CN202413851U

CN202413851U - Occupation detecting system of track sections

Info

Publication number: CN202413851U
Application number: CN2012200261934U
Authority: CN
Inventors: 华泽玺; 王迎春; 李代伟; 郑九方; 樊国智
Original assignee: CHENGDU RUIGAN TECHNOLOGY CO LTD; China Shenhua Energy Co Ltd; Southwest Jiaotong University; Shuohuang Railway Development Co Ltd
Current assignee: CHENGDU RUIGAN TECHNOLOGY CO LTD; China Shenhua Energy Co Ltd; Southwest Jiaotong University; Shuohuang Railway Development Co Ltd
Priority date: 2012-01-19
Filing date: 2012-01-19
Publication date: 2012-09-05
Anticipated expiration: 2022-01-19

Abstract

The utility model provides an occupation detecting system of track sections. The occupation detecting system comprises an upper computer (6) and a plurality of wheel-pair counting devices (5), wherein the plurality of wheel-pair counting devices (5) are respectively electrically connected with the upper computer (6), and are respectively used for being installed at a receiving end and a transmitting end of each track section, so that the receiving end and the transmitting end of each track section are respectively provided with one wheel-pair counting device (5); the wheel-pair counting device (5) of each track section is used for counting wheel pairs of the receiving end and the transmitting end of the track section; and the upper computer (6) is used for acquiring wheel-pair counting from the wheel-pair counting device (5) of the each track section, judging whether the track section is occupied according to the wheel-pair counting and outputting an occupation instruction or idle instruction according to a judged result. By adoption of the occupation detecting system provided by the utility model, whether the track sections are occupied by a train can be accurately judged, the reliability is high and the driving safety on railways can be ensured.

Description

Track section takies checking system

Technical field

The utility model relates to railway control field, is specifically related to a kind of track section and takies checking system.

Background technology

At present, domestic solution train rail section takies situation, employing be the mode of track circuit.Track circuit is that the rail with a section of railway track circuit is the circuit that conductor constitutes, and whether is used to detect this section of railway track circuit by train occupation, when on certain section circuit that is provided with track circuit when idle; Relay on the track circuit has enough electric currents to pass through, and picks up the armature that is magnetized, closed front contact; Thereby connect the green light circuit of color light signal; Show green, expression the place ahead line idle allows train occupation; When train got into this track section, it is right that electric current changes the Train Wheel of passing through into, and the relay of not flowing through, relay discharges armature because of loss of excitation, makes it to ride on the back contact, and the red light circuit of connection signal machine shows forbidden signal.The use of track circuit can prevent train from overtaking collision and conflict accident, guarantees railway operation safety.

Yet; Owing to rain, reasons such as humidity, parking seldom, usually can cause rail rail level or train wheel tread to get rusty, possibly cause Train Wheel to short circuit rail reliably; Cause track circuit can not accurately judge whether train occupation track section, serious threat railway operation safety.

The utility model content

The utility model provides a kind of track section to take checking system, and whether can accurately detect track section has train occupation, and reliability is high, can guarantee railway operation safety.

The track section that the utility model provides takies checking system and comprises upper computer and a plurality of the wheel counting assembly, and said a plurality of the wheel is electrically connected with said upper computer respectively counting assembly; End is held and sent to said a plurality of the wheel to what counting assembly was used for being installed in respectively track section; So that being held and send end a wheel respectively to be arranged to counting assembly of each track section, the wheel of each track section is used for the wheel of being held and sending end through this track section counting counting assembly; Said upper computer be used to gather from the wheel of each track section to the wheel of counting assembly to counting, according to said take turns to counting judge this track section whether occupied and according to judged result output takies instruction or idle instruction.

Preferably, when the wheel of being held and sending end of a track section that collects equated counting, said upper computer judged that this track section is unoccupied, and the output idle instruction; When the wheel of being held and sending end of a track section that collects did not wait counting, said upper computer judged that this track section is occupied, and exported and take instruction.

Preferably; Said upper computer also be used for when judged result be that a certain track section is occupied, the adjacent orbit section of this track section is unoccupied and the wheel of being held and sending end of this track section to the difference of counting less than three the time; Confirm that said judged result is wrong, and it is unoccupied to rejudge this track section.

Preferably; Said upper computer can also be used for according to from the wheel of each track section to the wheel of counting assembly to counting judge a plurality of continuous track sections whether occupied and according to judged result output takies instruction or idle instruction: when the wheel of being held and sending end of first track section of the said a plurality of continuous track section that collects to last track section in counting and the said a plurality of continuous track sections held and when sending the wheel of end all to equate to counting; Said upper computer judges that said a plurality of continuous track section is all unoccupied, and the output idle instruction; When the wheel of being held and sending end of being held and sending last track section in equal to counting, the said a plurality of continuous track sections of the wheel of end of first track section in the said a plurality of continuous track section that collects to count equal but said first track section held or send end and said last track section held or when sending the wheel of end that counting is not waited; Said upper computer judges that certain track section between said first track section and said last track section is occupied, and output takies instruction.

Preferably, the said wheel can comprise control module and a plurality of sensor to counting assembly, and said a plurality of sensors are electrically connected with said control module respectively; Whether said a plurality of sensor is used for detecting respectively has wheel to taking turns the level signal to having or not through also exporting expression in real time, and each sensor has original levels after initialization; The level signal that said control module is used to gather level signal from each sensor, get back to this all the sensors in interval of original levels to the level signal of all the sensors when the level signal when arbitrary sensor is changed encode with form the actual level coded sequence, with this actual level coded sequence and fiduciary level coded sequence compare, and when this actual level coded sequence and said fiduciary level coded sequence mate, to taking turns to counting.

Preferably, said fiduciary level coded sequence can be at the coded sequence of wheel to a plurality of level signals of said in theory a plurality of sensor outputs during passing through.

Preferably, said a plurality of sensor can be according to make on to direct of travel wheel to successively near the mode of each sensor separation one by one at wheel.

The track section that the utility model provides takies checking system and adopts wheel that counting assembly is come the Train Wheel through track section counting; From wheel the wheel of counting assembly is judged to counting whether track section is occupied by the upper computer basis; And take instruction or idle instruction according to judged result output; Thus, operating personal or signal can according to from upper computer take the instruction or idle instruction carry out train scheduling and indication.

The track section that adopts the utility model to provide takies checking system, can judge accurately whether track section has train occupation, and reliability is high, can guarantee railway operation safety.

Other feature and advantage of the utility model will partly specify in the specific embodiment subsequently.

Description of drawings

Accompanying drawing is the further understanding that is used to provide the utility model, and constitutes the part of specification sheets, is used to explain the utility model with the following specific embodiment, but does not constitute the restriction to the utility model.In the accompanying drawings:

The track section that Fig. 1 provides for the utility model takies the structural representation of checking system;

Fig. 2 is that wheel among Fig. 1 is to the structural representation of counting assembly;

Fig. 3 be based on the wheel among Fig. 1 of a kind of embodiment to sensor arrangement in the counting device with the wheel to the direct of travel sketch map;

Fig. 4 be according to the wheel among Fig. 1 of a kind of embodiment to sensor arrangement in the counting assembly with the wheel to the direct of travel scheme drawing; And

Fig. 5 be based on the wheel among Fig. 1 of a kind of embodiment to sensor arrangement in the counting device with the wheel to the direct of travel sketch map.

Description of reference numerals

1 control module, 2 sensors

5 take turns counting assembly 6 upper computers

The specific embodiment

Be elaborated below in conjunction with the specific embodiment of accompanying drawing to the utility model.Should be understood that the specific embodiment described herein only is used for explanation and explains the utility model, is not limited to the utility model.

Need to prove that hereinafter described " end " is meant the arrival end of track section, hereinafter described " sending end " is meant the exit end of track section.Hereinafter described " forward " be meant from the end that receives of track section and get into, and leaves from the end that send of track section, and hereinafter described " oppositely " be meant from the end that send of track section and get into, receiving to hold and leave from track section.

The utility model provides a kind of track section to take detection system, and as shown in Figure 1, this detection system comprises host computer 6 and a plurality of the wheel counting device 5, and said a plurality of the wheel is electrically connected with said host computer 6 respectively counting device 5; End is held and sent to said a plurality of the wheel to what counting device 5 was used for being installed in respectively track section; So that being held and send end a wheel respectively to be arranged to counting device 5 of each track section, the wheel of each track section is used for the wheel of being held and sending end through this track section counting counting device 5; Said host computer 6 be used to gather from the wheel of each track section to the wheel of counting device 5 to counting, based on said take turns to counting judge this track section whether occupied and based on judged result output takies instruction or idle instruction.

End is held and sent to said the wheel to what counting assembly 5 was used to be installed in track section, is used for the Train Wheel of being held and sending end through track section counting, and will takes turns counting is sent to upper computer 6.

Said upper computer 6 is the control setup that can carry out in-to-in signal conditioning, computing and output external control instruction arbitrarily according to predefined program; Technical scheme according to the utility model; Said upper computer 6 is according to from wheel the wheel of counting assembly 5 being judged to counting whether track section is occupied; And take the control setup of instruction or idle instruction according to judged result output, for example can be PLC or micro controller system.

Preferably, for to the Train Wheel of being held and sending end through track section to counting, as shown in Figure 2, the said wheel can comprise control module 1 and a plurality of sensors 2 to counting assembly 5, said a plurality of sensors 2 are electrically connected with said control module 1 respectively; Whether said a plurality of sensor 2 is used for detecting respectively has wheel to taking turns the level signal to having or not through also exporting expression in real time, and each sensor 2 has original levels after initialization; The level signal that said control module 1 is used to gather level signal from each sensor 2, get back to this all the sensors 2 in interval of original levels to the level signal of all the sensors 2 when the level signal when arbitrary sensor 2 is changed encode with form the actual level coded sequence, with this actual level coded sequence and fiduciary level coded sequence compare, and when this actual level coded sequence and said fiduciary level coded sequence mate, to taking turns to counting.

It is along the line that said sensor 2 is used to be installed in track section; For can survey arbitrarily whether have Train Wheel to through, and the wheel of output expression in real time to the level signal that has or not (for example wheel to through the time produce high or low level) detector; For example can be infrared pickoff, opto-electronic pickup, ultrasonic transduter etc., the utility model does not carry out any qualification to the type of sensor 2.Type according to different sensor 2; It also has nothing in common with each other at track mounting means along the line (for example apart from orbit altitude etc.); Those skilled in the art can select the type of sensor 2 according to the needs of practical operation; And therefore select suitable mounting means, the utility model is no longer given unnecessary details at this.

Said control module 1 is to carry out the control setup of in-to-in signal conditioning, computing and output external control instruction arbitrarily according to predefined program; Technical scheme according to the utility model; Said control module 1 for store in advance the fiduciary level coded sequence, can according to predefined programmed acquisition from the level signal of each sensor 2, the level signal of getting back to this all the sensors 2 in interval of original levels to the level signal of all the sensors 2 when the level signal when arbitrary sensor 2 is changed encode with form the actual level coded sequence, with the fiduciary level coded sequence of this actual level coded sequence and storage in advance compare, also when this actual level coded sequence and said fiduciary level coded sequence mate to taking turns control setup to counting, for example can be PLC or micro controller system.

For right successively through detecting to taking turns; Technical scheme according to the utility model; Said a plurality of sensor 2 according to make at wheel to direct of travel wheel to successively near the mode of each sensor 2 separation one by one, for example shown in Figure 3, a plurality of sensors 2 are installed with horizontal mode; Perhaps like Fig. 4 and shown in Figure 5; A plurality of sensors 2 are installed with horizontal and vertical arrangement dual mode, as long as guarantee a plurality of sensors 2 according to feasible wheel is to arrange near the mode of each sensor 2 successively on taking turns direct of travel, the utility model does not carry out any qualification to the arrangement mode of a plurality of sensors 2.

In order to ensure accurately detecting and practicing thrift cost, under the preferable case, the said wheel can comprise three sensors 2 to counting assembly 5.With the infrared pickoff is example, can be set to 2-10 centimetre apart from orbit altitude by three sensors 2, and the spacing between each sensor 2 is set to less than 15 centimetres; Can with sensor 2 be set to do not have wheel to through the time output high level (with " 1 " expression); Have wheel to through the time output low level (with " 0 " expression) (also can not have wheel to through the time output low level (with " 0 " expression), have wheel to through the time output high level (with " 1 " expression)).

According to the technical scheme of the utility model, said fiduciary level coded sequence is at the coded sequence of wheel to a plurality of level signals of said in theory a plurality of sensor 2 outputs during passing through.Analog wheel is to passing through in advance, and according to mode same as described above to the outputs level signals of sensor 2 (level signal of getting back to this all the sensors 2 in interval of original levels to the level signal of all the sensors 2 when promptly the level signal when arbitrary sensor 2 being changed is encoded) the formation fiduciary level coded sequence of encoding.Thus, the original levels that can each sensor 2 after initialization, has is set to high level, wheel not to through the time, three sensors 2 are output as three high level of " 111 ".When wheel to successively when three sensors 2, the level signal of three sensor 2 outputs changes, and up to wheel " 111 " is got back in the output of leaving 2, three sensors 2 of three sensors again.Therefore, wheel is to through outgoing level in the whole process of three sensors 2 be successively: " 111,011,001,000,100,110,111 ".

A kind of embodiment according to the utility model; Can the level signal of above-mentioned acquisition be encoded to a byte; Cataloged procedure is: in the 7th, the 6th, the 5th level signal of filling out 2 outputs of three sensors successively of a byte; Then all fill out " 0 " for all the other the 0th to the 4th, then can form fiduciary level coded sequence " 11100000,01100000,00100000,00000000,10000000,11000000,11100000 ".Under the preferable case, can this coded sequence be changed into hexadecimal system " E060200080C0E0 ".

Also can fill out the level signal of three sensors, 2 outputs the 2nd, the 1st, the 0th an of byte successively, " 0 " is then all filled out in all the other positions; Perhaps in the 3rd, the 4th, the 5th level signal of filling out 2 outputs of three sensors successively of a byte, use the 3rd, 4,5, " 1 " is then all filled out in all the other positions.

According to the another kind of embodiment of the utility model, also can the level signal of above-mentioned acquisition be encoded to the individual byte of N (N >=1), the level signal of sensor 2 outputs only accounts for three positions of the individual byte of N (N >=1), and other position can all extend this as " 0 " or " 1 ".

According to another embodiment of the utility model,, can all be arranged in the level signal of above-mentioned acquisition together and encode in order to save memory space; Also can carry out pro forma mapping conversion to the coding that has obtained.

Need to prove that the utility model does not carry out any qualification to the forming process and the mode of level coding sequence.

Thus; When practical operation; The wheel that the utility model provides is in the counting assembly 5; Whether a plurality of sensors 2 detect respectively has wheel to taking turns the level signal to having or not through also exporting expression in real time; Control module 1 is carried out the program that is provided with in advance, according to analog wheel to through the time identical mode, the level signal of at first gather level signal from each sensor 2, getting back to all the sensors 2 in this interval of original levels to the level signal of all the sensors 2 when the level signal when arbitrary sensor 2 is changed is encoded with formation actual level coded sequence.

Control module 1 is carried out the program that is provided with in advance; The actual level coded sequence that coding is formed compares with the fiduciary level coded sequence of storage in advance, and when this actual level coded sequence during (show current wheel is arranged really), to taking turns to counting to passing through with said fiduciary level coded sequence coupling.

Based on a kind of embodiment of the utility model, wheel can only be carried out counting device 5 and to add computing, wheel to through the time add 1 on the logarithm original the wheel, not wheel to through the time keep original logarithm of taking turns constant.

Another kind of embodiment according to the utility model; Can be forward or backwards benchmark take turns to the counting; Forward has wheel to through hour wheel counting assembly 5 being added 1 original the wheel on the logarithm; Wheel is oppositely arranged to counting assembly 5 being subtracted 1 original the wheel on the logarithm through hour wheel, not wheel to through the time keep original logarithm of taking turns constant.

Another embodiment according to the utility model; Can to a certain track section held and send the wheel of end that counting assembly 5 is provided with; Then take turns counting is added 1 (carried out by end and add computing) according to getting into this track section; Go out this track section and then take turns counting subtract 1 method of (send end to carry out and subtract computing), not wheel to through the time keep original logarithm of taking turns constant.

As stated; The computational methods of the wheel logarithm in the track section can have multiple; For example can subtracted that the difference of sending end is calculated or subtract the difference of being held and calculate with sending to hold with holding based on the direction of train driving, promptly the wheel logarithm with the injection section subtracts the wheel logarithm that track section; Also can adopt and no matter send end or held, as long as the injection section then adds 1, goes out track section and then subtract 1 method, if track section is held and the wheel that send end to the difference of counting greater than zero, then can judge occupied, otherwise idle.

The utility model does not carry out any qualification to wheel to counting mode, can be provided with according to the needs of practical operation or change.And, according to a kind of embodiment, being held and send the wheel of end also can integrate of track section to counting assembly 5.

According to the technical scheme of the utility model, said upper computer 6 is carried out predefined program, when a track section that collects held and when sending the wheel of end to equate counting, said upper computer 6 judges that these track sections are unoccupied, and the output idle instruction; When the wheel of being held and sending end of a track section that collects did not wait counting, said upper computer 6 judged that these track sections are occupied, and exported and take instruction.Thus, operating personnel or semaphore can based on from host computer take the instruction or idle instruction carry out train scheduling and indication.

Embodiment according to the utility model; Being held and sending the wheel of end that counting assembly 5 is only carried out of track section adds computing; Wheel to through the time add 1 on the logarithm original the wheel; When being held and send the meter wheel number of end to equate when (promptly held and the wheel that send end equals zero to the difference of counting) an of track section, can judge that track section is unoccupied, taking turns afterwards can be to the zero clearing of wheel logarithm to counting assembly 5.

Another kind of embodiment according to the utility model; Can add computing so that the wheel of being held of track section is carried out counting assembly 5, wheel to through the time add 1 on the logarithm original the wheel, make the wheel that send end of track section carry out and subtract computing counting assembly 5; Wheel to through the time subtract 1 on the logarithm original the wheel; When the wheel of being held and sending end of a track section is zero to the difference of counting, can judge that track section is unoccupied, taking turns afterwards can be to the zero clearing of wheel logarithm to counting assembly 5.

At wheel counting assembly 5 or signal are transmitted under the situation about going wrong, might cause the misjudgment that takies of certain track section, cause train accident thus.Therefore; In order further to improve judgment accuracy; Guarantee train traffic safety; Under the preferable case; Said upper computer 6 also is used to carry out predefined program; According to from the wheel of each track section to the wheel of counting assembly 5 to counting judge a plurality of continuous track sections whether occupied and according to judged result output takies instruction or idle instruction: when the wheel of being held and sending end of first track section in the said a plurality of continuous track section that collects to last track section in counting and the said a plurality of continuous track sections held and when sending the wheel of end that counting is all equated, the said a plurality of continuous track sections of said upper computer 6 judgements are all unoccupied, and export idle instruction; When the wheel of being held and sending end of being held and sending last track section in equal to counting, the said a plurality of continuous track sections of the wheel of end of first track section in the said a plurality of continuous track section that collects to count equal but said first track section held or send end and said last track section held or when sending the wheel of end that counting is not waited; Said upper computer 6 judges that certain track section between said first track section and said last track section is occupied, and output takies instruction.

Technical scheme according to the utility model; Adopt wheel to first track section in a plurality of continuous track sections of 5 pairs of counting assemblys and last track section held and send end pass through wheel to counting; When first track section and last track section held and when sending the wheel of end that counting is all equated (first track section does not all stop to have train and equal through the wheel logarithm of first track section and last track section with last track section); Show in a plurality of continuous track sections and all do not stop to have train; Therefore upper computer 6 judges that a plurality of continuous track sections are all unoccupied, and the output idle instruction; When first track section held and send the wheel of end equal to counting, being held and send the wheel of end equal (be first track section with last track section do not stop that train being arranged) of last track section to counting; But the wheel of being held or sending end of first track section to counting and last track section held or when sending the wheel of end that counting is not waited; Show in certain track section in first track section and last track section and stop that train being arranged; Therefore upper computer 6 judges that certain track section between first track section and last track section is occupied, and output takies instruction.Thus; Whether the track section that the utility model provides takies checking system occupied with back one track section through the last track section of judging one or more track sections; Can judge whether said one or more track section is occupied; And therefore output takies or idle instruction, has improved judgment accuracy, avoids the generation of accident.

In order to improve the accuracy of judgement, under the preferable case, said a plurality of continuous track sections are three continuous track sections.

At wheel counting assembly 5 or signal are transmitted under the situation about going wrong, might cause the misjudgment that takies of certain track section, cause train accident thus.Therefore, in order further to improve judgment accuracy, guarantee train traffic safety, under the preferable case, the track section that the utility model provides takies checking system and also has self-checking function, existing track section is taken judged result verify.Therefore; Under the preferable case; Said upper computer 6 also be used for when judged result be that a certain track section is occupied, the adjacent orbit section of this track section is unoccupied and the wheel of being held and sending end of this track section to the difference of counting less than three the time; Confirm that said judged result is wrong, and it is unoccupied to rejudge this track section.

A kind of embodiment according to the utility model; Said upper computer 6 is independently controller with said control module 1; Through setting to its internal processes; Can realize different functions respectively, said upper computer 6 also can be integrated into a separate controller with said control module 1, and the utility model is not made any qualification to the way of realization of upper computer 6 and control module 1.

More than combine accompanying drawing to describe the preferred implementation of the utility model in detail; But; The utility model is not limited to the detail in the above-mentioned embodiment; In the technical conceive scope of the utility model, can carry out multiple simple variant to the technical scheme of the utility model, these simple variant all belong to the protection domain of the utility model.

Need to prove in addition; Each concrete technical characterictic described in the above-mentioned specific embodiment under reconcilable situation, can make up through any suitable manner; For fear of unnecessary repetition, the utility model is to the explanation no longer separately of various possible array modes.

In addition, also can carry out combination in any between the various embodiment of the utility model, as long as its thought without prejudice to the utility model, it should be regarded as content disclosed in the utility model equally.

Claims

1. a track section takies checking system, it is characterized in that, this checking system comprises upper computer (6) and a plurality of the wheel counting assembly (5), and said a plurality of the wheel is electrically connected with said upper computer (6) respectively counting assembly (5);

End is held and sent to said a plurality of the wheel to what counting assembly (5) was used for being installed in respectively track section; So that being held and send end a wheel respectively to be arranged to counting assembly (5) of each track section, the wheel of each track section is used for the wheel of being held and sending end through this track section counting counting assembly (5);

Said host computer (6) be used to gather from the wheel of each track section to the wheel of counting device (5) to counting, based on said take turns to counting judge this track section whether occupied and based on judged result output takies instruction or idle instruction.

2. checking system according to claim 1 is characterized in that, when the wheel of being held and sending end of a track section that collects equated counting, said upper computer (6) judged that this track section is unoccupied, and the output idle instruction;

When the wheel of being held and sending end of a track section that collects did not wait counting, said upper computer (6) judged that this track section is occupied, and exported and take instruction.

3. checking system according to claim 1; It is characterized in that; Said upper computer (6) also be used for when judged result be that a certain track section is occupied, the adjacent orbit section of this track section is unoccupied and the wheel of being held and sending end of this track section to the difference of counting less than three the time; Confirm that said judged result is wrong, and it is unoccupied to rejudge this track section.

4. checking system according to claim 1; It is characterized in that, said upper computer (6) also be used for according to from the wheel of each track section to the wheel of counting assembly (5) to counting judge a plurality of continuous track sections whether occupied and according to judged result output takies instruction or idle instruction:

When the wheel of being held and sending end of first track section in the said a plurality of continuous track section that collects to last track section in counting and the said a plurality of continuous track sections held and when sending the wheel of end all to equate to counting; Said upper computer (6) judges that said a plurality of continuous track sections are all unoccupied, and the output idle instruction;

When the wheel of being held and sending end of being held and sending last track section in equal to counting, the said a plurality of continuous track sections of the wheel of end of first track section in the said a plurality of continuous track section that collects to count equal but said first track section held or send end and said last track section held or when sending the wheel of end that counting is not waited; Said upper computer (6) judges that certain track section between said first track section and said last track section is occupied, and output takies instruction.

5. checking system according to claim 1 is characterized in that, the said wheel comprises control module (1) and a plurality of sensor (2) to counting assembly (5), and said a plurality of sensors (2) are electrically connected with said control module (1) respectively;

Whether said a plurality of sensor (2) is used for detecting respectively has wheel to taking turns the level signal to having or not through also exporting expression in real time, and each sensor (2) has original levels after initialization;

Said control module (1) be used for gathering from the level signal of each sensor (2), the level signal of getting back to this all the sensors (2) in interval of original levels to the level signal of all the sensors (2) when the level signal when arbitrary sensor (2) is changed encode with form the actual level coded sequence, with this actual level coded sequence and fiduciary level coded sequence compare, also when this actual level coded sequence and said fiduciary level coded sequence mate, to taking turns to counting.

6. checking system according to claim 5 is characterized in that, said fiduciary level coded sequence is at the coded sequence of wheel to a plurality of level signals of said in theory a plurality of sensors (2) output during passing through.

7. checking system according to claim 5 is characterized in that, said a plurality of sensors (2) are according to make on to direct of travel wheel to successively near the mode of each sensor (2) separation one by one at wheel.