Disclosed herein is a motorized motorcycle stand. The motorized stand includes a lifting platform. The motorized stand further includes an electric motor. The motorized stand further includes a lift column. The motorized stand further includes at least one stabilizing column. The motorized stand further includes a motor housing. The electric motor is oriented at an acute angle with respect to a plane defined by said lift column and stabilizing column.

The present disclosure discloses a method and system for positioning an engineering machinery work object. The method comprises: a reference station collects in real time satellite positioning information as a reference station current measurement value D0, and transmits D0 to first and second mobile stations; the first mobile station and the second mobile station respectively collect in real time satellite positioning information as a first mobile station current measurement value D1 and a second mobile station current measurement value D2, and respectively perform dynamic differential processes on D0 and D1 and D0 and D2 to obtain relative coordinate information of the first mobile station and the second mobile station; a crane resolving unit determines the boom extension length, the boom pitch angle and boom rotating angle based on the relative coordinate information of the first mobile station and the second mobile station; based on the boom extension length, the boom pitch angle and the boom rotating angle, a crane controller controls the boom to move to a hoisting position of the object to hoist the object. The present disclosure can greatly increase the precision of positioning the work object, and can also automatically track the boom to avoid errors and risks resulting from visual adjustment.

The present disclosure discloses a method and system for positioning an engineering machinery work object. The method comprises: a reference station collects in real time satellite positioning information as a reference station current measurement value D0, and transmits D0 to first and second mobile stations; the first mobile station and the second mobile station respectively collect in real time satellite positioning information as a first mobile station current measurement value D1 and a second mobile station current measurement value D2, and respectively perform dynamic differential processes on D0 and D1 and D0 and D2 to obtain relative coordinate information of the first mobile station and the second mobile station; a crane resolving unit determines the boom extension length, the boom pitch angle and boom rotating angle based on the relative coordinate information of the first mobile station and the second mobile station; based on the boom extension length, the boom pitch angle and the boom rotating angle, a crane controller controls the boom to move to a hoisting position of the object to hoist the object. The present disclosure can greatly increase the precision of positioning the work object, and can also automatically track the boom to avoid errors and risks resulting from visual adjustment.

According to an example aspect of the present invention, there is provided a remote control workstation for controlling more than one type of load handling equipment. The remote control workstation is configured for communications with a plurality of types of load handling equipment and configured to cause connecting to one of said load handling equipment, determining a type of the connected load handling equipment, and in response to establishing a connection between the remote control workstation and said load handling equipment, displaying on a user interface of the remote control workstation a load handling equipment type specific control view from a plurality of load handling equipment type specific control views in accordance with a load handling equipment type of said load handling equipment.

According to an example aspect of the present invention, there is provided a remote control workstation for controlling more than one type of load handling equipment. The remote control workstation is configured for communications with a plurality of types of load handling equipment and configured to cause connecting to one of said load handling equipment, determining a type of the connected load handling equipment, and in response to establishing a connection between the remote control workstation and said load handling equipment, displaying on a user interface of the remote control workstation a load handling equipment type specific control view from a plurality of load handling equipment type specific control views in accordance with a load handling equipment type of said load handling equipment.

A control switch for operating a machine, the control switch including a housing that includes a gripping region for an operator, and a detecting device for detecting an operator. The control switch further includes a safety circuit for activating the control switch when an operator is detected, and deactivating the control switch when the operator is not detected. The safety circuit includes a detecting device that includes at least one sensor operable to detect in a near field an operator's hand holding the control switch in the gripping region. The detecting device includes at least one additional sensor which detects a use of the control switch.

A control switch for operating a machine, the control switch including a housing that includes a gripping region for an operator, and a detecting device for detecting an operator. The control switch further includes a safety circuit for activating the control switch when an operator is detected, and deactivating the control switch when the operator is not detected. The safety circuit includes a detecting device that includes at least one sensor operable to detect in a near field an operator's hand holding the control switch in the gripping region. The detecting device includes at least one additional sensor which detects a use of the control switch.

An arrangement of a gantry lifting device for handling containers, in particular ISO containers, having a sensor device for the navigation of the gantry lifting device and having a clearance profile which is formed such that the gantry lifting device can move across a container, and of a row of spaced-apart marking elements such that the gantry lifting device can be moved along the row of marking elements by means of raster navigation, where the row of marking elements can be read by the sensor device of the gantry lifting device. The sensor device, in an operating position, is arranged outside the clearance profile on the gantry lifting device so as, in the operating position, to read the row of marking elements for the navigation of the gantry lifting device, where the row of marking elements is arranged next to the clearance profile of the gantry lifting device.

An arrangement of a gantry lifting device for handling containers, in particular ISO containers, having a sensor device for the navigation of the gantry lifting device and having a clearance profile which is formed such that the gantry lifting device can move across a container, and of a row of spaced-apart marking elements such that the gantry lifting device can be moved along the row of marking elements by means of raster navigation, where the row of marking elements can be read by the sensor device of the gantry lifting device. The sensor device, in an operating position, is arranged outside the clearance profile on the gantry lifting device so as, in the operating position, to read the row of marking elements for the navigation of the gantry lifting device, where the row of marking elements is arranged next to the clearance profile of the gantry lifting device.

A transmitter housing of an operating device for devices and installations, such as in particular remote-controlled mobile, industrial or commercial devices and installations, has a housing wall which encloses a receptacle, wherein at least one operating element is mounted on an outer side of the housing wall and control electronics are accommodated in the receptacle, and two retaining elements, which close the receptacle, which are connected to a left-hand end and a right-hand end of the housing wall and therein project beyond the contour of the housing wall on all sides of the latter. Therein it is provided that the retaining elements are produced from an elastomer material at least in a respective contact region with the housing wall.