Hydrodynamic coupling
First Claim
Patent Images
1. A flow controlled hydrodynamic coupling, comprising:
- a rotatable pump impeller;
a drive shaft connected with the pump impeller for rotating the pump impeller;
a turbine impeller spaced from the pump impeller;
a driven shaft connected to the turbine impeller for being rotated by the turbine impeller;
the pump impeller and the turbine impeller being so placed with respect to each other and so shaped as together to define a toroidal operating chamber into which the pump impeller and the turbine impeller communicate and into which operating medium may be filled for coupling the pump impeller to the turbine impeller by the operating medium;
the operating chamber defined by the impellers having regions of greatest and lesser radius with respect to an axis of the rotation of the impellers;
an outer circuit for supplying a fluid operating medium;
a chamber inlet communicating from the outer circuit into the operating chamber;
a housing surrounding and spaced out from the impellers, a housing inlet into the housing for receiving operating medium, and a housing outlet from the housing and spaced from the housing inlet for exit of the operating medium from the housing; and
the inlet to the operating chamber being from inside the housing and past one of the impellers defining the operating chamber and being located at the region of greatest radius of the operating chamber.
1 Assignment
0 Petitions
Accused Products
Abstract
The invention relates to a flow-controlled, hydrodynamic coupling having an operating chamber (5.2) which is formed from a pump impeller (3.2) and a turbine impeller (4.2) and is intended for introducing an operating medium. In order to make it possible for the operating chamber to be completely filled at a slip of 100% even in the case of large torques which are to be transmitted, according to the invention the inlet (3.2.1) for introducing the operating medium into the operating chamber (5.2) is arranged at a point of the operating chamber (5.2) which is situated radially as far outward as possible.
103 Citations
10 Claims
-
1. A flow controlled hydrodynamic coupling, comprising:
-
a rotatable pump impeller;
a drive shaft connected with the pump impeller for rotating the pump impeller;
a turbine impeller spaced from the pump impeller;
a driven shaft connected to the turbine impeller for being rotated by the turbine impeller;
the pump impeller and the turbine impeller being so placed with respect to each other and so shaped as together to define a toroidal operating chamber into which the pump impeller and the turbine impeller communicate and into which operating medium may be filled for coupling the pump impeller to the turbine impeller by the operating medium;
the operating chamber defined by the impellers having regions of greatest and lesser radius with respect to an axis of the rotation of the impellers;
an outer circuit for supplying a fluid operating medium;
a chamber inlet communicating from the outer circuit into the operating chamber;
a housing surrounding and spaced out from the impellers, a housing inlet into the housing for receiving operating medium, and a housing outlet from the housing and spaced from the housing inlet for exit of the operating medium from the housing; and
the inlet to the operating chamber being from inside the housing and past one of the impellers defining the operating chamber and being located at the region of greatest radius of the operating chamber. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
the housing outlet is at an axial region along the housing in the vicinity of the drive shaft.
-
-
3. The coupling of claim 1, wherein the impellers are rotatable on the axis which is a common axis.
-
4. The coupling of claim 1, further comprising a coupling bushing connected rotationally with the pump impeller and positioned outside the pump impeller;
-
a flow channel being defined between the coupling bushing and the pump impeller, the flow channel having a downstream end; and
the inlet into the operating chamber is an operating medium conducting connection between the downstream end of the flow channel and the operating chamber.
-
-
5. The coupling of claim 4, wherein the turbine impeller includes a region radially outwardly of the pump impeller and the inlet to the operating chamber is through the turbine impeller.
-
6. The coupling of claim 4, wherein each of the pump impeller and the turbine impeller is comprised of a respective duplex arrangement, including first and second spaced apart pump impellers on a first common axis and first and second turbine impellers on a second common axis, with the first pump and turbine impellers being so shaped as to define a first operating chamber at the first duplex arrangement and the second pump and turbine impellers being so shaped as to define a second operating chamber at the second duplex arrangement, wherein pump impellers cooperate for communicating energy to the respective turbine impellers;
the coupling bushing, the flow channel defined thereat and the inlet into both of the first and second operating chambers for introducing operating medium therein are positioned at the second of the operating chambers which is situated in the vicinity of the shaft driven by the turbine impeller.
-
7. The coupling of claim 6, wherein the housing inlet is at an axial region along the housing in the vicinity of the driven shaft.
-
8. The coupling of claim 7, wherein the housing outlet is at an axial region along the housing in the vicinity of the drive shaft.
-
9. The coupling of claim 6, wherein each of the duplex arrangements defined by one of the first and second pump impellers and the respective turbine impeller is a generally toroidal shaped chamber.
-
10. The coupling of claim 6, wherein all the impellers are rotatable on a common axis.
Specification