Load-compensating device for a lifting application with an object to be lifted or lowered

The invention claimed is: 1. A load-compensating device for a lifting application with an object to be lifted or lowered, comprising: a movable platform which carries the object, the platform being supported by at least one spring element to compensate for loads; wherein the spring element acts on a spreading unit which, in order to achieve spreading, transfers a spring force of the spring element into a scissors arrangement; wherein, by virtue of the scissors arrangement, the spring force acts as a resultant lifting force, exerting a lifting action on the platform; wherein a substantially constant lifting force is provided over a substantial lifting distance of the platform by lifting geometry formed via the spreading unit and the scissors arrangement; and wherein the spring element is configured as at least two tension springs acting in parallel, which remain substantially horizontal and parallel to the moveable platform during operation, and is prestressed with a spring prestress at a level such that the spring element is formed as a block in an upper lifting position. 2. The load-compensating device as claimed in claim 1 , wherein the spreading unit has thrust rods which are each articulated between the spring element and a scissor arm of the scissors arrangement. 3. The load-compensating device as claimed in claim 1 , wherein the spreading unit acts on a cam geometry; and wherein a cam geometry predetermines a profile of a lever action of the spreading unit on the scissors arrangement. 4. The load-compensating device as claimed in claim 2 , wherein the spreading unit acts on a cam geometry; and wherein a cam geometry predetermines a profile of a lever action of the spreading unit on the scissors arrangement. 5. The load-compensating device as claimed in claim 3 , wherein the cam geometry is formed by at least one curved surface of a scissor arm of the scissors arrangement; and wherein the spring force acts on the curved surface via the spreading unit via a slider or a roller structure. 6. The load-compensating device as claimed in claim 1 , wherein the spreading unit is formed as a spreading wedge on at least one side.