DE20215082U1 - Flow sensor for detecting the amount of return gas at a fuel tank device - Google Patents

Description

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically  

The description text was not recorded electronically

Claims (14)

1. Flow sensor for detecting the return gas quantity sucked back via a fuel nozzle ( 2 ) of a fuel tank device, with a flow housing ( 17 ) in which a flow channel ( 18 ) is arranged, the inlet side ( 19 ) with the fuel nozzle ( 2 ) and outlet side ( 20 ) is connected to a suction pump ( 9 ), and which has a venturi channel ( 21 ) which has an inlet ( 22 ), a constriction ( 23 ) and a subsequent extension ( 24 ), on the inlet side of which a first one Pressure measuring channel ( 25 ) branches off, which it is assigned to the most pressure sensor ( 26 ) and branches into a second pressure measuring channel ( 27 ) at its narrow point ( 23 ), which is assigned to a second pressure sensor ( 28 ), both pressure sensors ( 26 , 28 ) to determine the volume flow of the Rückführga se from the difference in the detected pressures with an evaluation and control circuit ( 13 , 14 , 15 ) are connected. 2. Flow sensor according to claim 1, characterized in that the venturi channel ( 21 ) is preceded by a partial length of the flow channel ( 18 ) as a calming section ( 30 ). 3. Flow sensor according to claim 1 or 2, characterized in that for the calming section ( 30 ) a ratio length to diameter = 10: 1 provided it. 4. Flow sensor according to one of claims 1 to 3, characterized in that the outlet-side diameter of the Ven turikanals ( 21 ) corresponds to the diameter of the calming section ( 30 ). 5. Flow sensor according to one of claims 1 to 4, characterized in that on the venturi channel ( 21 ), the feed line and the discharge line have the same diameter as the flow channel ( 18 ). 6. Flow sensor according to one of claims 1 to 5, characterized in that the clear diameter of the calming section ( 30 ) corresponds to the clear diameter of the feed line ( 8 ) from the nozzle ( 2 ) and the clear diameter of the discharge line to the suction pump ( 9 ) , 7. Flow sensor according to one of claims 1 to 6, characterized in that the venturi channel ( 21 ) is used as a separate component in an axial bore ( 32 ) of the flow housing ( 17 ) sealed. 8. Flow sensor according to one of claims 1 to 7, characterized in that the Venturi channel ( 21 ) forming part of an inlet part ( 33 ) with a partial length of the narrow point ( 23 ) and an outlet part ( 34 ) with a partial length of the constriction ( 23 ) and a subsequent extension. 9. Flow sensor according to one of claims 1 to 8, characterized in that the inlet part ( 33 ) has an axial receptacle ( 35 ) into which a pin-shaped end piece ( 36 ) is inserted, which encloses the associated partial length of the constriction ( 23 ) and that the mutually facing end faces of the receptacle ( 35 ) and end piece ( 36 ) are arranged at a distance from one another and limit an annular space ( 39 ) which is open to the constriction ( 23 ) and which is connected to the second flow sensor ( 28 ) via a pressure channel ( 27 ) communicates. 10. Flow sensor according to one of claims 1 to 9, characterized in that the pressure channel ( 27 ) has a lateral annular space between the end piece ( 36 ) and the receptacle ( 35 ) and an associated annular space ( 39 ) between the outlet part ( 34 ) and the wall of the axial bore ( 32 ) is formed, into which a window opening ( 40 ) associated with the second flow sensor ( 28 ) opens. 11. Flow sensor according to one of claims 1 to 10, since (32) are spaced from one another by in that the said outlet portion (34) remote from the end face of the inlet part (33) and the end face of Axi albohrung and ei nen to the flow channel (30 ) limit open annular space ( 41 ), which is in communication with a window opening ( 43 ) assigned to the first flow sensor ( 26 ) via a first pressure channel, which is designed as an annular space between the inlet part and the wall of the axial bore. 12. Flow sensor according to one of claims 1 to 11, characterized in that the respective one annular space ( 39 , 41 ) delimiting end faces of the inlet part ( 33 ) is provided with Stütznop pen, each of the associated end faces by the amount of the distance to be formed protrude for the respective annular space ( 39 , 41 ). 13. Flow sensor according to one of claims 1 to 12, characterized in that a carrier body ( 29 ) is provided, with which at least a part of the evaluation circuit ( 15 ) is connected and each one in the respective pressure sensor ( 26 , 28 ) assigned, the pressure window having plug pin, via which the carrier body ( 29 ) with seal from window openings ( 40 , 43 ) can be inserted to the associated annular spaces. 14. Flow sensor according to one of claims 1 to 13, characterized in that the carrier body ( 29 ) in an externally closable recess ( 51 ) of the flow housing ( 17 ) is arranged, which via a pressure compensation bore ( 53 ) with the surrounding atmosphere in Connection is established.