Transmission device and method for operating a transmission device

The invention claimed is: 1. A transmission device ( 1 , 2 , 3 ) comprising: at least one electro-hydraulic transmission control unit ( 21 ) and a plurality of gear wheel pairs that are engaged and disengaged from a force flow by fluid actuated shifting elements (A-F) such that various gear ratios (“ 1 ”-“ 9 ”, “R”) are obtained; each shifting element (A-F) being acted by, a first functional surface of an actuating piston of the respective shifting element (A-F), via a fluidic actuating pressure acting in an engaging direction of the respective shifting element (A-F); and at least a first shifting element (A) and a second shifting element (E) being directly and functionally connected such that: at least the actuating piston ( 5 ) of the first shifting element (A) being acted by a second functional surface ( 5 B, 32 B) of the actuating piston ( 5 ) of the first shifting element (A) via a fluidic actuating pressure (p_A; p_E) acting in a disengaging direction of the first shifting element (A), a piston space ( 9 ) of the first shifting element (A), partially delimited by the second functional surface ( 5 B, 32 B) of the actuating piston ( 5 ) of the first shifting element (A), being separate from a piston space of the second shifting element (E), and the piston space ( 9 ), partially delimited by the second functional surface ( 5 B) of the actuating piston ( 5 ) of the first shifting element (A), being selectively connectable by a valve device ( 11 ) to either a pressurization area of the second shifting element (E), pressurized by the second actuating pressure (p_E), when the valve device ( 11 ) is in a first position, or a pressurization area of the first shifting element (A), pressurized by the first actuating pressure (p_A), when the valve device ( 11 ) is in a second position. 2. The transmission device according to claim 1 , wherein the first shifting element (A) comprises a restoring spring mechanism ( 10 ) that acts on the actuating piston ( 5 ) of the first shifting element (A) in the disengaging direction of the first shifting element (A). 3. The transmission device according to claim 1 , wherein to obtain a first gear ratio (“ 1 ”) in which the actuating pressure (p_E) of the second shifting element (E) is essentially zero and a support factor (SA) is higher than in a second gear ratio (“ 4 ”, “ 6 ”) in which the actuating pressure (p_E) of the second shifting element (E) corresponds to an engaging pressure level of the second shifting element (E), the second functional surface ( 5 B, 32 B) of the actuating piston ( 5 ) of the first shifting element (A) is acted by an actuating pressure which is at essentially zero. 4. The transmission device according to claim 1 , wherein the first functional surface ( 5 A, 32 A) of the actuating piston ( 5 ) of the first shifting element (A) is larger than the second functional surface ( 5 B, 32 B) of the actuating piston ( 5 ) of the first shifting element (A), and an area of the first shifting element (A) that carries the actuating pressure (p_A) is functionally connected with the piston space ( 9 ) partially delimited by the second functional surface ( 5 B, 32 B) of the actuating piston ( 5 ) of the first shifting element (A) by the valve device ( 11 ) that is actuated as a function of the actuating pressure (p_E) of the second shifting element (E). 5. The transmission device according to claim 4 , wherein the valve device ( 11 ) is a changeover valve that is controlled, as a function of the actuating pressure (p_E) of the second shifting element (E), and the valve device ( 11 ) has a piston element ( 12 ) onto which the actuating pressure (p_A) of the first shifting element (A) and the actuating pressure of the second shifting element (E) is applied. 6. The transmission device according to claim 1 , wherein the actuating piston ( 5 ) of the first shifting element (A) is arranged to move longitudinally on a shaft ( 29 ) and is functionally connected by at least one carrier element ( 30 , 31 ) that passes through the shaft ( 29 ) to a differential piston ( 32 ) arranged to move longitudinally in the shaft ( 29 ), the differential piston ( 32 ) is acted upon by a functional surface ( 32 A) by the actuating pressure (p_A) of the first shifting element (A) acting in the engaging direction of the first shifting element (A), and towards a further functional surface ( 32 B) by the actuating pressure (p_E) of the second shifting element (E) acting on the differential piston ( 32 ) in the disengaging direction of the first shifting element (A). 7. A transmission device comprising: at least one electro-hydraulic transmission control unit and with a plurality of gear wheel pairs that are engaged and disengaged from a force flow by fluid actuated shifting elements such that various gear ratios are obtained; each shifting element being acted upon, in an area of a first functional surface of an actuating piston, with a fluidic actuating pressure acting in an engaging direction of the respective shifting element; at least the first shifting element and a second shifting element being functionally connected such that at least an actuating piston of the first shifting element, as a function of an actuating pressure of the second shifting element, being acted upon in an area of a second functional surface by a fluidic actuating pressure acting in a disengaging direction of the first shifting element; a piston space of the first shifting element, partially, delimited by the second functional surface of the actuating piston of the first shifting element, being separate from a piston space of the second shifting element partially delimited by the first functional surface of the actuating piston; and either an area of the second shifting element, carrying an actuating pressure, or an area of the first shifting element, carrying an actuating pressure, being connectable to the piston space partially delimited by the second functional surface of the actuating piston of the first shifting element; wherein the actuating pressure of the first shifting element is set by the transmission control unit essentially to zero, during emergency running operation, while the actuating pressure of the second shifting element is increased by the transmission control unit to a maximum system pressure. 8. The transmission device according to claim 1 , wherein the first shifting element (A) is one of an interlocking shifting element and a frictional shifting element.