Pressure sensor for low-viscosity media

The invention claimed is: 1. Sensor for measuring pressures in low-viscosity media for use in injection molding, comprising: a housing defining a projection with an axis A running through the projection, a diaphragm which has two opposite sides and is permanently connected contacting the housing, a first one of the two opposite sides of the diaphragm defines a flat end face that is exposed to a pressure space, a second one of the two opposite sides being disposed facing the projection of the housing, wherein a measuring element which can infer a pressure prevailing in the pressure space on the basis of deflection of the diaphragm is supported by the projection and arranged behind the second side of the diaphragm and surrounded by the housing, wherein a pressure sleeve is arranged coaxially with the housing axis A outside the housing, said pressure sleeve is tightly connected by a connection contacting the end face of the diaphragm, and on the side of this connection disposed away from the pressure space, there is a gap that separates the pressure sleeve from the housing, wherein the force path from the pressure space extends axially in the direction away from the pressure space in a region across the end face, the measuring element and the projection of the housing, wherein said gap extends axially further than the region of the force path across the measuring element in the direction away from the pressure space. 2. The sensor according to claim 1 , wherein the pressure sleeve in the entire area radially outside the gap comprises no external thread for fixing into a drilled hole. 3. The sensor according to claim 1 , wherein the wall thickness of the pressure sleeve is at least half as large as the inner diameter of the pressure sleeve in the region of the diaphragm. 4. The sensor according to claim 1 , wherein said gap extends axially further across the measuring element by an offset of at least 5 mm, than the region of the force path in the direction away from the pressure space. 5. The sensor according to claim 1 , wherein the measuring element comprises one or more piezoelectric elements with transversal effect. 6. The sensor according to claim 1 , wherein the sensor additionally comprises a temperature measuring element. 7. The sensor according to claim 6 , wherein the temperature measuring element is arranged centrally in the sensor. 8. Sensor for measuring pressures in low-viscosity media for use in injection molding, comprising: a housing with an axis A, a flat end face to be exposed to a pressure space, and a diaphragm which is arranged on the end face and is permanently connected contacting the housing, wherein a measuring element which can infer a pressure prevailing in the pressure space on the basis of deflection of the diaphragm is arranged behind the diaphragm and surrounded by the housing, wherein a pressure sleeve is arranged coaxially with the housing axis A outside the housing, said pressure sleeve is tightly connected contacting the sensor on the end face, and behind this connection, is arranged at a distance from the housing with a gap, wherein said gap extends axially further than the region of the force path across the measuring element in the direction away from the pressure space; and wherein the pressure sleeve is welded onto the end face of the diaphragm. 9. The sensor according to claim 1 , wherein the pressure sleeve has an outer ring jacket surface, which near to the front thereof is provided with an O-ring or a shoulder. 10. The sensor according to claim 1 , wherein the connection at the end face is a weld seam between pressure sleeve and housing.