奥地利专利AT519360A4 Method for operating a reciprocating piston engine with at least one hydraulically length-adjustable

专利PDF首页>>奥地利专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
The invention relates to a method for operating a reciprocating piston engine (10), in particular an internal combustion engine, with at least one hydraulically length-adjustable connecting rod (1a, 1b) for setting a compression ratio ε, wherein the connecting rod (1a, 1b) a piston (2) and a hydraulic cylinder (3) for length adjustment, the piston (2) with the hydraulic cylinder (3) at least one working space (4, 5) limited by the level of at least two switching positions (I, II) of the connecting rod (1a, 1b) are possible, wherein, independently of the setting of the compression ratio ε, at least partial filling and emptying of the working space (4, 5) is performed as a function of at least one first predetermined condition to effect at least partial replacement of a hydraulic medium in the at least one working space (4, 5) ,
公开号:AT519360A4
申请号:T50153/2017
申请日:2017-02-24
公开日:2018-06-15
发明作者:Siegfried Lösch Dr；Ing Alois Fürhapter Dipl；Ing Gerhard Heimel Dipl；Dipl Ing Kometter Bernhard；Uwe Dieter Grebe Dr
申请人:Avl List Gmbh；
IPC主号:

专利说明:

Summary
The invention relates to a method for operating a reciprocating piston engine (10), in particular an internal combustion engine, with at least one hydraulically adjustable connecting rod (1a, 1b) for adjusting a
Compression ratio ε, the connecting rod (1a, 1b) having a piston (2) and a hydraulic cylinder (3) for length adjustment, the piston (2) with the hydraulic cylinder (3) delimiting at least one working space (4, 5), by the latter Fill level of at least two switching positions (I, II) of the connecting rod (1a, 1b) are possible, with the working space (4, 5) being filled and emptied at least partially, depending on the setting of the compression ratio ε, depending on at least a first predetermined condition, in order to bring about an at least partial exchange of a hydraulic medium in the at least one working space (4, 5).
Figure 3
1.23
PP31485AT
AVL List GmbH
Method for operating a reciprocating piston machine with at least one hydraulically adjustable connecting rod
The invention relates to a reciprocating piston engine, in particular an internal combustion engine, with at least one hydraulically steerable connecting rod for setting a compression ratio ε, the connecting rod having a piston and a hydraulic cylinder for length adjustment, the piston defining at least one working space with the hydraulic cylinder, the fill level of which means at least two Switch positions of the connecting rod are possible. Furthermore, the invention relates to a method for operating such a reciprocating piston machine.
By changing the compression ratio of a reciprocating machine, a full load with a low compression ratio ε and a partial load and starting the reciprocating machine with an increased compression ratio ε can be operated in the drive mode. This reduces consumption in the part-load range, increases the compression pressure with an increased compression ratio ε at start-up, reduces peak pressure with a reduced compression ratio ε at high output and prevents knocking.
The publication WO 2015/055582 A2 relates to a length-adjustable connecting rod for a reciprocating piston machine with a variable compression ratio, the connecting rod having at least a first rod part with a small connecting rod eye and a second rod part with a large connecting rod eye, which two rod parts can be telescopically moved and / or pushed into one another, whereby the second rod part form a guide cylinder and the first rod part form a piston element which is longitudinally displaceable in the guide cylinder, a first high-pressure space spanning between the second rod part and the piston element, on the side of the piston element facing the large connecting rod eye, into which at least one first oil channel opens, in which in particular a first check valve opening in the direction of the first high-pressure chamber is arranged, at least a first of the first high-pressure chamber
2.23
PP31485AT
AVL List GmbH
Return channel, whose discharge cross-section can be closed by a control valve in a first position and released in a second position, wherein the control valve preferably has an actuating piston which can be axially displaced in a receiving bore of the second rod part of the connecting rod, which in particular by means of a return spring in the first position and through an actuating force can be displaced into the second position counter to the force of the return spring, the piston element being designed as a double-acting piston, preferably as a stepped piston.
It is also known to use an eccentrically arranged small connecting rod eye, an eccentric piston pin or an eccentric crank pin of the crankshaft instead of a telescopic system for adjusting the compression ratio ε.
Document DE 10 2014 004 987 A1 relates to a VCR piston machine with a connecting rod which has a compression piston, the connecting rod having an adjustment mechanism for adjusting the compression piston and the adjustment mechanism having a first support piston in a first support cylinder and a second support piston in a second Has support cylinder of the connecting rod, wherein the first and the second support cylinder are each connected to a first control line, via which a medium flows into and out of the respective support cylinder for adjusting the respective support cylinder, with at least one further, second in at least one of the two support cylinders Control line for at least draining the medium for adjusting the associated support cylinder opens.
In general, the connecting rod length is varied depending on the map between at least one long and one short switching position, the first long switching position causing a high compression ratio and the second, short switching position causing a low compression ratio ε. Depending on the driving mode and the load required as a result, the length of the connecting rod remains unchanged. Only when the compression ratio ε is to be set to another value, for example when changing from the full load range to
3.23
PP31485AT
AVL List GmbH a partial load range, the compression ratio ε and thus the length of the connecting rod is also changed.
It is an object of the invention to provide a reciprocating piston machine and a method for operating such a reciprocating piston machine, which ensures the function of at least one hydraulically adjustable connecting rod of the reciprocating piston machine. In particular, it is an object of the invention to prevent overheating of a hydraulic medium which is used for adjusting the length of the hydraulically adjustable connecting rod.
This object is achieved by a method according to claim 1 and a reciprocating piston machine according to claim 12. Advantageous embodiments are claimed in the dependent claims. The claims are expressly made part of the description.
A first aspect of the invention relates to a method for operating a reciprocating piston machine, in particular an internal combustion engine, with at least one hydraulically length-adjustable connecting rod for setting a compression ratio ε, the connecting rod having a piston and a hydraulic cylinder for length adjustment, the piston with the hydraulic cylinder having at least one working space limited, by the level of which at least two switching positions of the connecting rod are possible, whereby, regardless of the setting of the compression ratio ε, an at least partial filling and emptying of the working space is carried out in dependence on at least a first predetermined condition, in order to at least partially replace a hydraulic medium in the at least one Effect working space.
A second aspect of the invention relates to a reciprocating piston engine, in particular an internal combustion engine, with at least one hydraulically length-adjustable connecting rod for setting the compression ratio ε, the connecting rod having a piston with a hydraulic cylinder for length adjustment, the piston with the hydraulic cylinder having at least one
4.23
PP31485AT
AVL List GmbH
Working space limited by the level of which at least two switching positions of the connecting rod are possible, the reciprocating piston machine further comprising means for carrying out, depending on at least one first predetermined condition and regardless of the setting of the compression ratio ε, an at least partial filling and emptying of the at least one working space to effect an at least partial exchange of a hydraulic medium in the at least one work space.
The invention is based in particular on the knowledge that high loads act on the relatively small volume of the hydraulic cylinder due to the piston, which is exposed to the pressures in the working space of the internal combustion engine. These lead to an increase in the temperature of the hydraulic medium in the work rooms (pressure chambers of the hydraulic cylinders). In particular, if the hydraulic medium remains in the hydraulic cylinder for an extended period of time, the hydraulic medium may experience aging effects, in particular as a result of overheating. In particular, additives in the hydraulic medium can be chemically decomposed or destroyed. This effect is further promoted since, in an internal combustion engine, waste heat from the combustion process acts on the hydraulic cylinder through radiation and heat conduction.
The invention follows the approach of bringing about an exchange of the hydraulic medium by filling and emptying, although no change in the compression ratio ε should be set. The compression ratio ε preferably has substantially the same value before and after filling and emptying.
Replacing the hydraulic medium can prevent aging effects. In particular, clogging of the lines of the hydraulic medium in the length-adjustable connecting rod or in the crankshaft can be prevented or at least the probability of such an incident can be reduced.
23.5
PP31485AT
AVL List GmbH
At least one work area can be completely filled and emptied. However, preferably only partial filling and emptying is carried out, so that only part of the hydraulic medium is exchanged.
In an advantageous embodiment of the invention, the piston with the hydraulic cylinder delimits two working spaces, the respective filling level of which enables the at least two switching positions of the connecting rod, the working spaces being filled and emptied in opposite directions.
In a further advantageous embodiment of the invention, the at least partial filling and emptying of the at least one working space is carried out at a low load point, in particular below half the maximum load and / or in the low torque, in particular below half the maximum torque. Filling and emptying at a relatively low load point ensures that the connecting rod in the long switch position, which is at least passed through during filling and emptying, is not exposed to excessive loads that could damage the length-adjustable connecting rod. As mentioned at the beginning, the long switching state for setting a high compression ratio ε is generally in the lower part-load range.
In a further advantageous embodiment of the method according to the invention, an injection quantity of a fuel and / or the lambda ratio of a cylinder of the internal combustion engine, which has the at least one hydraulically adjustable connecting rod, is temporarily adjusted in order to reduce a load with respect to the cylinder, especially if a short one Switch position is present. In particular when filling and emptying the work space, starting from a short switch position, in which, as explained at the beginning, there is generally a high load, it is advantageous to reduce the load. This can prevent any damage to the length-adjustable connecting rod.
In a further advantageous embodiment of the method according to the invention, the at least one hydraulically adjustable in length
6.23
PP31485AT
AVL List GmbH
Connecting rod for cooling with cooling medium, in particular with hydraulic medium, and / or sprayed with a lubricating medium. This spraying is preferably carried out by a piston cooling device which additionally wets the at least one hydraulically adjustable connecting rod. In this way, an aging effect of the hydraulic medium can be prevented independently or in addition to an exchange of the hydraulic medium by cooling the connecting rod from the outside.
In a further advantageous embodiment of the invention, the connecting rod is sprayed as a function of at least one second predetermined condition, in particular before the at least partial filling and emptying of a work space is carried out. According to this advantageous embodiment, filling and emptying of the working space for at least partial replacement of the hydraulic medium is only carried out when cooling by spraying with the cooling medium is no longer sufficient. This can prevent a temporary deviation from the optimal connecting rod length or at least limit it to a minimum duration.
In a further advantageous embodiment of the method according to the invention, the at least one first and / or second predetermined condition relates to a parameter which is selected from a group which has the following parameters: temperature of the hydraulic medium, time since the compression ratio ε changed, time since a last, at least partial exchange of the hydraulic medium, quantity of the hydraulic medium exchanged during a last, at least partial exchange of the hydraulic medium, switching position, load point.
In a further advantageous embodiment of the method according to the invention, filling and emptying takes place in succession in a reciprocating piston machine with a plurality of connecting rods that are hydraulically adjustable in length with respect to the connecting rods. This can prevent a noticeable change in driveability from filling and emptying
7.23
PP31485AT
AVL List GmbH a vehicle with a reciprocating piston machine according to the invention can be perceived.
The advantages and features described above in relation to the method according to the first aspect of the invention apply accordingly to the reciprocating piston machine according to the second aspect of the invention and vice versa.
In an advantageous embodiment of the reciprocating piston machine according to the invention with a hydraulically length-adjustable connecting rod for setting a compression ratio ε and a piston cooling device, the piston cooling device is set up in such a way that the connecting rod is also sprayed with a cooling medium, in particular a hydraulic medium and / or a lubricating medium.
In a further advantageous embodiment of the reciprocating piston machine according to the invention, the piston cooling device has at least one spray nozzle which is directed at at least a section of a range of motion of the connecting rod.
Further advantages and features emerge from the following description of exemplary embodiments of the invention with reference to the figures. It shows:
Figure 1 is a length-adjustable connecting rod in the sense of the invention.
2 shows the length-adjustable connecting rod according to FIG. 1 in two different switching positions;
Fig. 3 shows a first embodiment of an inventive
reciprocating engine; and
Fig. 4 shows a second embodiment of an inventive
Reciprocating engine.
8.23
PP31485AT
AVL List GmbH
1 shows an embodiment of a length-adjustable connecting rod 1, as can be used in a reciprocating piston machine 10 according to the invention.
The connecting rod preferably has a small connecting rod eye 6 and a large connecting rod eye 7. The small connecting rod eye 6 is connected to a piston 2 via a shaft. The large connecting rod eye 7 is connected to a hydraulic cylinder 3, in which the piston 2 is movably arranged. The piston 2 divides the hydraulic cylinder 3 preferably into two working spaces 4, 5. The second working space 5 is preferably closed to the outside by a sleeve 8. The first working chamber 4 is preferably filled and emptied with hydraulic medium via a line 9b, in particular a hydraulic line, which preferably leads into the large connecting rod eye. The second working space 5 is preferably filled and emptied via a further line 9a. This further line 9a also preferably leads into the large connecting rod eye.
The lines 9a, 9b are preferably supplied with hydraulic medium via a crankshaft (not shown) of the reciprocating piston machine. In this case, a change in the position of the piston 2 in the hydraulic cylinder 3 can be implemented, for example, via various pressures of the hydraulic medium which are present on the lines 9a, 9b. In addition, or as an alternative, it can preferably be provided that a connecting device for switching the inflow and / or outflow from the working spaces 4, 5 is provided in the connecting rod 1. This switching element can also be actuated by means of various pressures which are provided by the hydraulic medium and / or electromagnetically and / or mechanically.
A length-adjustable connecting rod 1 in the sense of the invention is, however, not limited to the embodiment in FIG. 1. In particular, the piston can also be a so-called rotary piston, which prevents or enables a length adjustment of the connecting rod by means of a locking device and / or a threaded spindle. Furthermore, the piston can
23.9
PP31485AT
AVL List GmbH
Interaction with the hydraulic cylinder can also be set up to change the position of an eccentrically arranged small connecting rod eye 6, so that an effective connecting rod length, that is to say the distance between the center of the large connecting rod eye 7 and the center of the small connecting rod eye 6, can be changed.
FIG. 2 shows two switching positions of a length-adjustable connecting rod according to FIG. 1. In the first, short switching position, the first working space 4 is completely emptied and / or the second working space 5 is completely filled. In the second, long switching position II, the first working space 4 is completely filled and / or the second working space 5 is completely emptied. The at least two switching positions I, II of the connecting rod 1 thus correspond to different length states of the length-adjustable connecting rod 1. Preferably, when filling and emptying according to the invention, the length-adjustable connecting rod 1 is switched from switching state I to second switching state II and back to first switching state I. Alternatively, the connecting rod 1 is transferred from the second switching state II to the first switching state I and back to the second switching state II. In this case, the working spaces 4, 5 are preferably completely emptied and filled, more preferably these are only partially emptied and filled. More preferably, only one of the work spaces 4, 5 is at least partially filled and emptied.
3 shows a first exemplary embodiment of a reciprocating piston machine 10 according to the invention. It has two cylinders 14a, 14b, each of which has a length-adjustable connecting rod 1a and 1b, which together with a reciprocating piston each delimit a combustion chamber in the cylinder. The length-adjustable connecting rods 1a, 1b each connect the reciprocating pistons of the cylinders 14a, 14b to the crankshaft 15.
Furthermore, the reciprocating piston machine 10 has a control 11, which controls the filling and emptying of at least one of the working spaces 4, 5 of the length-adjustable connecting rods 1a, 1b via a line 16, which is preferably guided through the crankshaft 15. The respective work rooms 4, 5 of the
10/23
PP31485AT
AVL List GmbH length-adjustable connecting rods 1a, 1b can be supplied with a common hydraulic line 16 or with separate hydraulic lines.
4 shows a second exemplary embodiment of a reciprocating piston machine 10 according to the invention. In contrast to the first exemplary embodiment of a reciprocating piston machine 10 according to FIG. 3, the second exemplary embodiment has a cooling device 12 which supplies the length-adjustable connecting rod 1a, 1b of the cylinders 14a, 14b with a cooling medium , in particular hydraulic medium, can spray.
For this purpose, the cooling device 12, which is preferably integrated in a piston cooling device, preferably has spray nozzles which generate spray cones 13a, 13b which spray the length-adjustable connecting rods 1a, 1b in at least a section of their range of motion B. With respect to the second cylinder 14b, the range of motion of the second length-adjustable connecting rod 1b is indicated by dashed lines and its axial extent with respect to the second cylinder 14b with a curly bracket. As an alternative to the exemplary embodiment shown in FIG. 4, a reciprocating piston machine according to the invention can additionally have means 11 for carrying out at least partial filling and emptying 11. This alternative would correspond to that from FIG. 3 with the cooling device 12 from FIG. 4.
11/23
PP31485AT
AVL List GmbH

权利要求:
Claims (15)
[1]
claims
1. Method for operating a reciprocating piston engine (10), in particular an internal combustion engine, with at least one hydraulically adjustable connecting rod (1) for setting a compression ratio ε, the connecting rod (1) having a piston (2) and a hydraulic cylinder (3) for adjusting the length , wherein the piston (2) with the hydraulic cylinder (3) delimits at least one working chamber (4, 5), the fill level of which enables at least two switching positions (I, II) of the connecting rod (1) to be achieved, regardless of the setting of the compression ratio ε one at least partial filling and emptying of the at least one working space (4, 5) is carried out in dependence on at least one first predetermined condition in order to bring about an at least partial exchange of a hydraulic medium in the at least one working space (4, 5).
[2]
2. The method according to claim 1, wherein the compression ratio ε before and after filling and emptying has substantially the same value.
[3]
3. The method according to claim 1 or 2, wherein the piston (2) with the hydraulic cylinder (3) delimits two working spaces (4, 5), by their respective fill level, the at least two switching positions (I, II) of the connecting rod (1) are possible , whereby the work spaces (4, 5) are filled and emptied in opposite directions.
[4]
4. The method according to any one of the preceding claims, wherein the at least partial filling and emptying of the at least one working space (4, 5) at a low load point, in particular below half the maximum load, and / or low torque, in particular below half the maximum torque, is carried out.
12/23
PP31485AT
AVL List GmbH
[5]
5. The method according to claim 4, wherein an injection quantity of a fuel and / or the lambda ratio of a cylinder of the internal combustion engine, which has the at least one hydraulically adjustable connecting rod (1), is temporarily adjusted in order to reduce a load with respect to the cylinder , in particular if there is a short switching position, ie a switching position that corresponds to a short length of the connecting rod (1).
[6]
6. The method according to any one of the preceding claims, wherein the at least one hydraulically adjustable connecting rod (1) for cooling with cooling medium, in particular the hydraulic medium and / or a lubricant is sprayed.
[7]
7. The method according to claim 6, wherein spraying of the connecting rod (1) is initiated as a function of at least one second predetermined condition, in particular before the at least partial filling and emptying of a working space (4, 5) is carried out.
[8]
8. The method according to claim 1, wherein the at least one first and / or second predetermined condition relates to a parameter that is selected from a group that has the following parameters:
Temperature of the hydraulic medium, time since a change in the compression ratio ε, time since a last at least partial exchange of the hydraulic medium, amount of hydraulic medium exchanged during a last at least partial exchange of the hydraulic medium, switching position (I, II), load point of a reciprocating piston machine with the length-adjustable connecting rod ( 1).
[9]
9. The method according to any one of the preceding claims, wherein filling and emptying in a reciprocating piston machine with a plurality of hydraulically length-adjustable connecting rods (1) takes place in succession with respect to the connecting rods.
13/23
PP31485AT
AVL List GmbH
[10]
10. Electronic control, which preferably comprises a memory and a microprocessor, which is set up to carry out a method according to one of claims 1 to 9.
[11]
11. A computer program comprising instructions which, when executed by a computer, cause it to carry out the steps of a method according to one of claims 1 to 9.
[12]
12. Computer-readable medium on which a computer program according to claim 11 is stored.
[13]
13. reciprocating piston machine (10), in particular internal combustion engine, with at least one hydraulically adjustable connecting rod (1a, 1b) for setting a compression ratio ε, the connecting rod (1a, 1b) having a piston (2) and a hydraulic cylinder (3) for adjusting the length, wherein the piston (2) with the hydraulic cylinder (3) delimits at least one working chamber (4, 5), the fill level of which enables at least two switching positions (I, II) of the connecting rod (I), the reciprocating piston machine (10) further comprising means (II) for carrying out, depending on at least one first predetermined condition and regardless of the setting of the compression ratio ε, an at least partial filling and emptying of the at least one working space (4, 5), for an at least partial exchange of a hydraulic medium in the at least one Work space (4, 5) to effect.
[14]
14. The reciprocating piston machine (10), in particular according to claim 13, has at least one hydraulically adjustable connecting rod (1) for setting a compression ratio ε and a cooling device (12), the cooling device (12) being set up in such a way that the connecting rod ( 1) to be sprayed with a cooling medium, in particular the hydraulic medium and / or a lubricating medium.
14/23
PP31485AT
AVL List GmbH
[15]
15. reciprocating piston machine (10) according to claim 14, wherein the cooling device (12) has at least one spray nozzle which is directed to at least a portion of a range of motion B of the connecting rod.
15/23
PP31485AT
AVL List GmbH
1.4

类似技术:

公开号 | 公开日 | 专利标题

EP3058239B1|2019-05-01|Length-adjustable connecting rod

DE102011056298A1|2013-06-13|Connecting rod arrangement for internal combustion engine of motor vehicle, has changeover valve to control displacement direction of eccentric unit, and changeover valve reset unit to shift changeover valve by actuating pulse

AT518848B1|2018-10-15|Connecting rod with adjustable connecting rod length with mechanical actuation

EP0909883A1|1999-04-21|Arrangement and method for valve driving in a reversible diesel engine

DE102009048172A1|2011-04-07|Piston for internal combustion engine of motor vehicle, has switchable valve device arranged at inner side at piston skirt and adjusting volume of pressurized medium in chamber, where valve device is designed as shut-off valve

DE102015203417B4|2016-09-15|switching valve

AT519360B1|2018-06-15|Method for operating a reciprocating piston engine with at least one hydraulically length-adjustable connecting rod

AT519298B1|2019-07-15|Connecting rod with adjusting mechanism between connecting rod and piston rod

AT517716B1|2017-04-15|MORE CYLINDER internal combustion engine

AT519303B1|2019-06-15|Connecting rod with stepped piston

AT521256A4|2019-12-15|Hydraulic control valve for a length-adjustable connecting rod with split drainage

CH714321A1|2019-05-15|Adjusting device for an axial piston machine.

DE102016120948A1|2018-05-03|Connecting rod with adjustment mechanism between connecting rod and connecting rod

AT519800B1|2019-07-15|Device for adjusting the effective length of a connecting rod as a function of the supply pressure

DE102018126889A1|2020-04-30|Method for operating a connecting rod that can be length-adjusted hydraulically, and devices therefor

AT521520B1|2020-02-15|System and method for adjusting an effective length of a connecting rod and internal combustion engine

AT521521B1|2020-02-15|System and method for adjusting an effective length of a connecting rod and internal combustion engine

AT522322B1|2020-10-15|Connecting rod with positive connection

AT521515B1|2020-02-15|System and method for adjusting an effective length of a connecting rod and internal combustion engine

DE102016202916B4|2021-07-29|Method set up for controlling a fuel supply system for an internal combustion engine

AT16537U1|2019-12-15|Length-adjustable connecting rod with tolerance compensation

AT16800U1|2020-09-15|Screw connection for length-adjustable connecting rod with different thread pitches

AT521268A4|2019-12-15|Length-adjustable connecting rod with hydraulic control device

WO2011107127A1|2011-09-09|Method for operating a reciprocating piston machine

AT520451A4|2019-04-15|Length adjustable connecting rod for a reciprocating engine

同族专利:

公开号 | 公开日

CN110546361A|2019-12-06|

US20200056538A1|2020-02-20|

US11066987B2|2021-07-20|

WO2018154035A1|2018-08-30|

EP3585991A1|2020-01-01|

JP2020510780A|2020-04-09|

EP3585991B1|2021-03-31|

AT519360B1|2018-06-15|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE102011104934A1|2011-06-21|2012-12-27|Daimler Ag|An adjusting device for variably setting a compression ratio of an internal combustion engine|

WO2015055582A2|2013-10-18|2015-04-23|Avl List Gmbh|Length-adjustable connecting rod|

DE102014004987A1|2014-04-07|2015-10-08|Fev Gmbh|VCR piston engine with VCR connecting rod|

AT517217A4|2015-06-18|2016-12-15|Avl List Gmbh|LENGTH-ADJUSTABLE CONNECTING ROD|

US988344A|1910-05-16|1911-04-04|Walter K Holzmueller|Explosion-engine.|

US1029485A|1911-04-04|1912-06-11|George K Atkinson|Lathe screw-machine.|

GB161580A|1920-04-09|1922-07-07|Marconi Wireless Telegraph Co|Improvements relating to the reception of radio signals|

US1610137A|1926-01-28|1926-12-07|Charles E Kratsch|Connecting rod|

US2033601A|1933-09-15|1936-03-10|Busch Sulzer Bros Diesel Engine Co|Engine construction|

US2134995A|1935-11-13|1938-11-01|George A Anderson|Adjustable stroke and shock absorbing connecting rod|

US2217721A|1938-09-14|1940-10-15|Mary Adeline Reynolds|Internal combustion engine|

US2252153A|1940-06-17|1941-08-12|Mary Adeline Reynolds|Internal combustion engine|

US2778378A|1952-07-28|1957-01-22|Bendix Aviat Corp|Combination sequence and locking valve|

US2989954A|1959-09-21|1961-06-27|Continental Motors Corp|Internal-combustion engine|

GB898268A|1959-11-06|1962-06-06|Daimler Benz Ag|Improvements relating to big-ends for connecting rods|

DE1205390B|1961-01-13|1965-11-18|Julius Woerner|Ventilation device for hydraulic cylinders of machines|

US3171334A|1963-07-05|1965-03-02|Honeywell Inc|Control apparatus|

DE1287345B|1967-12-15|1969-01-16|Rabewerk Inh Heinrich Clausing|Hydraulic drive device for the turning device of reversible plows|

DE2161580C3|1971-12-11|1979-01-25|Graubremse Gmbh, 6900 Heidelberg|Device for adjusting and fixing the height of drawbars on trailers|

DE2414020C3|1974-03-22|1986-01-02|Gassner, Benno, 8011 Göggenhofen|Device for controlling a double-acting hydraulic cylinder in a reversible plow that can be pivoted from one working position to the other|

BE839068A|1976-03-01|1976-07-01|CONTROL DEVICE FOR BOGGIE LIFTING MEANS|

US4124002A|1976-07-23|1978-11-07|Crise George W|Pressure-responsive variable length connecting rod|

US4140091A|1977-03-09|1979-02-20|Showers Jr Lewis M|Uniform compression piston engine|

US4195601A|1978-10-30|1980-04-01|Crise George W|Controlled compression internal combustion engine having fluid pressure extensible connecting rod|

US4370901A|1981-01-05|1983-02-01|John Sawyer|Connecting rod with variable length|

US4406256A|1981-05-22|1983-09-27|The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration|Automatic compression adjusting mechanism for internal combustion engines|

SU1008523A1|1981-12-01|1983-03-30|Машиностроительный завод им.Ф.Э.Дзержинского|Mounted connecting rod|

DE3149306A1|1981-12-12|1983-06-23|Wabco Steuerungstechnik GmbH & Co, 3000 Hannover|Directional control valve|

JPS6352221B2|1982-03-25|1988-10-18|Hitachi Shipbuilding Eng Co|

CS229539B1|1982-11-25|1984-06-18|Peter Ing Cervinka|Selfadjusting connecting rod for internal combustion engine|

GB2161580B|1984-07-07|1987-08-12|Peter Robert Davis|Variable length connecting rod|

DE8429462U1|1984-10-06|1985-02-07|HP Hydraulik GmbH, 4803 Steinhagen|DOUBLE-ACTING HYDRAULIC CYLINDER|

DE3507327A1|1985-03-01|1986-09-04|Jörg 8607 Hollfeld Lange|Eccentric hydraulic press|

EP0438121B1|1990-01-17|1995-04-05|Mitsubishi Jidosha Kogyo Kabushiki Kaisha|Variable compression ratio apparatus for internal combustion engine|

DE4026492A1|1990-08-22|1992-02-27|Klaus Stephan|Pulse valve appts. for dosed gas delivery - has column of piezoelectric platelets with intermediate conductors controlling valve by expansion caused by applied voltage|

DE4133188A1|1990-10-08|1992-04-09|Zahnradfabrik Friedrichshafen|Sealing unit for pressurised chambers, -is esp. used with pistons and piston rods and consists of sealing rings with leakage chamber between and leakage pipe|

US5178103A|1991-12-23|1993-01-12|Ford Motor Company|Variable compression ratio piston|

DE4226361C2|1992-08-10|1996-04-04|Alex Zimmer|Internal combustion engine|

DE4315463C1|1993-05-10|1994-05-26|Daimler Benz Ag|Electric current generator integrated into crank of piston engine - uses induction of current in armature windings on connecting-rod by permanent magnets secured to crank arm|

MD559C2|1994-07-07|1997-01-31|Василе СИБОВ|Connecting rod of variable length|

AT1624U1|1995-03-30|1997-08-25|Avl Verbrennungskraft Messtech|STORAGE INJECTION SYSTEM WITH PRE-INJECTION FOR AN INTERNAL COMBUSTION ENGINE|

DE19530191A1|1995-08-17|1997-02-20|Daimler Benz Ag|connecting rod|

DE29608749U1|1996-05-17|1996-07-11|Speck Axel Dipl Ing|Piston-connecting rod connection with integrated pin and split plain bearing|

DE19703948C1|1997-02-03|1998-06-18|Meta Motoren Energietech|Device for altering the compression of a stroke piston internal combustion engine|

DE19835146A1|1998-08-04|1999-06-10|Daimler Chrysler Ag|Automotive engine connecting rod|

EP1065393B1|1999-06-28|2005-04-13|Capital Technology Beteiligungs GmbH|Connecting rod|

AU7714601A|2000-08-02|2002-02-13|Jerry I Yadegar|Hydraulically adjustable connecting rod for internal combustion engine efficiency|

US6394048B1|2001-01-16|2002-05-28|Ford Global Technologies, Inc.|Variable compression ratio internal combustion engine using field-sensitive fluid|

EP1243773B1|2001-03-19|2004-10-20|Ford Global Technologies, Inc., A subsidiary of Ford Motor Company|Connecting rod with adjustable length|

AT5297U1|2001-03-29|2002-05-27|Avl List Gmbh|DEVICE FOR CHANGING THE GEOMETRIC COMPRESSION RATIO|

JP2003129817A|2001-10-26|2003-05-08|Toyota Motor Corp|Variable piston stroke type internal combustion engine|

DE10201601C1|2002-01-16|2003-06-05|Audi Hungaria Motor Kft|Internal combustion engine with crankshaft in crankcase, has starter/generator rotor formed on crankshaft in axial position of balance weight or crank web, stator fixed relative to crankcase|

DE10230427A1|2002-07-06|2004-01-15|Bayerische Motoren Werke Ag|Switching device for crank mechanism of IC engines has coil unit to generate magnetic field for selective switching of locking unit for eccentric device|

RU2226626C2|2002-07-12|2004-04-10|Московский государственный открытый университет|Connecting-rod for engine|

JP4151425B2|2003-01-31|2008-09-17|トヨタ自動車株式会社|Control of internal combustion engine during compression ratio change period|

US20040187634A1|2003-03-26|2004-09-30|Siegfried Meyer|Spring-based crankshaft coupling structure for engine|

FR2857408B1|2003-07-09|2007-09-28|Inst Francais Du Petrole|INTERNAL COMBUSTION ENGINE WITH SCAN OF THE RESIDUAL BURN GAS PRESENT IN A COMBUSTION CHAMBER AND METHOD FOR SUCH SCAN|

JP2005267420A|2004-03-19|2005-09-29|Nippon Soken Inc|Data transmitter|

GB0426228D0|2004-11-30|2004-12-29|Mason David J|Improvements to reciprocating machines|

DE102005036701A1|2005-08-04|2007-02-08|Will, Karl|Spring rod used as a length-adjustable drive rod in an internal combustion engine comprises a slim shaft and a support that in the resting state run parallel to the central axis of the rod|

FR2889864B1|2005-08-19|2008-11-28|Peugeot Citroen Automobiles Sa|ROD FOR MOTOR VEHICLE AUTOMOTIVE.|

DE102005055199B4|2005-11-19|2019-01-31|FEV Europe GmbH|Reciprocating internal combustion engine with adjustable variable compression ratio|

US7556072B2|2007-04-10|2009-07-07|Koch Jr Edward|Log splitting apparatus and method for its use|

CN101109321A|2007-08-08|2008-01-23|陈晨|Self-adaption compression ratio variable engine|

DE102007040699A1|2007-08-29|2009-03-05|Robert Bosch Gmbh|Reciprocating-piston internal combustion engine e.g. petrol engine, for use in e.g. passenger car, has magnetic field generating device generating variable magnetic field which appears at actuator so that compression ratio is adjusted|

US7546820B2|2007-10-31|2009-06-16|Ford Global Technologies, Llc|Variable compression ratio engine with lost motion coupling|

US7827943B2|2008-02-19|2010-11-09|Tonand Brakes Inc|Variable compression ratio system|

FR2933471B1|2008-07-03|2013-02-15|Vianney Rabhi|BALANCED ELECTRO-HYDRAULIC VALVE FOR A VARIABLE COMPRESSION RATE MOTOR HYDRAULIC CONTROL UNIT|

DE102008038971A1|2008-08-13|2010-02-18|Robert Bosch Gmbh|Valve spool valves and method of manufacture|

JP2010112448A|2008-11-05|2010-05-20|Honda Motor Co Ltd|Shift valve|

JP5120214B2|2008-11-07|2013-01-16|いすゞ自動車株式会社|Variable compression ratio mechanism of internal combustion engine|

KR100980863B1|2008-12-02|2010-09-10|현대자동차주식회사|Variable compression apparatus for vehicle engine|

JP5169881B2|2009-01-30|2013-03-27|日産自動車株式会社|Variable compression ratio device for internal combustion engine|

DE102009028047B3|2009-07-28|2011-02-17|Zf Friedrichshafen Ag|Locking unit for a piston-cylinder unit|

US8746188B2|2010-03-17|2014-06-10|Larry C. Wilkins|Internal combustion engine with hydraulically-affected stroke|

DE102010016037A1|2010-03-19|2011-09-22|Dr. Ing. H.C. F. Porsche Aktiengesellschaft|Switchover valve, particularly for controlling hydraulic fluid flow of internal combustion engine, has ballpoint mechanism, which is engaged by applying actuating impulse to actuating unit of ballpoint mechanism|

DE102010026977B4|2010-07-13|2016-06-02|Marco Systemanaslyse Und Entwicklung Gmbh|Method for shield control|

WO2012113349A1|2011-02-25|2012-08-30|Innozeal Technology Ltd.|Hydraulic cylinder and spool type hydraulic control valve with metallic seal ring|

DE102012203185A1|2011-10-13|2013-04-18|Zf Friedrichshafen Ag|Device for storing hydraulic fluid|

AT511803B1|2011-12-23|2013-03-15|Avl List Gmbh|CONNECTING ROD FOR A PUSH-PISTON MACHINE|

AT513054B1|2012-07-03|2014-09-15|Avl List Gmbh|Length adjustable connecting rod|

US8851030B2|2012-03-23|2014-10-07|Michael von Mayenburg|Combustion engine with stepwise variable compression ratio |

DE102012020999A1|2012-07-30|2014-01-30|Fev Gmbh|Hydraulic freewheel for variable engine parts|

WO2014019684A1|2012-07-30|2014-02-06|Fev Gmbh|Actuating unit for variable power plant components|

JP5942766B2|2012-10-15|2016-06-29|トヨタ自動車株式会社|Oil jet device for internal combustion engine|

WO2014099374A1|2012-12-21|2014-06-26|Borgwarner Inc.|Variable compression ratio piston system|

FI20135550A|2013-05-22|2014-11-23|Wärtsilä Finland Oy|Crankshaft, crankshaft bearings and arrangements for changing the effective length of crankshaft for piston combustion engine|

DE102013210494B4|2013-06-06|2014-12-31|Schaeffler Technologies Gmbh & Co. Kg|Switching devices for switching valves|

CN103398001B|2013-07-23|2016-01-06|广州万宝集团压缩机有限公司|A kind of reciprocal compressor Length-adjustable link|

DE102013111617B4|2013-10-22|2021-12-23|Dr. Ing. H.C. F. Porsche Aktiengesellschaft|Changeover valve and internal combustion engine with such a changeover valve|

DE102013113432B4|2013-12-04|2022-02-24|Dr. Ing. H.C. F. Porsche Aktiengesellschaft|Reversing valve unit and internal combustion engine with such a reversing valve unit|

DE102013225063A1|2013-12-06|2015-06-11|Hochschule Heilbronn Technik, Wirtschaft, Informatik|Connecting rod of an internal combustion engine with variable length|

DE102014200162A1|2014-01-09|2015-07-09|Hochschule Heilbronn Technik, Wirtschaft, Informatik|Machine, in particular internal combustion engine, with a movable component equipped with a switchable valve|

AT515419B1|2014-05-12|2015-09-15|Imt C Innovative Motorfahrzeuge Und Technologie Cooperation Gmbh|Connecting rod for an internal combustion engine|

DE102014106715A1|2014-05-13|2015-11-19|Dr. Ing. H.C. F. Porsche Aktiengesellschaft|Changeover valve and internal combustion engine|

US9988980B2|2014-05-15|2018-06-05|Luis Alberto Velazquez|System for a mechanical conversion of an internal combustion engine of 4 strokes into 8 strokes|

WO2015193437A1|2014-06-18|2015-12-23|Fev Gmbh|Internal combustion engine with shock-reducing adjustment of a variable compression ratio|

EP3196439B1|2014-09-17|2018-05-30|Nissan Motor Co., Ltd|Internal combustion engine|

DE102014220177A1|2014-10-06|2016-05-25|Schaeffler Technologies AG & Co. KG|Device for changing compression ratios|

WO2016083592A1|2014-11-27|2016-06-02|Fev Gmbh|Internal combustion engine with adjustable compression ratio, and connecting rod for such an internal combustion engine|

JP2016118277A|2014-12-22|2016-06-30|トヨタ自動車株式会社|Variable-length connecting rod and variable compression ratio internal combustion engine|

JP6172135B2|2014-12-22|2017-08-02|トヨタ自動車株式会社|Variable length connecting rod and variable compression ratio internal combustion engine|

DE102015001066B3|2015-01-29|2015-10-22|Armin Brunner|Hydraulically adjustable connecting rod|

DE102015103205B4|2015-03-05|2021-02-04|Dr. Ing. H.C. F. Porsche Aktiengesellschaft|Connecting rod with a filter element for hydraulic oil and an internal combustion engine with such a connecting rod|

JP6277997B2|2015-05-15|2018-02-14|トヨタ自動車株式会社|Internal combustion engine|

WO2016203047A1|2015-06-18|2016-12-22|Avl List Gmbh|Longitudinally adjustable connecting rod|

CN107787439B|2015-06-30|2020-07-14|荷兰联合利华有限公司|Device for evaluating roughness and glossiness of hair|

CN108138650B|2015-08-10|2021-02-09|Avl 里斯脱有限公司|Piston engine, in particular internal combustion engine|

EP3390794B1|2015-12-14|2019-06-26|AVL List GmbH|Length-adjustable connecting rod with electromagnetically-actuatable switching valve|

AT15426U1|2015-08-10|2017-08-15|Avl List Gmbh|Reciprocating engine, in particular internal combustion engine|

AT15561U1|2015-08-14|2018-01-15|Avl List Gbmh|Length adjustable connecting rod|

AT517112B1|2015-08-14|2016-11-15|Avl List Gmbh|LENGTH-ADJUSTABLE CONNECTING ROD|

AT517718B1|2015-08-14|2017-04-15|Avl List Gmbh|LENGTH-ADJUSTABLE CONNECTING ROD|

AT517100B1|2015-08-14|2016-11-15|Avl List Gmbh|LENGTH-ADJUSTABLE CONNECTING ROD|

AT517619B1|2015-11-05|2017-03-15|Avl List Gmbh|LENGTH-ADJUSTABLE CONNECTING ROD|

DE102016008306A1|2016-07-06|2018-01-11|Avl List Gmbh|Connecting rod with adjustable connecting rod length|

JP6601444B2|2017-03-09|2019-11-06|トヨタ自動車株式会社|Variable compression ratio mechanism|CN112282931A|2020-10-20|2021-01-29|苗立志|New energy automobile engine|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50153/2017A|AT519360B1|2017-02-24|2017-02-24|Method for operating a reciprocating piston engine with at least one hydraulically length-adjustable connecting rod|ATA50153/2017A| AT519360B1|2017-02-24|2017-02-24|Method for operating a reciprocating piston engine with at least one hydraulically length-adjustable connecting rod|

US16/487,585| US11066987B2|2017-02-24|2018-02-23|Method for operating a reciprocating piston machine having at least one piston rod that is hydraulically adjustable in length|

JP2019546115A| JP2020510780A|2017-02-24|2018-02-23|Method for operating a reciprocating engine having at least one piston rod adjustable in length by hydraulic pressure|

CN201880024005.4A| CN110546361A|2017-02-24|2018-02-23|Method for operating a reciprocating piston engine having at least one link whose length can be hydraulically adjusted|

EP18708624.4A| EP3585991B1|2017-02-24|2018-02-23|Method for operating a reciprocating piston machine having at least one piston rod that is hydraulically adjustable in length|

PCT/EP2018/054468| WO2018154035A1|2017-02-24|2018-02-23|Method for operating a reciprocating piston machine having at least one piston rod that is hydraulically adjustable in length|

[返回顶部]