DD244832A5 - INDIKATORROEHRCHEN - Google Patents

Abstract

The invention relates to an apparatus and a method for detecting metal objects with the aim of improving the accuracy of the detection. The invention has for its object to provide a method and an apparatus with which a displacement of a metal object is converted to Foerderbaendern with steel inserts to a Ausfuehrungssignal. According to the invention, the object is achieved by accommodating the encoders 2 in the band transfer area of the conveyed material (9), preferably in the band transfer station (8) of a belt conveyor system (11) (12). Encoders (2) with asymmetrical directional characteristics of sensitivity are used, being turned to the material flow with the side of greater sensitivity. The inventive device (1) has encoders (2) which are mounted on non-magnetic and the use of induction and dielectric consoles, which are arranged immovably within a screen (5) made of magnetic material which is open at least on one side, with which Page he turned to Foerdergutstrom (9). The open side of the screen (5) can be covered by a shield (6) of non-magnetic and at the same time dielectric material.

Description

According to the invention, the invention is achieved in that the donors are accommodated in the region of the band transfer of the conveyed material, preferably at the band transfer station of a belt conveyor system, wherein encoders are used with asymmetrical sensitivity characteristics, with the side on which they have greater sensitivity , are turned in the Fördergutstromlaufrichtung.

It is within the meaning of the invention that the donors mounted on non-magnetic consoles are arranged immovably within an at least one open screen made of a magnetic material, and that they are turned with this open side to Fördergutstrom, and the device with elements for attachment to a selected Location of the band transfer is provided. According to one embodiment, it is advantageous that the open side of the screen is covered by a shield of a non-magnetic and preferably at the same time dielectric material. The advantage of the solution according to the invention is that the donors mounted on non-magnetic and simultaneously with the use of induction generators at the same time acting acting consoles encoders are housed in a non-displaceable manner within a screen made of a magnetic material. The screen is at the same time an electrical conductor and at least on one side open and turned with this open side to the Fördergutstrom. The device is provided with elements which allow its attachment to the selected location of the band transfer. With regard to the protection of the encoder from mechanical damage, it is advantageous if the open side of the screen is closed by a protection of non-magnetic material, which is preferably at the same time a dielectric.

The method according to the invention advantageously makes it possible to avoid the disturbing influence of the steel cables of the belt and the metal construction of the belt transfer on the signal for detecting the metal object which is in motion and contained in the conveyed product stream. This can effectively prevent the failures of the technological systems, which are caused by foreign metal objects contained in the conveyed. Since the device according to the invention consists of one or more corresponding donors, which react to the presence of the metal in their sphere of action, and is assembled from a one-sided open electromagnetic screen, a directionally asymmetric characteristic of its sensitivity is achieved. The arrangement of the device in the vicinity of the passage area of the Fördergutstromes, e.g. on the lower baffle plate of the band transfer and its installation with the side with higher sensitivity to this stream have the advantage that the disturbing action of the steel cables of the band is avoided. At the same time, the fact that the device is sufficiently close to the Fördergutstrom, an effective detection of the metal objects in the conveyed material is achieved. The displacement of metal objects on other sides of the device, which is separated by a screen, does not cause a donor response.

embodiment

The invention will be explained in more detail with reference to an embodiment. In the accompanying drawing show:

Fig. 1: The device in a plan view;

Fig.2: a side view of the device with the side wall of the screen removed; and Fig. 3: a schematic representation of the band transfer of belt conveyors with device accommodated therein.

Examples

The device consists of three electromagnetic difference sensors 2 with ferromagnetic cores in the form of an I and with DC excitation, the output windings are connected to each other in a row. The encoders 2 are arranged parallel to one another and fastened to two aluminum alloy consoles 3, which are permanently connected to the connecting pieces 4 provided for fastening the device to the selected element of the band transfer. With the consoles 3, a screen 5 is connected in the form of a one hand, open, vertical box of low-carbon steel. The open side of the screen 5 is covered by a shield of dielectric non-magnetic material. The walls of the screen 5 are opposite the donors 2 at a distance a of about V2 of the height L of the encoder 2 and the shield 6 is arranged opposite the transmitter 2 at a distance b of about V10 of the height L of the donors 2. The device 1 is mounted on the baffle plate Z of the band transfer 8 such that the shield 6 is turned to Fördergutstrom 9. The electrical output of the encoder 2 is connected to the converter circuit 10, in which the signal coming from the encoders 2 is processed and converted into an execution signal.

The method of detecting the metal objects is performed based on a following exemplary device 1.

The conveyed material 9 is transferred from the belt 11 containing steel cables of the delivery belt conveyor to the belt 12 of the pickup conveyor, which also contains steel cables. At the moment when a metal object 13 appears in the Fördergutstrom 9, takes place during the displacement of this object 13 in the generated by the encoder 2 electromagnetic persistent field disturbance of this field by the movable object 13 and at the output of the encoder 2, an electrical signal which, after conversion in the circuit 10, causes the signaling or the blocking device to respond. The signal generating area in the donors 2 is free from the disturbing influence of the steel cables thanks to its arrangement and shielded from the influences of other metal objects and the zone of its greatest sensitivity is turned to the displacing metal object 13.

Claims (3)

Invention claim: 1. A method for detecting metal objects in Fördergutstrom of belt conveyors with steel cable belts, in which the generated during the displacement of the metal object signal of the encoder or a unit of magnetic, electromagnetic or induction is converted into an execution signal, characterized in that the transmitter in the field the band transfer, preferably housed in the band transfer station of a conveyor system, wherein donors are used with asymmetrical directional characteristic of the sensitivity and turned to the side with higher sensitivity to Fördergutstrom. 2. Apparatus for carrying out the method according to item 1, provided with one or more magnetic, electromagnetic or induction sensors whose output signals are summed and which are connected to a conversion circuit, characterized in that the nonmagnetic brackets (3) attached encoder (2 ) are arranged immovably within an at least one open screen (5) made of a magnetic material, and that they are turned with this open side to Fördergutstrom (9), and the device (1) with elements (4) for attachment to a selected location the band transfer is provided. 3. Device according to item 2, characterized in that the open side of the screen (5) is covered by a shield (6) made of a non-magnetic and preferably at the same time dielectric material. For this T page drawings Field of application of the invention The invention relates to a method for detecting metal objects in a Fördergutstrom, preferably of belt conveyors with steel cable belts, especially on crawler excavators and belt conveyors in lignite opencast mining and 'an apparatus for performing the method. Characteristic of the known technical solutions The detection of metal objects in the conveyed on belt conveyors with steel cable bands encounters great difficulties because of the disturbances coming from the steel cables. Thus, the detection of metal objects is impossible or uncertain. From the PL-GM 25648 a device with an electromagnetic differential sensor for detecting the ferromagnetic objects on the conveyor belt is known, each transmitter having a ferromagnet core in the form of an H, which is magnetized by a winding through which a direct current flows. The device consists of three transducers arranged parallel to one another. In this arrangement, the mutual polarity of the magnetic polarity is obtained, wherein like poles shorted by the direction of the tape by a common pole piece and the output windings are connected in series to form a single current path, which is connected to the device. During the movement of the ferromagnetic object in the region of the magnetic field generated by the encoder, an electrical signal in the form of a voltage wave is induced on the output windings connected one behind the other. The device eliminates the signal of the presence of a ferromagnetic object on the belt at the moment when the amplitude of the output signal of these donors exceeds a certain value. This device can not be used under conveyor belts with steel cables that create a background that makes it impossible to clearly detect a signal coming from a foreign metal in the conveyed material. So far, neither in the general technical literature nor in the patent literature methods or devices for detecting the presence of a metal in the conveyed on belt conveyors with steel cord strips known. Object of the invention The object of the invention is to use a method and a device for detecting metal objects, which allows accurate detection of metal objects on conveyors with steel reinforcements. Explanation of the essence of the invention The invention has for its object to provide a method and a device for verifying metal objects in the conveyed goods of preferably belt conveyors with steel cable belts, in particular on rotary excavators and belt conveyors in lignite opencast mining, in which the signal of a transmitter or a set of magnetic, electromagnetic or induction transmitters, which is generated during the displacement of the metal object, is converted into an execution signal and is equipped with one or more magnetic, electromagnetic or induction sensors whose output signals are summed and which are connected to a conversion circuit.