Magnet valve, in particular for a traction-controlled hydraulic vehicle brake system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/02
B60T-008/36
출원번호
US-0343216
(2001-07-14)
우선권정보
DE-0038091 (2000-08-04)
국제출원번호
PCT/DE01/02637
(2001-07-14)
국제공개번호
WO02/12039
(2002-02-14)
발명자
/ 주소
Wilde, Werner
Megerle, Friedrich
Kawa, Dieter
Sickinger, Ulrich
Speer, Harald
Fritsch, Siegfried
Menzenbach, Rainer
Schnalzger, Guenther
Reize, Andreas
Stoehr, Robert
Reinhold, Jochen
Butz
출원인 / 주소
Robert Bosch GmbH
대리인 / 주소
Greigg Ronald E.
인용정보
피인용 횟수 :
10인용 특허 :
4
초록▼
A hydraulic part of a magnet valve is received in a bore of a valve block. The hydraulic part is secured to the valve block with a calked heel of a securing bush that is slipped onto a guide sleeve of the hydraulic part. The securing bush rests on an annular shoulder of the guide sleeve and engages
A hydraulic part of a magnet valve is received in a bore of a valve block. The hydraulic part is secured to the valve block with a calked heel of a securing bush that is slipped onto a guide sleeve of the hydraulic part. The securing bush rests on an annular shoulder of the guide sleeve and engages a jacket wall of the guide sleeve with a press fit, and one edge of the securing bush is adapted to a rounded-out throat between the jacket wall and an end wall of the annular shoulder by means of plastic deformation. A valve sleeve engages a portion of the bore of the valve block with a press fit. The calked heel, the plastically deformed edge of the securing bush, and the press fit of the valve bush seals that seal off against fluid are achieved without using additional rubber-elastic sealing means.
대표청구항▼
1. A hydraulic vehicle brake system magnet valve ( 10 ) disposed in a valve block ( 11 ), the valve ( 10 ) comprising:a guide sleeve ( 21 ) for an armature ( 23 );the guide sleeve ( 21 ) being widened with an annular shoulder ( 27 ), which has an end wall ( 29 ) originating at least approximately ra
1. A hydraulic vehicle brake system magnet valve ( 10 ) disposed in a valve block ( 11 ), the valve ( 10 ) comprising:a guide sleeve ( 21 ) for an armature ( 23 );the guide sleeve ( 21 ) being widened with an annular shoulder ( 27 ), which has an end wall ( 29 ) originating at least approximately radially at a cylindrical jacket wall ( 28 ) of the guide sleeve ( 21 );a securing bush ( 43 ) conforming fittingly to the jacket wall ( 28 ) of the guide sleeve ( 21 ) and slipped onto the guide sleeve ( 21 ) to the end wall ( 29 ) of the annular shoulder ( 27 ), and to a rounded-out throat ( 30 ) between the jacket wall ( 28 ) and the end wall ( 29 );the guide sleeve ( 21 ) and the securing bush ( 43 ) being received in a bore ( 14 ) of the valve block ( 11 ), and the securing bush ( 43 ) being inserted into a step ( 51 ) of the bore ( 14 );the securing bush ( 43 ) communicating with the valve block ( 11 ) through a fluid-tight calked heel ( 53 );the securing bush ( 43 ) being guided with a press fit on the jacket wall ( 28 ) of the guide sleeve ( 21 );an encompassing edge ( 44 ) on the securing bush ( 43 ) associated with the throat ( 30 ) of the guide sleeve ( 21 ), the edge ( 44 ) having a rounded outer-corner radius (r) that is smaller than a rounded inside-corner radius (R) of the throat ( 30 );the rounded outer-corner radius (r) of the edge ( 44 ) being adapted, by plastic deformation of the edge ( 44 ) of the throat ( 30 ), at least approximately to the rounded inside-corner radius (R) of the throat when the securing bush ( 43 ) has been mounted on the guide sleeve ( 21 ); anda cup-shaped valve sleeve ( 33 ) secured in a hollow-cylindrical portion ( 31 ) of the guide sleeve ( 21 ), which portion ( 31 ) follows the annular shoulder ( 27 );the valve sleeve ( 33 ) being embodied as a deep-drawn component with a valve seat ( 36 ) integrated with its bottom. 2. The magnet valve of claim 1, further comprising the cup-shaped valve sleeve ( 33 ) press-fitted into a hollow-cylindrical portion ( 31 ), following the annular shoulder ( 27 ), of the guide sleeve ( 21 ) and being secured to it by a crimped connection ( 40 ). 3. The magnet valve of claim 2, wherein the valve sleeve ( 33 ) is embodied with a wall thickness that is greater than the wall thickness of the guide sleeve ( 21 ). 4. The magnet valve of claim 1, wherein the valve sleeve ( 33 ) has one fluid-carrying passage ( 39 , 36 ) each on both its jacket side and its bottom, of which the passage ( 36 ) on the bottom opens into a valve seat ( 37 ), produced by stamping, of a seat valve ( 38 ) that can be switched by the armature ( 23 ). 5. The magnet valve of claim 2, wherein the valve sleeve ( 33 ) has one fluid-carrying passage ( 39 , 36 ) each on both its jacket side and its bottom, of which the passage ( 36 ) on the bottom opens into a valve seat ( 37 ), produced by stamping, of a seat valve ( 38 ) that can be switched by the armature ( 23 ). 6. The magnet valve of claim 3, wherein the valve sleeve ( 33 ) has one fluid-carrying passage ( 39 , 36 ) each on both its jacket side and its bottom, of which the passage ( 36 ) on the bottom opens into a valve seat ( 37 ), produced by stamping, of a seat valve ( 38 ) that can be switched by the armature ( 23 ). 7. The magnet valve of claim 1, wherein the valve sleeve ( 33 ), with a jacket portion ( 35 ) located between the two passages ( 36 , 39 ), is received with a press fit in fluid-tight fashion in a portion ( 47 ) of the bore ( 14 ) of the valve block ( 11 ) that follows a bore step ( 46 ). 8. The magnet valve of claim 4, wherein the valve sleeve ( 33 ), with a jacket portion ( 35 ) located between the two passages ( 36 , 39 ), is received with a press fit in fluid-tight fashion in a portion ( 47 ) of the bore ( 14 ) of the valve block ( 11 ) that follows a bore step ( 46 ). 9. The magnet valve of claim 5, wherein the valve sleeve ( 33 ), with a jacket portion ( 35 ) located between the two passages ( 36 , 39 ), is received wit h a press fit in fluid-tight fashion in a portion ( 47 ) of the bore ( 14 ) of the valve block ( 11 ) that follows a bore step ( 46 ). 10. The magnet valve of claim 6, wherein the valve sleeve ( 33 ), with a jacket portion ( 35 ) located between the two passages ( 36 , 39 ), is received with a press fit in fluid-fight fashion in a portion ( 47 ) of the bore ( 14 ) of the valve block ( 11 ) that follows a bore step ( 46 ). 11. The magnet valve of claim 7, further comprising a filter sleeve ( 41 ) slipped onto the portion ( 31 ) of the guide sleeve ( 21 ), which filter sleeve extends between the securing bush ( 43 ) and the bore step ( 46 ) and fits over the passage ( 39 ) on the jacket of the valve sleeve ( 33 ). 12. The magnet valve of claim 8, further comprising a filter sleeve ( 41 ) slipped onto the portion ( 31 ) of the guide sleeve ( 21 ), which filter sleeve extends between the securing bush ( 43 ) and the bore step ( 46 ) and fits over the passage ( 39 ) on the jacket of the valve sleeve ( 33 ). 13. The magnet valve of claim 9, further comprising a filter sleeve ( 41 ) slipped onto the portion ( 31 ) of the guide sleeve ( 21 ), which filter sleeve extends between the securing bush ( 43 ) and the bore step ( 46 ) and fits over the passage ( 39 ) on the jacket of the valve sleeve ( 33 ). 14. The magnet valve of claim 10, further comprising a filter sleeve ( 41 ) slipped onto the portion ( 31 ) of the guide sleeve ( 21 ), which filter sleeve extends between the securing bush ( 43 ) and the bore step ( 46 ) and fits over the passage ( 39 ) on the jacket of the valve sleeve ( 33 ).
Mueller, Friedrich; Schnalzger, Guenther; Kirschner, Martin, Method and device for producing a high-pressure-tight connection and associated valve cartridge for a solenoid valve.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.