IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0365606
(2003-02-13)
|
우선권정보 |
DE-0006359 (2002-02-14) |
발명자
/ 주소 |
- Engelin, Werner
- Engels, Hartmut
- Rau, Erhard
- Weeber, Jochen
- Weinert, Frank
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
5 |
초록
▼
A thermostatic valve for a coolant circuit of an internal combustion engine, with a housing through which the flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third
A thermostatic valve for a coolant circuit of an internal combustion engine, with a housing through which the flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third throughflow orifice for connection to a third coolant line, and with a closure member which is mounted in the housing and which can be adjusted by an actuating unit, the closure member having a first shut-off element for shutting off the first throughflow orifice and a second shut-off element, coupled to the first shut-off element, for shutting off the second throughflow orifice. The second shut-off element is assigned an adjusting device, via which the second shut-off element can be adjusted relative to the first shut-off element in such a way that the closure member can be brought, on one hand, into a passage position in which it can close exactly one throughflow orifice, and, on another hand, into a shut-off position, in which it can close two throughflow orifices.
대표청구항
▼
1. Thermostatic valve for a coolant circuit of an internal combustion engine, comprising:a housing through which a flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a
1. Thermostatic valve for a coolant circuit of an internal combustion engine, comprising:a housing through which a flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third throughflow orifice for connection to a third coolant line, and a closure member which is mounted in the housing and which can be adjusted by an actuating unit, the closure member having a first shut-off element for shutting off the first throughflow orifice and a second shut-off element, coupled to the first shut-off element, for shutting off the second throughflow orifice, wherein the second shut-off element is assigned an adjusting device, via which the second shut-off element can be adjusted relative to the first shut-off element in such a way that the closure member can be brought, on one hand, into a passage position in which the closure member can close exactly one of the throughflow orifices, and, on the other hand, into a shut-off position, in which the closure member can close two of the throughflow orifices. 2. Thermostatic valve according to claim 1, wherein the adjusting device is designed as a second independent actuating unit, mounted on a housing side, for the second shut-off element.3. Thermostatic valve according to claim 1, wherein the adjusting device is designed as a second independent actuating unit, mounted on a closure-member side, for the second shut-off element.4. Thermostatic valve according to claim 1, wherein the second actuating unit is designed as an electrically heatable expansion element or an expansion element capable of being thermally controlled via coolant in use.5. Thermostatic valve according to claim 2, wherein the second actuating unit is designed as an electrically heatable expansion element or an expansion element capable of being thermally controlled via coolant in use.6. Thermostatic valve for a coolant circuit of an internal combustion engine, comprising:a housing through which a flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third throughflow orifice for connection to a third coolant line, and a closure member which is mounted in or on the housing and which can be adjusted by an actuating unit, the closure member having a first shut-off element for shutting off the first throughflow orifice and a second shut-off element, coupled to the first shut-off element, for shutting off the second throughflow orifice, wherein the closure member is assigned a third shut-off element which can be adjusted relative to the first and the second shut-off element in such a way that the closure member can be brought, on one hand, into a passage position in which the closure member can close exactly one of the throughflow orifices and, on the other hand, into a shut-off position, in which the closure member can close two of the throughflow orifices. 7. Thermostatic valve according to claim 1, wherein a tap orifice, via which coolant can be supplied or discharged, is provided on the housing.8. Thermostatic valve according to claim 2, wherein a tap orifice, via which coolant can be supplied or discharged, is provided on the housing.9. Thermostatic valve according to claim 3, wherein a tap orifice, via which coolant can be supplied or discharged, is provided on the housing.10. Thermostatic valve according to claim 4, wherein a tap orifice, via which coolant can be supplied or discharged, is provided on the housing.11. Thermostatic valve according to claim 6, wherein a tap orifice, via which coolant can be supplied or discharged, is provided on the housing.12. Coolant circuit of an internal combustion engine, comprising:a coolant/air heat exchanger which is assigned a bypass line, and coolant branching between a heat exchanger line and the bypass line being controllable as a function of temperature via a thermostatic valve which has a first connection to the heat exchanger line, a second connection to the bypass line, and a third connection to a supply or discharge line located on an internal combustion engine side, and which comprises a closure member which can be adjusted by way of an actuating unit and which is assigned a first shut-off element for shutting off the heat exchanger line and a second shut-off element, coupled to the first shut-off element, for shutting off the bypass line, wherein the second shut-off element is assigned an adjusting device, via which the second shut-off element can be adjusted relative to the first shut-off element in such a way that the closure member can be brought, on one hand, into a passage position, in which the closure member can close either the bypass line or the heat exchanger line, and, on the other hand, into a shut-off position, in which the closure member can close both the bypass line and the heat exchanger line. 13. Coolant circuit of an internal combustion engine, comprising:a coolant/air heat exchanger which is assigned a bypass line, and coolant branching between a heat exchanger line and the bypass line being controllable as a function of temperature via a thermostatic valve which has a first connection to the heat exchanger line, a second connection to the bypass line, and a third connection to a supply or discharge line located on an internal combustion engine side, and which comprises a closure member which can be adjusted by ways of an actuating unit and which is assigned a first shut-off element for shutting off the heat exchanger line and a second shut-off element, coupled to the first shut-off element, for shutting off the bypass line, wherein the closure member is assigned a third shut-off element which can be adjusted relative to the first and the second shut-off element in such a way that the closure member can be brought, on one hand, into a passage position, in which the closure member can close either the bypass line or the heat exchanger line, and, on the other hand, into a shut-off position, in which the closure member can close both the bypass line and the heat exchanger line. 14. Coolant circuit according to claim 12, wherein the thermostatic valve has a tap line, via which coolant can be transferred from the thermostatic valve to a second heat exchanger of the internal combustion engine.15. Coolant circuit according to claim 13, wherein the thermostatic valve has a tap line, via which coolant can be transferred from the thermostatic valve to a second heat exchanger of the internal combustion engine.16. Method for operating an internal combustion engine of a motor vehicle having a coolant circuit, comprising:after a cold start of the internal combustion engine initially interrupting the coolant circuit by a thermostatic valve, and subsequently, opening the coolant circuit between the internal combustion engine and a bypass line by an adjustment of a closure member of the thermostatic valve. 17. Method according to claim 16, wherein the adjustment of the closure member is carried out via an expansion element arranged within the coolant circuit.18. Method according to claim 16, wherein, with the coolant circuit interrupted, coolant is discharged from the thermostatic valve via a tap line.19. Method according to claim 17, wherein, with the coolant circuit interrupted, coolant is discharged from the thermostatic valve via a tap line.20. A method of making a thermostatic valve comprising making the thermostatic valve of claim 1.21. A method of using a thermostatic valve for a coolant circuit comprising utilizing the thermostatic valve of claim 1.22. A method of making a thermostatic valve comprising making the thermostatic valve of claim 6.23. A method of using a thermostatic valve for a coolant circuit comprising utilizing the thermostatic valve of claim 6.24. The method of claim 16, wherein the thermostatic valve comprises:a housing through which a flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third throughflow orifice for connection to a third coolant line, and a closure member which is mounted in the housing and which can be adjusted by an actuating unit, the closure member having a first shut-off element for shutting off the first throughflow orifice and a second shut-off element, coupled to the first shut-off element, for shutting off the second throughflow orifice, wherein the second shut-off element is assigned an adjusting device, via which the second shut-off element can be adjusted relative to the first shut-off element in such a way that the closure member can be brought, on one hand, into a passage position in which the closure member can close exactly one of the throughflow orifices, and, on the other hand, into a shut-off position, in which the closure member can close two of the throughflow orifices. 25. The method of claim 16, wherein the thermostatic valve comprises:a housing through which a flow is capable of passing and which has a first throughflow orifice for connection to a first coolant line, a second throughflow orifice for connection to a second coolant line, and a third throughflow orifice for connection to a third coolant line, and a closure member which is mounted in or on the housing and which can be adjusted by an actuating unit, the closure member having a first shut-off element for shutting off the first throughflow orifice and a second shut-off element, coupled to the first shut-off element, for shutting off the second throughflow orifice, wherein the closure member is assigned a third shut-off element which can be adjusted relative to the first and the second shut-off element in such a way that the closure member can be brought, on one hand, into a passage position in which the closure member can close exactly one of the throughflow orifices and, on the other hand, into a shut-off position, in which the closure member can close two of the throughflow orifices. 26. A thermostatic valve for a coolant circuit, comprising:a housing having a first orifice connectable to a discharge line, a second orifice connectable to a discharge line, and a third orifice connectable to a supply line, a closing member mounted in the housing and adjustable by an activating unit, the closing member having a first element for closing the first orifice and a second element for closing the second orifice, the elements being coupled together, and an adjuster assigned to the second element to operatively adjust the second element in relation to the first element, wherein the adjuster operatively provides that the closing member has at least a first position which closes only one of the orifices and a second position which closes two of the orifices.
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