Crate-stacking system and crate-stacking apparatus

What is claimed is: 1. A crate-stacking system comprising: a multiplicity of crates for stacking one on top of the other in a crate-stacking direction, wherein the respective crate has an upper insertion opening for the insertion of articles into the crate, and wherein the respective crate has a base which is situated opposite the upper insertion opening and which has an underside, at which underside the base is equipped, on at least two opposite sides, with a respective elongate projection which extends downward from the underside and with a lateral spacing to a respectively associated outer longitudinal edge of the base, such that, at the at least two opposite sides, a laterally outwardly open engagement longitudinal recess is provided which is delimited by the underside of the base and by the respective elongate projection and which has an engagement height extending in the crate-stacking direction, a crate-stacking apparatus for the automatic stacking of the crates, wherein the crate-stacking apparatus has: a crate conveying apparatus with a conveying path which defines a conveying surface and on which the crates can be transported, and which has: a crate feed section onto which the crates can be fed, a crate stacking section in which the crates can be stacked, and a crate discharge section from which the stacked crates can be discharged, wherein the crate conveying apparatus is designed to convey the crates from the crate feed section to the crate stacking section and to convey the stacked crates from the crate stacking section to the crate discharge section, and a crate lifting apparatus which is arranged at the crate stacking section and which, on opposite sides of the conveying path, has gripping elements which are movable toward one another and away from one another in a gripping direction at least substantially parallel to the conveying surface and which are movable upward and downward synchronously in the crate-stacking direction at least substantially perpendicular to the conveying direction, wherein each gripping element has a free end with a gripping finger which projects laterally toward the conveying path and which, in the crate-stacking direction, has an engagement thickness which is at least substantially equal to or smaller than the engagement height of the engagement longitudinal recess, such that a respective crate can be gripped at mutually opposite sides by virtue of the gripping fingers engaging, at the mutually opposite sides, into the associated engagement longitudinal recesses, and wherein the respective gripping element has a lateral abutment shoulder which is formed with a shoulder spacing to a free end of the associated gripping finger, wherein the shoulder spacing is smaller than a lateral engagement depth of the engagement longitudinal recess, such that, when the respective gripping finger engages into the associated engagement longitudinal recess, the abutment shoulder is in abutting contact with a side surface of the crate and the respective gripping finger is in contact with the underside of the base but not with the respective elongate projection, and a control apparatus which is connected to a sensor that detects at least one characteristic of at least one crate, the control apparatus further being connected to the crate conveying apparatus and to the crate lifting apparatus and on the basis of the at least one sensed characteristic of the at least one crate controls the crate conveying apparatus and the crate lifting apparatus in a manner coordinated with one another such that a process can be repeatedly performed in which a crate situated in the crate stacking section on the conveying surface can be gripped and lifted by the gripping elements, in each case one new crate can be conveyed into the crate stacking section below the lifted crate, the lifted crate can be set down onto the new crate, and the in each case new crate can in turn be gripped by the gripping elements and lifted together with the one or more previous crates set down thereon in order that, in turn, a new crate can be arranged there below. 2. The crate-stacking system as claimed in claim 1 , wherein, on each side of the conveying path, there is provided a single gripping element with a single gripping finger which is of elongate form in the direction of the conveying path. 3. The crate-stacking system in claim 2 , wherein the movement of the gripping elements toward one another and away from one another is a pivoting movement about a spindle which is at least substantially parallel to the conveying surface. 4. The crate-stacking system as claimed in 2 , wherein the movement of the gripping element on one side of the conveying path towards and away from the gripping element on the opposite side of the conveying path is not synchronous with the movement of the gripping element on the opposite side of the conveying path and is controllable by the control apparatus. 5. The crate-stacking system in claim 4 , wherein the crate lifting apparatus has, at the opposite sides of the conveying path, centering elements which are movable toward one another and away from one another in a centering direction at least substantially parallel to the conveying surface, wherein each centering element has an upper and a lower centering section, which centering sections are oriented in each case laterally with respect to the conveying path in order, for the centering of the previous crate/crates with respect to a new crate, to be able to laterally make contact with a respectively associated side surface of the previous crate/crates and with a respectively associated side surface of the new crate. 6. The crate-stacking system as claimed in claim 5 , wherein the centering elements are mechanically coupled in terms of motion to the gripping elements in order to mechanically synchronize the movement of the centering elements with the movement of the gripping elements. 7. The crate-stacking system as claimed in claim 2 , wherein the movement of the gripping element on one side of the conveying path towards and away from the gripping element on the opposite side of the conveying path is synchronous with the movement of the gripping element on the opposite side of the conveying path and is controllable by the control apparatus. 8. The crate stacking system as claimed in claim 1 , wherein the gripping elements are movable toward one another and away from one another in a substantially linear gripping direction and at least substantially parallel to the conveying surface. 9. The crate-stacking system as claimed in claim 1 wherein the sensor detects a type of the crate. 10. The crate-stacking system as claimed in claim 1 wherein the sensor detects a position of the crate. 11. The crate-stacking system as claimed in claim 1 wherein the sensor is a camera or a laser scanner. 12. A crate-stacking apparatus for the automatic stacking of crates, wherein the crate-stacking apparatus comprises: a crate conveying apparatus with a conveying path which defines a conveying surface and on which the crates can be transported, and which has: a crate feed section onto which the crates can be fed, a crate stacking section in which the crates can be stacked, and a crate discharge section from which the stacked crates can be discharged, wherein the crate conveying apparatus is designed to convey the crates from the crate feed section to the crate stacking section and to convey the stacked crates from the crate stacking section to the crate discharge section, and a crate lifting apparatus which is arranged at the crate stacking section and which, on opposite sides of the conveying path, has gripping elements which are movable tow