Method for controlling a combined rotary/push movement

The invention claimed is: 1. A method for controlling a combined rotary/push movement of a load-receiving means ( 10 ) of an industrial truck, the method comprising: providing a rotary movement of the load-receiving means ( 10 ) about a rotary shaft (D) by an angle of 180° and a push movement of the rotary shaft (D) along a pushing path (S) over a predetermined distance; wherein both the rotary movement and the push movement are brought about by respective hydraulic elements ( 32 , 34 ), which are supplied with hydraulic fluid by a single hydraulic pump ( 22 ) which is driven by an associated pump motor ( 24 ), controlling a performance characteristic of the hydraulic pump ( 22 ) according to a predetermined progression over time during the rotary/push movement; wherein the industrial truck comprises a valve assembly ( 30 ) configured to provide: only the rotary movement of the load-receiving means ( 10 ) when a hydraulic pressure provided by the hydraulic pump ( 22 ) is below a threshold value, and both the rotary movement and the push movement when the hydraulic pressure provided by the hydraulic pump ( 22 ) is above the threshold value, providing sensor means ( 36 a , 36 b ) to detect a temperature of the pump motor ( 24 ) and/or of the hydraulic pump ( 22 ), and adapting the predetermined progression over time of the performance characteristic of the hydraulic pump ( 22 ) during the rotary/push movement according to a predetermined relationship depending on the temperature of the pump motor ( 24 ) and/or the pump ( 22 ) detected by the sensor means ( 36 a , 36 b ); wherein the performance characteristic is controlled such that the rotary/push movement includes the following steps: a) solely rotating the load-receiving means ( 10 ) until a load ( 20 ) which is carried by the load-receiving means reaches a first maximum extent in projection onto the pushing path (S); b) simultaneously rotating the load-receiving means ( 10 ) and moving the rotary shaft (D) until the load ( 20 ) reaches a second maximum extent in projection onto the pushing path (S); c) solely rotating the load-receiving means until the total rotary angle covered is 180°. 2. The method of claim 1 , wherein, above the threshold value, the rotary movement takes place at a substantially constant rotational velocity (v Drmax ) which corresponds to the threshold value. 3. The method of claim 1 , wherein the performance characteristic is a speed of the hydraulic pump ( 22 ). 4. The method of claim 1 , wherein the predetermined relationship is a linear relationship. 5. A device for controlling a combined rotary/push movement of a load-receiving means ( 10 ) of an industrial truck, the device comprising: a load-receiving means ( 10 ) attached to a rotary shaft (D) and configured to rotate about the rotary shaft (D), wherein the rotary shaft (D) is configured to move along a pushing path (S); a first hydraulic element ( 32 ) configured to provide a push movement of the rotary shaft (D); a second hydraulic element ( 34 ) configured to provide a rotary movement of the load-receiving means ( 10 ); a hydraulic pump ( 22 ) driven by an associated pump motor ( 24 ) and configured to provide hydraulic pressure during operation and to supply the first and the second hydraulic element ( 32 , 34 ) with hydraulic fluid; a control device ( 38 ) configured to control a performance characteristic of the hydraulic pump ( 22 ) according to a predetermined progression over time during the rotary/push movement; a valve assembly ( 30 ) configured: to supply only the second hydraulic element ( 34 ) with hydraulic fluid when the performance characteristic of the hydraulic pump ( 22 ) is below a threshold value, whereby the rotary movement of the load-receiving means ( 10 ) is brought about at a rotational velocity (v Dr ) which is dependent on the performance characteristic, and to supply both the first hydraulic element ( 32 ) and the second hydraulic element ( 34 ) with hydraulic fluid when the performance characteristic of the hydraulic pump ( 22 ) is above the threshold value, thereby providing both the rotary movement and the push movement; sensor means ( 36 a , 36 b ) configured to detect a temperature of the pump motor ( 24 ) and/or of the hydraulic pump ( 22 ), wherein the control device ( 38 ) is configured to adapt the predetermined progression over time of the performance characteristic of the hydraulic pump ( 22 ) during the rotary/push movement according to a predetermined relationship depending on the temperature detected by the sensor means ( 36 a , 36 b ); wherein the performance characteristic is controlled such that the rotary/push movement includes the following steps: a) solely rotating the load-receiving means ( 10 ) until a load ( 20 ) which is carried by the load-receiving means reaches a first maximum extent in projection onto the pushing path (S); b) simultaneously rotating the load-receiving means ( 10 ) and moving the rotary shaft (D) until the load ( 20 ) reaches a second maximum extent in projection onto the pushing path (S); c) solely rotating the load-receiving means until the total rotary angle covered is 180°. 6. The device of claim 5 , wherein, above the threshold value, the rotary movement takes place at a substantially constant rotational velocity (v Drmax ) which corresponds to the threshold value. 7. The device of claim 5 , wherein the performance characteristic is a speed of the hydraulic pump ( 22 ). 8. The device of claim 5 , wherein the predetermined relationship is a linear relationship. 9. Industrial truck comprising the device according to claim 5 . 10. A method for controlling a combined rotary/push movement of a load-receiving means of an industrial truck, the method comprising: providing a rotary movement of the load-receiving means about a rotary shaft by an angle of 180° and a push movement of the rotary shaft along a pushing path over a predetermined distance, wherein both the rotary movement and the push movement are brought about by respective hydraulic elements, which are supplied with hydraulic fluid by a single hydraulic pump which is driven by an associated pump motor, controlling a performance characteristic of the hydraulic pump according to a predetermined progression over time during the rotary/push movement; wherein the industrial truck comprises a valve assembly configured to provide: only the rotary movement of the load-receiving means when a hydraulic pressure provided by the hydraulic pump is below a threshold value, and both the rotary movement and the push movement when the hydraulic pressure provided by the hydraulic pump is above the threshold value, providing sensor means to detect a temperature of the pump motor and/or of the hydraulic pump, and adapting the predetermined progression over time of the performance characteristic of the hydraulic pump during the rotary/push movement according to a predetermined relationship depending on the temperature of the pump motor and/or the pump detected by the sensor means, wherein the performance characteristic is controlled such that the rotary/push movement includes the following steps: a) solely rotating the load-receiving means until a load which is carried by the load-receiving means reaches a first maximum extent in projection onto the pushing path; b) simultaneously rotating the load-receiving means and moving the rotary shaft until the load reaches a second maximum extent in projection onto the pushing path; and c) solely rotating the load-receiving means until the total rotary angle covered is 180°. 11. The method of claim 10 , wherein, above the threshold value, the rotary movement tak