DE4414434A1 - Automatic detection system for personnel on belt conveyors in mines - Google Patents

Abstract

The personnel detection system includes a light source (13) situated vertically above the conveyor belt (11), with a video camera (14) pointing at an angle to the conveyor belt from the side. Light signals are generated according to the loading of the belt, and signals for successive sections of length are converted for comparison in an analysing unit (17).The belt loading data and the belt speed are used by the analysing unit to calculate the volume passing along the belt. If a deviation in volume occurs which is larger than a predetermined value, the belt is halted. A pre-determined deviation in conveyor belt loaded height or light intensity also causes the belt to be halted.

Description

The invention relates to a method for detecting one used in the underground mine Endless conveyor located in particular conveyor belt People for whom monitoring is ongoing Conveyor belt arranged by means of a stationary Video camera recorded image signals.

In underground mines, especially the Coal mining, the big ones to overcome Conveyor belts used for the distances Coal mining also as part of the so-called band experience used to transport people who are usually on the loaded conveyor belt lying longer distances bridge. These are designed in a special way Ascent and descent stations set up, whereby however, both the ascent and descent at at a comparatively high speed of 2 m / s conveyor belt must be running.  

The problem with band experience is that it is too Accidents with serious injuries or fatalities can come if it is on the conveyor belt People fail to keep the conveyor belt running in time before the end of the tape, for example in the form of a transfer point or to leave a bunker. Because of this, are developed various aids and security systems been to the travelers in front of the descent point in time draw attention and set up after a Descent point about people still on the belt to recognize in time and to be able to stop the belt. On the other hand, false reports should be made as far as possible to be excluded with a shutdown of the To minimize conveyor belt related disruptions. The Measures addressed range from acoustic, optical and tactile warning signals, which the Band travelers aware of the upcoming descent should make up to electromagnetic sensors and Institutions which, in the event of a non-descent, Conveyor belt should stop.

Monitoring conveyor belts in the underground Coal mining using video cameras is for the normal Funding company known; here, however, this results Problem that the pictures of the installed video cameras because of the relatively high belt speed, usually one long exposure time of the video camera, worse Light conditions and not least because of too little Image contrast only blurred and poor contrast so that the information content of these images is often not sufficient. For the secure detection of The usual image surveillance per person is sufficient Video camera not.

The invention is therefore based on the object Procedure for recognizing people in band experience specify, by means of which on the conveyor belt People in a monitored danger zone automatically can be reliably recognized.

The solution to this problem is inclusive advantageous refinements and developments of Invention from the content of the claims, which this Description are reproduced.

The invention first makes itself known Video surveillance of a conveyor belt to use, and the The basic idea of the invention is that by means of a light arranged vertically above the conveyor belt source for emitting line light as well as with a video inclined to the side of the conveyor belt camera in light section the loading state of the Conveyor belt containing image signals created and this Image signals as actual signals according to their for one computer-related processing suitable conversion into an evaluation unit over successive lengths sections of the conveyor belt compared and that at a predetermined size deviation of the actual values from each other the conveyor belt is stopped. With regard to the generation of the image signals stands out the invention through the use of light cutting process in which a line light is directed perpendicularly the conveyor belt is projected, so that at this point Belt and the material to be conveyed on it by way of a Height profile is visible, which from a below 45 ° to Conveyor belt inclined video camera in the form of image signals is recorded; thus is about the recorded  Height profile of the loading condition of the conveyor belt detectable.

With the invention, it is also advantageous possible, the image signals emitted by the video camera in With regard to the loading condition of the conveyor belt process that detection one on the conveyor given person is given. At the same time it results from the invention the advantage that other Fault causes such as belt overload in the form of a Permissible loading height exceeded, belt misalignment, Belt edge damage or the presence of Foreign bodies in the form of wooden beams or other elongated objects included in the surveillance can be.

The evaluation of the image signals with regard to the According to the invention, person recognition can be carried out in different ways Evaluation criteria take place.

According to a first embodiment it is provided that in the evaluation unit from which the load profile of the Conveyor belt capturing image signals and from the one Speed sensor detected speed of the Conveyor belt in the evaluation unit with the conveyor belt Moved volume flow determined and that to a certain Length-related values for the delivery volume as Actual values are monitored in the evaluation unit, whereby one only found over a certain length section Volume increase by a human body volume for Trigger used to stop the conveyor belt becomes. Funding volumes are recorded in the Way that with each light section a partial volume of Belt loading calculated and to a total volume  is accumulated. Each partial volume results from the Multiplication of the loading area resulting from the current Loading profile and the blank belt profile is determined with a section which the conveyor belt between two Samples. So it is possible to get a Funding volume per time or per stage in the To determine evaluation unit. There is a human being the conveyor belt, its body volume is also recorded and as a belt load in the calculation of the delivery volume involved. Due to the monitoring of the Conveying volume fluctuations can thus be recorded on the belt recognize the person who is there by continuously Partial volume of a 2 m long belt section, for example determined and with the respectively stored actual values is compared. If the comparison reveals an increase in volume the body volume of a human body, which subsequently no longer occurs, so is existence of a human being on the conveyor belt.

According to a second embodiment of the invention provided that in the evaluation unit from the Loading profile of the conveyor belt image signals continuously determines the height profiles of the belt loading and are monitored as actual values in the evaluation unit, whereby one to a length segment or a time unit as Reference quantity ascertained an abrupt jump Change in the height profiles to trigger for the Stopping the conveyor belt is used. Here will monitoring frequencies in the monitored Height profile course of the belt loading occurring sudden changes used; in detail the sudden changes which are a predetermined size exceed, added and their frequency per unit of time or determined per length segment; runs over  human body the monitoring site, the rate takes the sudden changes in the height profile abruptly what a sure clue for that Presence of a human body on the conveyor belt results.

A third embodiment of the invention has the Subject that in the evaluation unit from the Loading profile of the conveyor belt image signals continuously determines the height profiles of the belt loading and are monitored as actual values in the evaluation unit, whereby when determined accordingly via the height profile course abrupt increases in the respective height profiles Event counter incremented and exceeding one corresponding to a minimum length of a person Threshold values for triggering the shutdown of the Conveyor belt is used. So here the Course of the height profiles on the existence of discontinuities in the form of sudden changes in the height profile examined. Will such sudden changes are determined, the Positions of these abrupt changes and corresponding event counter incremented. Will be at one If no sudden change is detected, the decrement corresponding counter if its content is larger is as zero. Assign the following profiles to the same places or in their immediate vicinity repeated abrupt changes, so the corresponding event counter each time. If a counter then reaches a predefined threshold value, which is of a predetermined size, e.g. minimum length of a foreign body, corresponds, takes place  stopping the conveyor belt; here for example the arms, legs and torso of the Band travelers determined accordingly.

Another embodiment of the invention provides finally before that in the evaluation unit from the Loading profile of the conveyor belt image signals continuously determines a brightness profile of the belt loading and is monitored as actual values in the evaluation unit, where one on a length segment or a time unit the increase in brightness determined as the reference variable Trigger used to stop the conveyor belt becomes. The basis of this evaluation process is the fact that the light reflection of the light work clothes one Person is many times higher than the person with the Conveyor belt transported coal. Even if one with Coal dust soiled clothes are no longer white but there are usually some places on it, which have stronger brightness than coal, so that this is to detect a human being on the tape can be used.

Since the evaluation of the image signals from their detection is independent, the above Evaluation methods alternatively, but also in combination can be used with each other, especially at a combinatorial use, also at several measuring points successively the recognition reliability of the method improve.  

Because it is important for the concrete monitoring on the one hand is that the corresponding to the loading condition Height profile lines from the video camera clearly and be recorded as undisturbed as possible, i.e. in the applied one Light section process only the illuminated profile line is scanned, but on the other hand the Brightness of the recorded height profile curve due to a darkening of the light bulb due to aging, one Contamination of the light exit window of the line light source, contamination of the camera lens or one Change in color and reflection properties the load is subject to fluctuations, which is a falsification the result of the evaluation is after a Embodiment of the invention provided that the of the video camera output image signals in one Image memory saved and in the evaluation unit digitized and then as the basis for the Profile determination can be binarized, with the threshold for binarization to compensate for Differences in brightness from the gray value distribution of the Image memory stored image signals determined and is updated.

Using the drawing, which is in a schematic Representation of an arrangement and compilation for the Implementation of the personal identification procedure required Components shows, the invention is explained below.

A conveyor belt 11 running on belt rolls 10 is to be monitored with regard to its loading 12 ; For this purpose, a light source 13 for emitting line light is arranged vertically above the conveyor belt 11 . A video camera 14 arranged to the side of the conveyor belt 11 with an inclination angle of 45 ° thereto is connected to a power supply unit 15 and, via a decoupling member 16, to an evaluation unit 17 , which in turn is connected to a power supply unit 18 and to an input unit 19 and a screen monitor 20 is. In order to make the intra-day monitoring data detectable or visible even in monitoring units standing above ground, the evaluation unit 17 is connected via a line 21 and associated modems 22 to a computer 23 , which in turn is coupled to an input unit 24 and a screen unit 25 . In addition, the conveyor belt 11 is assigned a speed sensor 26 for recording the belt speed, the measurement data of which are also transmitted to the evaluation unit 17 .

This arrangement is able to process the height profiles of the conveyor belt 11 including its loading 12 in video recording time, for example with fifty profiles per second, and thus to monitor a conveyor belt at a speed of 2 m / s in real time. For example, the resolution is set to 1 cm for the height and across the band. The use of fluorescent lamps for room lighting in underground operation favors the extraction of the loading profile from the scene recorded by the video camera 14 . It is sufficient if an incandescent lamp is used as the light source 13 for generating line light and the video camera 14 is provided with a long-pass filter which transmits the long-wave light from the incandescent lamp and filters out the short-wave ambient light. If only fluorescent lamps are used to generate the ambient light, the sensor area of the video camera 14 can be darkened.

In the evaluation unit 17 , the image signals recorded by the video camera 14 are evaluated in accordance with the program selection in accordance with the different detection parameters. Several such monitoring points with light source 13 and video camera 14 can also be set up and connected to the evaluation unit 17 in order to improve its monitoring via the conveyor belt course.

The in the above description, the claims, the summary and the drawing disclosed features The subject matter of these documents can be used individually as well in any combination with each other for the Realization of the invention in its various Embodiments may be essential.

Claims (6)

1. A method for detecting persons on an endless conveyor used in underground mining operations, in particular conveyor belt, in which monitoring of the running conveyor belt takes place by means of image signals recorded by a stationary video camera, characterized in that by means of a vertically above the conveyor belt ( 11 ) arranged light source ( 13 ) for emitting line light and the video camera ( 14 ) inclined at a lateral angle to the conveyor belt ( 11 ) in light section creates the loading state of the conveyor belt ( 11 ) and generates these image signals as actual signals according to their for a computer-related one Processing suitable conversion in an evaluation unit ( 17 ) over successive longitudinal sections of the conveyor belt ( 11 ) are compared with each other and that when the actual values deviate from each other beyond a predetermined size, the conveyor belt is stopped other ( 11 ) is triggered. 2. The method according to claim 1, characterized in that in the evaluation unit ( 17 ) from the loading profile of the conveyor belt ( 11 ) detecting image signals and from a speed sensor ( 26 ) detected speed of the conveyor belt ( 11 ) in the evaluation unit ( 17 ) the volume flow moved with the conveyor belt is determined and the values for the delivery volume related to a certain length section are monitored as actual values in the evaluation unit ( 17 ), whereby a volume increase of only one human body volume determined over a certain length section triggers the stopping of the Conveyor belt ( 11 ) is used. 3. The method according to claim 1, characterized in that in the evaluation unit ( 17 ) from the loading profile of the conveyor belt ( 11 ) detecting image signals continuously determine the height profiles of the belt loading and are monitored as actual values in the evaluation unit ( 17 ), one accumulation of a sudden change in the height profiles determined as a reference variable for a length segment or a time unit is used to trigger the stopping of the conveyor belt ( 11 ). 4. The method according to claim 1, characterized in that in the evaluation unit ( 17 ) from the image profile detecting the loading profile of the conveyor belt continuously determines the height profiles of the belt loading and are monitored as actual values in the evaluation unit ( 17 ), with the corresponding over the Course of the elevation profile determined sudden increments of the respective altitude profiles incremented event counter and the exceeding of a threshold value corresponding to a minimum length of a person is used to trigger the stoppage of the conveyor belt ( 11 ). 5. The method according to claim 1, characterized in that in the evaluation unit ( 17 ) from the image profile detecting the load profile of the conveyor belt continuously determines a brightness profile of the belt load and is monitored as an actual value in the evaluation unit, one for a length segment or a time unit the increase in brightness determined as the reference variable is used to trigger the stopping of the conveyor belt ( 11 ). 6. The method according to any one of claims 1 to 5, characterized in that the image signals emitted by the video camera ( 14 ) are stored in an image memory and digitized in the evaluation unit ( 17 ) and then binarized as the basis for the profile determination, the threshold value for the binarization to compensate for differences in brightness is determined and updated from the gray value distribution of the image signals stored in the image memory.