Temperature-driven valve assembly

The invention claimed is: 1. A gas pressure spring comprising two separated chambers for accommodating a fluid, wherein the chambers are connected to each other through a valve assembly, the valve assembly comprising: a) a channel portion for the fluid-conducting connection of the two chambers for accommodating the fluid having a through opening for the fluid; b) at least one switching element having an opening configuration in an opening temperature range and a closing configuration in a closing temperature range; b1) wherein the at least one switching element is, at least in sections, movable relative to the channel portion along an axis of movement in a temperature-driven manner; b2) wherein an opening normal of the through opening is oriented towards the switching element, and b3) wherein the channel portion circumferentially enclosed by a channel wall around the axis of movement; and c) at least one sealing means circumferentially extending around the channel wall; c1) wherein the at least one sealing means, in a mounting position, abuts on at least one sealing surface of the channel wall, a surface normal of the sealing surface being oriented towards the at least one switching element; c2) wherein the at least one sealing means, in the mounting position, cooperates, in a sealing manner, with the at least one sealing surface and the at least one switching element ( 8 ) in the closing configuration and closes the through opening; and c3) wherein the at least one sealing means, in the mounting position, is spaced apart from the at least one switching element in the opening configuration along the axis of movement so that a primary fluid path connects the two chambers through the through opening and between the at least one switching element and the at least one sealing means in a fluid-conducting manner, d) at least one recess in the channel wall, d1) wherein a projection of the at least one recess along the axis of movement is, enclosed by a projection of the at least one sealing surface along the axis of movement, and d2) wherein, in an operating position of the sealing means in which the at least one sealing means is spaced apart from the at least one sealing surface along the axis of movement, a secondary fluid path connects the two chambers to each other in a fluid-conducting manner through the at least one recess. 2. The gas pressure spring according to claim 1 , wherein the at least one recess comprises a groove for a fluid transport along the axis of movement in an outer surface of the channel wall circumferentially extending around the axis of movement, the outer surface being cylindrical and/or coaxial to the axis of movement. 3. The gas pressure spring according to claim 2 , wherein a width of the at least one recess in the circumferential direction around the axis of movement is smaller than an outer radius of the cylindrical outer surface of the channel wall. 4. The gas pressure spring according to claim 1 , wherein the sealing means is positively fixed transverse to the axis of movement relative to the channel wall, a thickness of the sealing means the axis of movement in an unloaded state being larger than a distance along the axis of movement of the at least one switching element in the opening configuration from the through opening. 5. The gas pressure spring according to claim 1 , wherein the at least one sealing means is movable relative to the channel wall along the axis of movement in the opening configuration of the at least one switching element. 6. The gas pressure spring according to claim 1 , wherein a) a thickness of the at least one sealing means along the axis of movement in an unloaded state is smaller than a distance along the axis of movement of the at least one switching element the opening configuration from the at least one sealing surface; and b) the thickness of the at least one sealing means is larger than or equal to a distance along the axis of movement of the at least one switching element the closing configuration from the at least one sealing surface. 7. The gas pressure according to claim 1 , wherein the at least one switching element comprises a bimetal deforming along the axis of movement at a switching temperature between the opening temperature range and the closing temperature range. 8. The gas pressure spring according to claim 1 , wherein the channel portion the opening normal of the through opening, and/or the surface normal of the at least one sealing surface are parallel to the axis of movement. 9. The gas pressure spring according to claim 1 , wherein a) the valve assembly is opened in an opening temperature range below a switching temperature so that the two chambers are in fluid connection; and b) the valve assembly is closed in a closing temperature range above the switching temperature so that the two chambers are separated from each other in a fluid-tight manner.