling stations in China, the daily maintenance problem of hump signal equipment is increasingly prominent, and the following prominent problems mainly exist:

1. At present, the electrical parameters of the hump station signal equipment are monitored on line in real time in a vacant state, so that the early-stage fault hidden trouble of the signal equipment cannot be found in time, and when the signal equipment is in fault, the electrical parameter record data before and after the fault is lacking, so that great trouble is caused to the field fault positioning and fault troubleshooting, and the field fault troubleshooting efficiency is seriously influenced.

2. The field work area is used for carrying out routine maintenance on the signal equipment, and the signal equipment still stays in the stage of manual detection, and the electrical parameters in the fast operation process of the signal equipment, such as electromagnetic valve current, starting time and switching time of a switch machine, braking time and relieving time of a speed reducer, lack of testing methods, are key parameters related to whether the equipment is safely operated.

Disclosure of Invention

The invention aims at the defects of the prior art, thereby providing an on-line monitoring system of hump signal equipment and an on-line monitoring method of a switch machine, and the specific scheme is as follows:

The hump signal equipment on-line monitoring system comprises a current detection circuit for detecting the current of a solenoid valve transmitting end on signal equipment, a voltage detection circuit for detecting the voltage of a relay empty contact point on the signal equipment and a processing unit;

The processing unit comprises an analog multiplexer, a latch and a processor, wherein the output end of the current detection circuit is connected with the processor through the analog multiplexer, and the output end of the voltage detection circuit is connected with the processor through the latch;

The processor is communicatively coupled to the remote terminal.

Further, the current detection circuit comprises a perforated Hall current transformer, and the perforated Hall current transformer is connected with the output end of the current detection circuit after passing through the filter circuit and the voltage stabilizing circuit.

Further, the voltage detection circuit comprises a diode, a voltage stabilizing tube, a resistor and a photoelectric isolator which are sequentially connected in series, and the output end of the photoelectric isolator is used as the output end of the voltage detection circuit.

Further, the output end of the voltage detection circuit is provided with a pull-up resistor.

Further, the processor is a DSP.

Further, the voltage detection circuit includes:

The DCJ voltage detection circuit is used for detecting the null junction voltage of the DCJ relay on the hump signal equipment switch machine; the DBJ voltage detection circuit is used for detecting the blank point voltage of the DBJ relay on the hump signal equipment switch machine; the FBJ voltage detection circuit is used for detecting the empty junction voltage of the FBJ relay on the hump signal equipment switch machine;

The brake relay voltage detection circuit is used for detecting the brake relay empty contact voltage on the hump signal equipment speed reducer; the relieving relay voltage detection circuit is used for detecting the relieving relay empty contact voltage on the hump signal equipment speed reducer; the brake representation relay voltage detection circuit is used for detecting brake representation relay empty contact voltage on a hump signal equipment speed reducer; and the relay voltage detection circuit is used for detecting the alleviation of the relay empty contact voltage on the hump signal equipment speed reducer.

The invention also provides an on-line monitoring method of the switch machine, which comprises the following steps:

acquiring the blank junction voltages of a DCJ relay, a DBJ relay and an FBJ relay on the switch machine in real time through the hump signal equipment on-line monitoring system; judging working states of the DCJ relay, the DBJ relay and the FBJ relay according to the detected voltage;

Calculating the starting time and the switching time of the switch machine according to the working states of the DCJ relay, the DBJ relay and the FBJ relay, wherein the starting condition of starting time timing is that the DCJ relay starts to switch poles, and the ending condition is that the DBJ relay and the FBJ relay fall down; the starting condition of the switching time timing is that the DBJ relay and the FBJ relay fall down, and the ending condition is that the DBJ relay or the FBJ relay is sucked up;

Comparing the calculated starting time with a corresponding threshold value, and sending out alarm information if the starting time is greater than the corresponding threshold value;

and comparing the calculated conversion time with a corresponding threshold value, and sending out alarm information if the conversion time is greater than the corresponding threshold value.

Further, the current of the sending end of the switch machine electromagnetic valve is obtained in real time, a continuous action curve of the current of the sending end is obtained, and characteristic parameters are extracted from the continuous action curve;

and comparing the extracted characteristic parameters with characteristic parameters on an action standard curve of the current of the battery valve sending end, and if the comparison result is inconsistent, carrying out current curve abnormity alarm.

Further, the characteristic parameters comprise a current change trend of a turnout starting stage, a current average value in a turnout action process, a current change trend of a turnout action end and a turnout switching stage duration.

Further, the process of determining the action standard curve includes:

N continuous action curves of the current of the electromagnetic valve sending end are obtained, characteristic parameters are extracted for each action curve, the N action curves are classified according to the number of the characteristic parameters, the class with the largest number of the action curves is selected, the smoothness of each action curve in the class is calculated one by one, and the action curve with the highest smoothness is used as a standard curve.

Compared with the prior art, the invention has outstanding substantive characteristics and remarkable progress, and particularly has the following advantages:

1. The invention can continuously and real-timely monitor the working current of the electromagnetic valve of the signal equipment and the states of the relays by arranging the current detection circuit of the electromagnetic valve transmitting end and the voltage detection circuit of the relay empty joint, then determine whether the related operation index of the signal equipment meets the requirement according to the monitoring result, realize the real-time monitoring of the signal equipment and facilitate the data recording and fault analysis;

2. The invention can continuously and real-timely monitor the working current, DCJ state, DBJ state and FBJ state of the ZK4 electric air switch electromagnetic valve by arranging the current detection circuit at the electromagnetic valve transmitting end and the voltage detection circuit at the relay empty joint, then determine the fault current, action time, switching direction, starting time and switching time according to the monitoring result, transmit the real-time data information to the station computer control computer through an independent bus, and display and store the data by the station computer and connect with a remote server through a private network.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a circuit diagram of current detection in embodiment 1 of the present invention;

FIG. 3 is a schematic diagram of the pins of an analog multiplexer according to embodiment 1 of the present invention;

FIG. 4 is a schematic diagram of a DSP pin in embodiment 1 of the present invention;

FIG. 5 is a voltage detection circuit diagram in embodiment 1 of the present invention;

FIG. 6 is a schematic diagram of the pins of the latch of embodiment 1 of the present invention;

FIG. 7 is a pull-up resistor bank according to embodiment 1 of the present invention;

FIG. 8 is a schematic circuit diagram of a perforated Hall current transformer in embodiment 1 of the present invention;

FIG. 9 is a system block diagram of embodiment 2 of the present invention;

fig. 10 is a voltage detection circuit diagram in embodiment 2 of the present invention.

Detailed Description

The technical scheme of the invention is further described in detail through the following specific embodiments.

As shown in fig. 1, the hump signal equipment on-line monitoring system comprises an electromagnetic valve transmitting end current detection circuit and a relay empty contact voltage detection circuit, wherein the two detection circuits are connected with a processor, and the processor is also connected with a remote terminal in a communication way. The following description will take two hump signaling devices, namely a switch machine and a speed reducer, as examples.

Example 1

As shown in fig. 2, for the characteristics that the ZK4 electric air switch machine is fast in action and the current value of the electromagnetic valve is small-signal direct current, in this embodiment, the current detection circuit at the sending end of the electromagnetic valve includes a perforated hall current transformer, and according to the safety design principle, the perforated hall current transformer is adopted to collect original data, the sampling position is shown in fig. 8, the sending end line (i.e. the input side line) of the electromagnetic valve on the electric air switch machine passes through the middle of the perforated hall current transformer, the perforated hall current transformer needs ±12v for supplying power, the output of the perforated hall current transformer is filtered and stabilized, and then is output to the AD port of the DSP after passing through the analog multiplexer 74HC4051, and the acquisition is completed by the DSP, and the pin connection relationship between the analog multiplexer 74HC4051 and the DSP is shown in fig. 3 and fig. 4.

As shown in fig. 5, in this embodiment, the detection of the state of the relay on the electric air switch machine includes three voltage detection circuits, which respectively detect DCJ, DBJ, FBJ, and the real-time state of the relay is collected by using the air contact of the three relays, that is, a special power supply 24v+ is looped on the middle contact of the air contact, and the condition that whether 24v+ exists on the upper contact and the lower contact of the relay is collected in real time is used as the condition for judging the state of the relay. The DCJ, DBJ, FBJ acquisition circuit is shown in fig. 5, the acquisition circuits of the three relays are the same, the input ends are isolated by a diode, a voltage stabilizing tube, a resistor and photoelectricity, the output ends are latched by the latch 74LVC573 and then output to the IO port of the DSP, the acquisition is completed by the DSP, and the pins of the latch 74LVC573 are shown in fig. 6.

The output ends of the three voltage detection circuits are respectively provided with a pull-up resistor, in this embodiment, a pull-up resistor row of 3.3k8 is adopted, as shown in fig. 7, and in combination with fig. 5, the pull-up resistor at the output end of the dcj voltage detection circuit is connected with Q1 of the resistor row, the pull-up resistor at the output end of the DBJ voltage detection circuit is connected with Q2 of the resistor row, and the pull-up resistor at the output end of the FBJ voltage detection circuit is connected with Q3 of the resistor row.

Principle of detection

And (3) starting time monitoring scheme design: the starting condition of the starting time timing is DCJ to start turning pole, and the ending condition is DBJ and FBJ to fall down. And collecting DCJ, DBJ, FBJ the relay state at a high speed, and monitoring the starting time of each electric air switch machine action according to the starting time calculation scheme.

And (3) designing a switching time monitoring scheme: the start condition of the switch time timing is that the switch machine loses representation (namely DBJ and FBJ fall down), and the end condition is that the DBJ or FBJ relay is sucked up. The state of the relay is represented through high-speed acquisition, and the switching time of each point switch action is monitored in real time according to the switching time calculation scheme.

Safety protection design: the electromagnetic valve current is collected by adopting a through current transformer and is safely isolated from the tested equipment. And the DCJ state, the DBJ state and the FBJ state are collected, and the safety isolation between the relay and the monitored object is ensured by adopting a scheme of collecting the empty contact point of the relay.

The system automatically generates a standard curve of the action of each ZK4 electromagnetic valve, and the process is as follows: n continuous action curves of the same ZK4 turnout electromagnetic valve current are obtained, and key features are extracted for each curve: the current change trend of the turnout starting stage, the current average value in the turnout action process, the current change trend of the turnout action ending stage and the time length of the turnout switching stage. Classifying N historical curves according to the number of the same features in the 4 key features, selecting the class with the largest number of the historical curves as a normal action curve, calculating the smoothness of each curve in the class one by one, selecting one normal curve with the highest smoothness as a standard curve, recording the generation time of the standard curve, calculating the time difference between the current time and the generation time of the standard curve, and executing the steps again when the time difference exceeds a preset time threshold value to generate a new standard curve.

The system intelligently judges whether the ZK4 equipment works normally or not according to the reported ZK4 electromagnetic valve current, starting time and switching time, alarms in time when the ZK4 equipment works abnormally, positions the fault position and judges the mechanism as follows:

1. and comparing each reported curve with a standard curve of the same turnout, and if 4 key features inconsistent with the standard curve exist or current abnormal mutation exists in the action process, carrying out current curve abnormal alarm and prompting that the fault position is an outdoor ZK4 electromagnetic valve or an outdoor ZK4 mechanical structure.

2. The starting time of the ZK4 action exceeds a threshold value (can be set), the starting time abnormality alarm is carried out, and the fault position is prompted to be an outdoor indication loop.

3. The ZK4 switching time exceeds a threshold value (can be set), and the alarm of abnormal switching time is carried out, and the fault position is indicated to be an outdoor representation loop or an outdoor mechanical structure.

In this embodiment, the detection circuit sends the detected voltage and current to the processor, and the processor may communicate with the remote terminal through a wired or wireless communication manner, and the processor sends the detected data to the remote terminal for storage, so as to serve as a data base for the remote terminal to perform subsequent analysis, processing and summarization. And the remote terminal can be connected with the monitoring systems of the hump stations, so that the real-time parameters, the historical parameters and the alarm information of the signal equipment in the hump stations can be checked remotely.

Example 2

As shown in fig. 9, the on-line monitoring system in this embodiment includes a decelerator terminal voltage detection circuit, a terminal solenoid valve current detection circuit, and a relay state detection circuit, and the relay includes a brake relay, a release relay, a brake indicating relay, and a release indicating relay. The detection circuits are all connected with the processing unit (namely the electric parameter acquisition system of the speed reducer), and the electric parameter acquisition system of the speed reducer is connected with the remote terminal through the hump signal centralized monitoring system and the server in sequence.

The current detection circuit of the electromagnetic valve sending end in this embodiment is the same as that in embodiment 1, as shown in fig. 2, and includes a perforated hall current transformer, and according to the safety design principle, the perforated hall current transformer is adopted to perform original data acquisition, the sending end line (i.e. the input side line) of the electromagnetic valve on the speed reducer passes through the middle of the perforated hall current transformer, the perforated hall current transformer needs ±12v to supply power, the output of the perforated hall current transformer is filtered and stabilized, and then is output to the AD port of the DSP after passing through the analog multiplexer 74HC4051, and the acquisition is completed by the DSP, and the pin connection relationship between the analog multiplexer 74HC4051 and the DSP is shown in fig. 3 and 4.

As shown in fig. 10, in this embodiment, the detection of the state of the relay on the speed reducer includes four voltage detection circuits, which are respectively used for detecting the brake relay, the release relay, the brake indicating relay and the release indicating relay, and the empty contact of the four relays is used for collecting the real-time state of the relay, that is, a special power supply 24v+ is looped on the middle contact of the empty contact, and whether the upper contact and the lower contact of the relay have the 24v+ is collected in real time to be used as the condition for judging the state of the relay. The voltage acquisition circuit is shown in fig. 10, the acquisition circuits of the four relays are the same, the input ends are isolated by a diode, a voltage stabilizing tube, a resistor and photoelectricity, the output ends are latched by a latch 74LVC573 and then output to an IO port of the DSP, the acquisition is completed by the DSP, and pins of the latch 74LVC573 are shown in fig. 6.

The output ends of the four voltage detection circuits are respectively provided with a pull-up resistor, and in this embodiment, as in embodiment 1, a pull-up resistor row of 3.3k×8 is also adopted, as shown in fig. 7, in combination with fig. 10, the pull-up resistor at the output end of the voltage detection circuit of the brake relay J1 is connected with Q1 of the resistor row, Q2 of the pull-up resistor at the output end of the voltage detection circuit of the brake relay J2 is relieved, Q3 of the pull-up resistor at the output end of the voltage detection circuit of the brake relay J3 is represented, and Q4 of the pull-up resistor at the output end of the voltage detection circuit of the brake relay J4 is relieved.

Monitoring method

1. The braking time and the relieving time of the speed reducer are monitored in real time, and timely alarming is carried out on the overrun of the time.

2. The voltage of the transmitting end and the current of the electromagnetic valve of the speed reducer equipment at the distribution board are monitored in real time, a report and a curve are formed, and timely alarm is given to the overrun and abnormal abrupt change of the voltage of the transmitting end and the current of the electromagnetic valve.

The speed reducer in this embodiment includes a brake relay, a release relay, a brake indicating relay and a release indicating relay, and monitors states of these relays, and the state monitoring design includes: the real-time state of the four relays is collected by using the empty contact points, namely, a special power supply 24V+ is connected on the middle contact point of the empty contact point in a looping way, whether 24V+ exists on the upper contact point and the lower contact point of the empty contact point or not is collected in real time to be used as a condition for judging the state of the relay, a voltage collecting circuit is shown in figure 10, the collecting circuits of the four relays are identical, the front end of the four relays is subjected to diode, voltage stabilizing tube, resistor and photoelectric isolation, the rear stage of the four relays is subjected to latch through a latch 74LVC573 and then is output to an IO port of a DSP, and the collection is completed by the DSP.

And determining the working state of the relays according to the acquisition of the voltage of the empty contact point of each relay, so as to calculate the braking time and the buffering time of the speed reducer according to the state of each relay.

The design of the braking time algorithm comprises the following steps: the starting condition of the brake time calculation is that the brake relay is started, namely, the working power supply of the indoor sent brake electromagnetic valve is the starting condition of the brake time, and the ending condition is that the indoor brake indicates that the relay is sucked up.

The time mitigation algorithm design includes: the starting condition of the relieving time calculation is that the relieving relay is started, namely, the working power supply of the indoor sending-out relieving electromagnetic valve is the starting condition of the relieving time, and the ending condition is that the indoor relieving represents the relay to suck.

The voltage monitoring design of the transmitting terminal comprises the following steps: and acquiring real-time voltage information of the transmission end of the speed reducer from a power supply screen by adopting an intelligent interface.

The electromagnetic valve current monitoring design of the speed reducer comprises the following steps: the sampling position of the current is on the return line of supplying power to the outdoor electromagnetic valve indoors, the embodiment adopts a through Hall current transformer, and the return line passes through the center of the transformer, and the schematic diagram is shown in figure 2. The transformer needs + -12V power supply, the later acquisition circuit is shown in figure 2, the transformer output is filtered and stabilized, and then is output to the AD port of the DSP after passing through the analog multiplexer 74HC4051, and the acquisition is completed by the DSP.

The safety protection design comprises: the electromagnetic valve current is collected by adopting a through Hall current transformer and is safely isolated from tested equipment. The relay empty contacts of the brake relay, the release relay, the brake indicating relay and the release indicating relay are used for safety collection.

Judgment principle

Judging whether the operation of the speed reducer equipment is normal or not according to the obtained speed reducer end-transmitting voltage, electromagnetic valve current, braking time and relieving time, alarming in time when the speed reducer equipment is abnormal, positioning the fault position, and judging the mechanism as follows:

1. When the voltage of the transmission end of the speed reducer exceeds a threshold value (which can be set), carrying out abnormal alarm on the transmission end of the speed reducer, and prompting that the fault position is the output end of a power supply loop or a power supply screen of the indoor speed reducer;

2. when the voltage of the transmitting end of the speed reducer is normal and the electromagnetic valve current exceeds a threshold value (can be set), carrying out abnormal alarm on an outdoor electromagnetic valve of the speed reducer, and prompting that the fault position is an outdoor electromagnetic valve or an electromagnetic valve power supply loop;

3. and when the brake time and the release time of the speed reducer are detected to exceed a threshold value (which can be set), carrying out abnormal alarm on the action time of the speed reducer, and prompting that the fault position is an outdoor mechanical structure or represents loop abnormality.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same; while the invention has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present invention or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the invention, it is intended to cover the scope of the invention as claimed.

Claims (4)

1. An on-line monitoring method for a switch machine is characterized by comprising the following steps:

The hump signal equipment on-line monitoring system comprises a current detection circuit for detecting the current of a transmitting end of an electromagnetic valve on signal equipment, a voltage detection circuit for detecting the voltage of a relay empty contact point on the signal equipment and a processing unit; the processing unit comprises an analog multiplexer, a latch and a processor, wherein the output end of the current detection circuit is connected with the processor through the analog multiplexer, and the output end of the voltage detection circuit is connected with the processor through the latch; the processor is in communication connection with a remote terminal; the current detection circuit comprises a perforated Hall current transformer, and the perforated Hall current transformer is connected with the output end of the current detection circuit after passing through the filter circuit and the voltage stabilizing circuit; the voltage detection circuit comprises a diode, a voltage stabilizing tube, a resistor and a photoelectric isolator which are sequentially connected in series, and the output end of the photoelectric isolator is used as the output end of the voltage detection circuit; the output end of the voltage detection circuit is provided with a pull-up resistor; the processor is a DSP;

The voltage detection circuit includes: the DCJ voltage detection circuit is used for detecting the null junction voltage of the DCJ relay on the hump signal equipment switch machine; the DBJ voltage detection circuit is used for detecting the blank point voltage of the DBJ relay on the hump signal equipment switch machine; the FBJ voltage detection circuit is used for detecting the empty junction voltage of the FBJ relay on the hump signal equipment switch machine; the brake relay voltage detection circuit is used for detecting the brake relay empty contact voltage on the hump signal equipment speed reducer; the relieving relay voltage detection circuit is used for detecting the relieving relay empty contact voltage on the hump signal equipment speed reducer; the brake representation relay voltage detection circuit is used for detecting brake representation relay empty contact voltage on a hump signal equipment speed reducer; the relay voltage detection circuit is used for detecting alleviation of the relay empty contact voltage on a hump signal equipment speed reducer;

Acquiring the blank junction voltages of a DCJ relay, a DBJ relay and an FBJ relay on the switch machine in real time through an on-line monitoring system of hump signal equipment; judging working states of the DCJ relay, the DBJ relay and the FBJ relay according to the detected voltage;

Calculating the starting time and the switching time of the switch machine according to the working states of the DCJ relay, the DBJ relay and the FBJ relay, wherein the starting condition of starting time timing is that the DCJ relay starts to switch poles, and the ending condition is that the DBJ relay and the FBJ relay fall down; the starting condition of the switching time timing is that the DBJ relay and the FBJ relay fall down, and the ending condition is that the DBJ relay or the FBJ relay is sucked up;

Comparing the calculated starting time with a corresponding threshold value, and sending out alarm information if the starting time is greater than the corresponding threshold value;

and comparing the calculated conversion time with a corresponding threshold value, and sending out alarm information if the conversion time is greater than the corresponding threshold value.

2. The switch machine on-line monitoring method of claim 1, wherein: acquiring the current of a transmitting end of a switch machine electromagnetic valve in real time, obtaining a continuous action curve of the current of the transmitting end, and extracting characteristic parameters from the continuous action curve;

and comparing the extracted characteristic parameters with characteristic parameters on an action standard curve of the current of the battery valve sending end, and if the comparison result is inconsistent, carrying out current curve abnormity alarm.

3. The switch machine on-line monitoring method of claim 2, wherein: the characteristic parameters comprise a current change trend of a turnout starting stage, a current average value in a turnout action process, a current change trend of a turnout action end and a turnout switching stage duration.

4. The switch machine on-line monitoring method of claim 3, wherein: the process of determining the action standard curve comprises the following steps:

N continuous action curves of the current of the electromagnetic valve sending end are obtained, characteristic parameters are extracted for each action curve, the N action curves are classified according to the number of the characteristic parameters, the class with the largest number of the action curves is selected, the smoothness of each action curve in the class is calculated one by one, and the action curve with the highest smoothness is used as a standard curve.