Motor housing for an electric compressor of an air conditioning system

What is claimed is: 1. A motor housing for a compressor comprising: a cylindrical, internally pressurized part for receiving an electric motor, which, at a compressor side, is securable on a central housing member of the compressor and, at a head side, is closed by a bottom whose outer side serves as a contact area for an inverter for driving the motor, wherein on an inner side of the bottom a flow path is developed for cold suction gas and on an outer side of bottom cooling areas for the absorption of heat loss generated by the inverter is developed, wherein the motor housing comprises at the head side a box-like receiving volume with a bottom and side walls encompassing this bottom for a partial enclosure of inverter electronics that is integrally formed around the cylindrical part of the motor housing, wherein the bottom of the box-like receiving volume comprises openings and connection and sealing areas with a connection geometry for mounting electric connector plugs, wherein the bottom comprises on the outer side plateau-like regions as the cooling areas, which serve for the thermal coupling of a plurality of power semiconductors of the inverter, and wherein plateau-like regions form a plane with an inverter-side rim of the box-like receiving volume and a sealing edge encircling the bottom of the cylindrical part. 2. A motor housing as in claim 1 , wherein one side wall is formed by a segment of the outer wall of the cylindrical part on its circumference and the remaining side walls are two opposite side walls extending from the circumference of the cylindrical part as well as a side wall, connecting these side walls, disposed opposite the side wall formed by the segment of the cylindrical part. 3. An assembly, comprising a motor housing as in claim 2 , an inverter and an electric motor, wherein the electric motor is received into the cylindrical part of the motor housing and the inverter is disposed at the head side and covered by a bowl-like inverter cap, wherein in the box-like receiving volume of the motor housing an EMC filter coil and one or several intermediate circuit capacitors of the inverter are disposed. 4. A motor housing as in claim 1 , wherein the bottom comprises one or several openings and a region with a connection geometry for receiving an electric feedthrough unit or discrete electric feedthroughs. 5. An assembly, comprising a motor housing as in claim 1 , an inverter and an electric motor, wherein the electric motor is received into the cylindrical part of the motor housing and the inverter is disposed at the head side and is covered by a bowl-like inverter cap. 6. An assembly as in claim 5 , wherein the inverter is implemented as an electronic module of a circuit board, a support structure and power components. 7. A motor housing for a compressor comprising: a cylindrical, internally pressurized part for receiving an electric motor, which, at a compressor side, is securable on a central housing member of the compressor and, at a head side, is closed by a bottom whose outer side serves as a contact area for an inverter for driving the motor, wherein on an inner side of the bottom a flow path is developed for cold suction gas and on an outer side of bottom cooling areas for the absorption of heat loss generated by the inverter is developed, wherein the bottom of the cylindrical part comprises on the outer side plateau-like regions as the cooling areas, which serve for the thermal coupling of a plurality of power semiconductors of the inverter, wherein the cylindrical part comprises on its inner side a hollow cylindrical region with a connection geometry for securing the motor, wherein the motor housing comprises at the head side a box-like receiving volume with a bottom and side walls encompassing this bottom for a partial enclosure of inverter electronics, wherein plateau-like regions form a plane with an inverter-side rim of the box-like receiving volume and a sealing edge encircling the bottom of the cylindrical part.