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The present invention relates to an end shield (10) for a rotary electric machine, including one or more feed channels (12) for feeding a coolant supplied from a channel formed in a rotor lamination stack (8) or in a shaft of the rotor or between the rotor lamination stack and the shaft, wherein at least one feed channel (12) has a spray portion (18) for spraying the coolant, said spray portion (18) being placed in the last two thirds of the feed channel (12), when considered in the direction in which the coolant circulates.

Titel:	End shield and rotor for a rotary electric machine
Autor/in / Beteiligte Person:	NIDEC PSA, EMOTORS
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2024
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 12015,328 Publication Date: June 18, 2024 Appl. No: 18/254376 Application Filed: November 23, 2021 Assignees: NIDEC PSA EMOTORS (Carrieres sous Poissy, FR) Claim: 1. An end shield for a rotary electric machine, including one or more feed channels for feeding a coolant supplied from a channel formed in a rotor lamination stack or in a shaft of a rotor or between the rotor lamination stack and the shaft, wherein at least one feed channel of the one or more feed channels has a spraying portion for spraying the coolant, said spraying portion being disposed in the last two thirds of the feed channel, when considered in the direction in which the coolant circulates, the end shield including a flared terminal portion located after the spraying portion, when moving in the direction of circulation of the coolant, the flared terminal portion including a bottom inclined at an angle α relative to a plane perpendicular to the rotational axis of the rotor, edges of the feed channel at the spraying portion each having a first trough, a second trough, and two bumps. Claim: 2. The end shield according to claim 1 , the spraying portion of the at least one feed channel including one or more pins disposed across the coolant flow. Claim: 3. The end shield according to claim 2 , the pins being molded or cast as one part with the rest of the end shield. Claim: 4. The end shield according to claim 2 , the pins being oriented parallel to a rotational axis of the rotor. Claim: 5. The end shield according to claim 2 , the pins being disposed in one or more rows. Claim: 6. The end shield according to claim 5 , the pins being disposed in staggered rows. Claim: 7. The end shield according to claim 1 , a surface area of the cross-section of the spraying portion being between 3 mm 2 and 30 mm 2 . Claim: 8. The end shield according to claim 1 , the flared terminal portion forming a flare angle β in the plane perpendicular to the axis of rotation of the rotor. Claim: 9. The end shield according to claim 8 , the flare angle β being between 10° and 50°. Claim: 10. The end shield according to claim 1 , the edges of the at least one feed channel having curved portions at the spraying portion. Claim: 11. The rotor of the rotary electric machine, including the rotor lamination stack and at least one end shield according to claim 1 . Claim: 12. The rotor according to claim 11 , wherein at least one axial channel for distributing the coolant to the end shield is formed in the rotor stack or between the rotor stack and the shaft, along the shaft. Claim: 13. The rotary electric machine including the rotor according to claim 11 , and a stator. Claim: 14. The rotary electric machine according to claim 13 , including the shaft on which an internal channel for supplying coolant runs over at least part of its length. Claim: 15. A method for cooling the rotary electric machine as defined in claim 13 , wherein the coolant is circulated in opposite directions within the rotor, then the coolant is sprayed onto the coil heads of the stator. Claim: 16. The end shield according to claim 1 , the angle α being between 2° and 30°. Claim: 17. The end shield according to claim 1 wherein the second trough is smaller than the first trough. Claim: 18. The end shield according to claim 1 wherein the two bumps are placed at opposite sides of the first trough. Claim: 19. An end shield for a rotary electric machine, including one or more feed channels for feeding a coolant supplied from a channel formed in a rotor lamination stack or in a shaft of a rotor or between the rotor lamination stack and the shaft, wherein at least one feed channel of the one or more feed channels has a spraying portion for spraying the coolant, said spraying portion being disposed in the last two thirds of the feed channel, when considered in the direction in which the coolant circulates, the end shield including a flared terminal portion, when moving in the direction of circulation of the coolant, the flared terminal portion including a bottom inclined at an angle α relative to a plane perpendicular to the rotational axis of the rotor, at least one feed channel of the one or more feed channels including a cross-sectional constriction, the cross-section of the at least one feed channel decreasing and then increasing in a radial direction relative to the rotational axis of the machine, as seen when moving in the direction of circulation of the coolant. Patent References Cited: 20120025642 February 2012 Onimaru et al. ; 20170310190 October 2017 Degner et al. ; 20190319505 October 2019 Degner et al. ; 20200036248 January 2020 Krais ; 20200227978 July 2020 Yamaguchi ; 2005006429 January 2005 ; 2006025545 January 2006 ; 2010124559 June 2010 ; 2013115848 June 2013 ; 2015231262 December 2015 ; 2015231262 December 2015 ; 2019161750 September 2019 Other References: Machine translation of JP-2015231262-A (Year: 2015). cited by examiner ; International Search Report corresponding to PCT/FR2021/052068 mailed Feb. 28, 2022. cited by applicant ; Written Opinion corresponding to PCT/FR2021/052068 mailed Feb. 28, 2022. cited by applicant Assistant Examiner: Chang, Minki Primary Examiner: Puentes, Daniel C Attorney, Agent or Firm: Sandberg Phoenix & von Gontard P.C.

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End shield and rotor for a rotary electric machine