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A gas meter with integrated gas shut-off valve has a housing with a gas inlet and a gas outlet. A device to record the gas flow, a meter mechanism, a gas shut-off valve and optionally a pressure reducer are positioned in a gas flow path between the gas inlet and the gas outlet. The gas shut-off valv

A gas meter with integrated gas shut-off valve has a housing with a gas inlet and a gas outlet. A device to record the gas flow, a meter mechanism, a gas shut-off valve and optionally a pressure reducer are positioned in a gas flow path between the gas inlet and the gas outlet. The gas shut-off valve is an electrically operated valve with a spherical or cylindrical valve element.

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1. A gas meter with integrated gas shut-off valve comprising: a housing, having a gas inlet and a gas outlet,a gas flow meter mechanism, anda gas shut-off valve comprising a valve unit, a drive unit having a motor and a connection unit connected to the valve unit, the meter mechanism and the shut-of

1. A gas meter with integrated gas shut-off valve comprising: a housing, having a gas inlet and a gas outlet,a gas flow meter mechanism, anda gas shut-off valve comprising a valve unit, a drive unit having a motor and a connection unit connected to the valve unit, the meter mechanism and the shut-off valve with the valve unit, drive unit having the motor and the connection unit being arranged in a gas flow path between the gas inlet and the gas outlet,wherein the gas shut-off valve is an electrically operated valve with a spherical or cylindrical valve element, andwherein the valve unit further comprises a valve body and only one lip seal configured to seal the valve element to the valve body. 2. The gas meter of claim 1, comprising an internal power supply, in the form of a battery, for autonomous operation of the gas meter. 3. The gas meter of claim 1, further comprising a wireless receiver or a wireless receiver and transmitter, which exchange information with a wireless receiver and/or wireless transmitter situated outside the gas meter, to enable wireless communication and control of the gas meter. 4. The gas meter of claim 3, wherein electronic components for the wireless receiver and/or transmitter are arranged directly on a flat conductor or integrated in it. 5. The gas meter of claim 1, wherein the valve element is rotatably mounted in the valve body, the valve body defining at least one elongated opening with two opposite ends, the drive unit comprising at least one connector extending through the at least one opening to connect to the valve element, the at least one connector being capable of moving along the elongated opening between the two opposite ends to thereby rotate the valve element between an open position and a closed position. 6. The gas meter of claim 5, wherein the valve body defines at least one groove aligning with the at least one opening, the at least one connector extending through the opening and locate within the grooves of the valve element for rotating the valve element between an open position and a closed position. 7. The gas meter of claim 1, wherein the units are connectable to each other in modular fashion and separable from each other. 8. The gas meter of claim 7, wherein the drive unit has a coupling piece having two connectors for driving the valve element and the valve body has two openings through which the two connectors extend to engage the vale element in shape-mated manner, the openings being arranged to form stops for the connectors preventing rotation of the valve element beyond 90°. 9. The gas meter of claim 7, wherein at least one of the valve body and the valve element is made from plastic. 10. The gas meter of claim 7, wherein the drive unit has a gear mechanism, which is connected as a modular unit with the valve body after connection of the valve element with the drive unit. 11. The gas meter of claim 10, wherein the gear mechanism comprises a worm fitted to a shaft of the motor, and a worm gear in mesh with the worm. 12. The gas meter of claim 7, wherein the drive unit has a switch and at least one trip cam arranged to operate the switch to recognize the open and closed position of the valve element. 13. The gas meter of claim 12, wherein the motor and the switch of the drive unit (A) are connected with a flat conductor. 14. The gas meter of claim 13, wherein the flat conductor has electronic components that prevent the formation of an igniting spark. 15. The gas meter of claim 13, wherein the flat conductor extends through an opening in an outer wall of the housing and the opening is sealed by a fluid-tight cable bushing. 16. A gas meter with integrated gas shut-off valve comprising: a housing, having a gas inlet and a gas outlet,a gas flow meter mechanism, anda gas shut-off valve, the meter mechanism and the shut-off valve being arranged in a gas flow path between the gas inlet and the gas outlet,wherein the gas shut-off valve is an electrically operated valve with a spherical or cylindrical valve element;wherein the gas shut-off valve has a valve unit (V) comprising a valve body and a sealing element disposed therein, a drive unit (A) having a motor, and a connection unit (S), units (V, A, S) being connectable to each other in modular fashion and separable from each other;wherein the drive unit (A) has a switch and at least one trip cam arranged to operate the switch to recognize the open and closed position of the valve element;wherein the motor and the switch of the drive unit (A) are connected with a flat conductor which extends through an opening in an outer wall of the housing and the opening is sealed by a fluid-tight cable bushing; andwherein the opening has a shaping forming a depression on a first end of the opening, the fluid-tight cable bushing passes through the opening and comprises two profile supports with a first flange having snap-on elements and a second flange angled from it, in which in the assembled state:a. the first flanges of the profile supports extend symmetric to each other in the direction of the longitudinal axis of the flat conductor and enclose the flat conductor sandwich-like on both sides with surface contact;b. to form a first fixation point the snap-on elements of the first flange are mounted v-shaped with the V opening pointing towards the opening and snapped directly onto the first end of the opening;c. to form a stop surface the second flanges of the profile supports extend fin-like laterally beyond a second end of the opening; andd. a fluid-tight potting mass covers the fixation point positioned in the area of the depression. 17. The gas meter of claim 16, wherein each first flange of the fluid-tight cable bushing has more than one snap-on element to form at least one additional fixation point. 18. The gas meter of claim 16, wherein the fluid-tight cable bushing has spacers to vary the design height of the cable bushing and to protect the flat conductor, the spacers are fixed to the first flanges and the flat conductor by connection elements and/or glue.