A conveyor for separating, singulating or conveying bulk material comprises a conveying plate, a substructure and a pulse generator for generating an oscillation. The substructure stands on a base surface. The conveying plate is arranged on the substructure at a distance from the base surface. The p
A conveyor for separating, singulating or conveying bulk material comprises a conveying plate, a substructure and a pulse generator for generating an oscillation. The substructure stands on a base surface. The conveying plate is arranged on the substructure at a distance from the base surface. The pulse generator is fixed on the substructure and is/can be brought into an operative connection with the conveying plate. The oscillation generated by the pulse generator can be transmitted to the conveying plate and a force is exerted on the substructure by the oscillation. The conveyor comprises an equalising pulse generator which is fixed on the substructure and creates a counter-oscillation. A counter-force which is in an opposite direction to the force is exerted on the substructure by the counter-oscillation. A resultant force which results from the force and the counter-force and which acts on the substructure is reduced by the counter-force.
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1.-14. (canceled) 15. A conveyor (1) for separating, singulating or conveying a component (10) by means of a mechanical pulse (15, 16, 17), wherein the conveyor (1) comprises: a conveying plate (2) for receiving the component (10),a substructure (3), anda pulse generator (4) for generating the mecha
1.-14. (canceled) 15. A conveyor (1) for separating, singulating or conveying a component (10) by means of a mechanical pulse (15, 16, 17), wherein the conveyor (1) comprises: a conveying plate (2) for receiving the component (10),a substructure (3), anda pulse generator (4) for generating the mechanical pulse (15, 16, 17),wherein the conveyor (1) when used as intended stands on a base surface (5) with the substructure (3), and the conveying plate (2) is arranged on the substructure (3) at a distance from the base surface (5),wherein the pulse generator (4) is fixed on the substructure (3) and can be brought into an operative connection with the conveying plate (2), so that the mechanical pulse (15, 16, 17) generated by the pulse generator (4) can be transmitted to the conveying plate (2), andwherein a force is exerted on the substructure (3) by the mechanical pulse (15, 16, 17),wherein the conveyor (1) further comprises an equalising pulse generator (11) which is fixed on the substructure (3), by which equalising pulse generator a counter-pulse (23, 24, 25) can be generated,wherein a counter-force which is in an opposite direction to the force exerted on the conveyor (1) by the pulse generator (4) is exerted on the substructure (3) by the counter-pulse (23, 24, 25), andwherein a resultant force which results from the force and the counter-force and which acts on the substructure (3) is reduced by the counter-force. 16. The conveyor (1) according to claim 15, wherein the equalising pulse generator (11) comprises a counter-mass (12) or can be brought into an operative connection with a counter-mass (12),wherein the counter-force can be increased by the counter-mass (12). 17. The conveyor (1) according to claim 16, wherein the counter-mass (12) can be adapted to the conveyor (1) such that an amount of the force is equal to an amount of the counter-force, so that the resultant force can be cancelled completely. 18. The conveyor (1) according to claim 16, wherein an amount of the counter-pulse which can be generated by the equalising pulse generator (11) is changeable, so that the counter-force can be increased without the counter-mass (12) having to be changed. 19. The conveyor (1) according to claim 15, wherein the substructure (3) comprises a plate receptacle (6) at a distance from the base surface (5), on which receptacle the conveying plate (2) can be fixed,wherein the pulse generator (4) can be brought into an operative connection with the plate receptacle (6) andwherein the conveying plate (2) can be brought into an operative connection with the pulse generator (4) by the plate receptacle (6). 20. The conveyor (1) according to claim 15, wherein the substructure (3) comprises a stand element (14),wherein the substructure (3) when used as intended stands on the base surface (5) with the stand element (14). 21. The conveyor (1) according to claim 20, wherein the stand element (14) has vibration-damping properties. 22. The conveyor (1) according to claim 15, wherein the conveyor (1) comprises a coupling means,wherein the conveyor (1) can be fixed on the base surface (5) by the coupling means. 23. The conveyor (1) according to claim 15, wherein the conveyor (1) comprises at least two pulse generators (4),wherein a first partial conveying pulse (15) can be generated by one of the at least two pulse generators (4),wherein a second partial conveying pulse (16) can be generated by another of the at least two pulse generators (4),wherein the first partial conveying pulse (15) and the second partial conveying pulse (16) can be superimposed in the conveying plate (2) to form a conveying pulse (17),wherein a conveying force (20) can be exerted on the component (10) by the conveying plate (2) which is subjected to the conveying pulse (17), so that the component (10) arranged on the conveying plate (2) is displaceable from a first storage position (21) into a second storage position (22). 24. The conveyor (1) according to claim 23, wherein the conveyor (1) comprises at least two equalising pulse generators (11),wherein a first partial counter-pulse (23) can be generated by one of the at least two equalising pulse generators (11),wherein a second partial counter-pulse (24) can be generated by another of the at least two equalising pulse generators (11),wherein the first partial counter-pulse (23) and the second partial counter-pulse (24) can be superimposed to form a total counter-pulse (25),wherein a resultant counter-force (27) is exerted on the substructure (3) by the total counter-pulse (25),wherein the resultant counter-force (27) is in an opposite direction to a disruptive force (26) exerted on the substructure (3) by the conveying pulse (17), andwherein the resultant force which acts on the substructure (3) and which results from the resultant counter-force (27) and the disruptive force (26) is reduced by the resultant counter-force (27). 25. The conveyor (1) according to claim 15, wherein the conveying plate (2) is produced at least in portions from a translucent material. 26. The conveyor (1) according to claim 25, wherein the conveyor (1) comprises an illumination means,wherein the conveying plate (2) can be backlit by means of the illumination means. 27. The conveyor (1) according to claim 15, wherein the conveyor (1) comprises a device control unit (29),wherein the pulse generator (4) of the conveyor (1) is controllable by the device control unit (29),wherein the device control unit (29) comprises an interface means (31),wherein the conveyor (1) can be brought into an operative connection with an external device (32) by the interface means (31) of the device control unit (29). 28. The conveyor (1) according to claim 15, wherein at least one of the pulse generator (4) and the equalising pulse generator (11) is designed as an oscillator,wherein an oscillation can be generated by the oscillator.
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