Measuring cell, measuring cell receptacle and measuring device with a measuring cell

The invention claimed is: 1 . A measuring cell, comprising: a one-piece measuring cell body comprising: a measurement chamber configured to enable a medium to flow therethrough or to be filled with the medium; and a spring system configured as an integral part of the measuring cell body and comprising at least one spring configured to enable the measuring cell to be clamped in a measuring cell receptacle in at least one clamping direction relating to a measurement chamber axis of the measurement chamber. 2 . The measuring cell according to claim 1 , wherein the at least one spring of spring system is configured: to be clamped by a clamping force exertable thereon by the measuring cell receptacle from the outside in each case such that the measuring cell is thereby clamped in the measuring cell receptacle; as a transverse spring in each case as to enable the measuring cell to be clamped in the measuring cell receptacle in a transverse clamping direction extending perpendicular to the measurement chamber axis; and/or as an axial spring in each case as to enable the measuring cell to be clamped in the measuring cell receptacle in an axial clamping direction extending parallel to the measurement chamber axis. 3 . The measuring cell according to claim 2 , wherein the at least one spring or each spring of the at least one spring is, in each case, configured as a substantially rod-shaped spring element, which comprises a proximal end region connected to a rigid region of a measuring cell body of the measuring cell and a spring region adjacent thereto, configured to be clamped by the clamping force exertable on the respective spring from the outside, wherein the spring region is in particular rod-shaped and/or formed by a flexible region of the measuring cell body. 4 . The measuring cell according to claim 3 , wherein: the spring region of the at least one spring, or of each spring, is configured as a transverse spring, which in each case: includes a distal end region, which is deflectable in a transverse direction by the clamping force exertable on the respective spring from the outside and is opposite the proximal end region connected to the measuring cell; and extends in a direction perpendicular to the measurement chamber axis and/or is oriented such that the distal end region opposite the proximal end region connected to the rigid region of the measuring cell body protrudes outward in the transverse direction when the respective spring is relaxed; and/or the spring region of the at least one spring, or of each spring, is configured as an axial spring, comprising in each case a distal end region, which is deflectable in an axial direction by the clamping force which can be exerted on the respective spring from the outside and is opposite the proximal end region connected to the rigid region of the measuring cell body, wherein the spring region: is oriented such that the deflectable end region thereof protrudes outward in the direction extending away from the measurement chamber and parallel to the measurement chamber axis when the respective spring is relaxed; or is configured such that, in a relaxed state of the respective spring, the spring region extends in a direction extending perpendicular to the measurement chamber axis, and the deflectable end region includes a projection that projects outward in a direction away from the measurement chamber and parallel to the measurement chamber axis. 5 . The measuring cell according to claim 1 , wherein: two end regions, which are opposite each other along the measurement chamber axis, of a measurement chamber wall surrounding the outside of the measurement chamber, at least in portions, are each surrounded on the outside on all sides by an end plate extending radially outward perpendicular to the measurement chamber axis; and the at least one spring, or each spring of the at least one spring, of the spring system is formed in each case by an edge region of an outer edge of one of the end plates. 6 . The measuring cell according to claim 5 , wherein: each end plate comprises four outer edges arranged in a square or in a rectangle; and at least one of the end plates, or each end plate, is configured such that: a first edge and/or a second edge opposite the first edge of the respective end plate comprises in each case one or two springs of the spring system, which are arranged opposite one another as transverse springs such that the measuring cell can be clamped in the measuring cell receptacle in the direction extending perpendicular to the measurement chamber axis; and/or a third edge and/or a fourth edge opposite the third edge of the respective end plate comprises one or two springs of the spring system, which are arranged opposite one another as axial springs such that the measuring cell can be clamped in the measuring cell receptacle in a direction extending parallel to the measurement chamber axis. 7 . The measuring cell according to claim 1 , further comprising plug-connector elements configured as dowel pins or as recesses distributed on an outer side facing a base element of the measuring cell receptacle, which plug-connector elements are configured and arranged such that, when the measuring cell is inserted into the measuring cell receptacle in a position predetermined for the measuring cell, the plug-connector elements interlockingly engage complementary plug-connector elements of the base element, which are distributed on an inner side of the base element. 8 . The measuring cell according to claim 1 , wherein the measuring cell: is adapted as a flow-through cell and/or as a disposable measuring cell; includes a measuring cell body made of a plastic and/or of a sterilizable material; and/or includes a measuring cell body adapted as an injection-molded part and/or forming the measuring cell. 9 . A measuring device, comprising: the measuring cell according to claim 1 ; the measuring cell receptacle, comprising: a cavity delimited by two side elements arranged opposite one another and by a base element of the measuring cell receptacle, into which cavity the measuring cell can be inserted or is inserted through an opening of the measuring cell receptacle opposite the base element such that the measurement chamber axis of the measuring cell extends parallel to a straight line extending through both side elements when the measuring cell is inserted into the measuring cell receptacle; and a clamping device configured to exert a clamping force on the spring system of the measuring cell when inserted or clamped in the measuring cell receptacle, wherein the measuring cell is or is capable of being clamped in the measuring cell receptacle; and a sensor configured to measure at least one measured variable for a medium located in the measurement chamber of the measuring cell or flowing through the measurement chamber. 10 . The measuring device according to claim 9 , wherein the measuring device is configured: such that the sensor comprises a recess into which the measuring cell receptacle is or can be inserted; or as a sensor, wherein: the sensor comprises the measuring cell receptacle; the sensor includes a recess configured to receive the measuring cell, in which recess the measuring cell is or can be clamped via the clamping device; and/or the side elements and the base element of the measuring cell receptacle are each formed by a housing region of a sensor housing of the sensor. 11 . The measuring device according to claim 9 , wherein: the sensor comprises a first and/or a second component, each of which is or can be fastened to an outer side of one of the two side elements; a respective si