CN104421396A - Hydraulic control unit having unitary sump and accumulator housing - Google Patents
Hydraulic control unit having unitary sump and accumulator housing Download PDFInfo
- Publication number
- CN104421396A CN104421396A CN201410418296.9A CN201410418296A CN104421396A CN 104421396 A CN104421396 A CN 104421396A CN 201410418296 A CN201410418296 A CN 201410418296A CN 104421396 A CN104421396 A CN 104421396A
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- Prior art keywords
- hydraulic control
- control unit
- accumulator
- oil trap
- housing
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04C—ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
- F04C2/00—Rotary-piston machines or pumps
- F04C2/08—Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing
- F04C2/10—Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of internal-axis type with the outer member having more teeth or tooth-equivalents, e.g. rollers, than the inner member
- F04C2/102—Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of internal-axis type with the outer member having more teeth or tooth-equivalents, e.g. rollers, than the inner member the two members rotating simultaneously around their respective axes
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04C—ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
- F04C2240/00—Components
- F04C2240/30—Casings or housings
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Hydraulic Clutches, Magnetic Clutches, Fluid Clutches, And Fluid Joints (AREA)
- Fluid-Pressure Circuits (AREA)
- Motor Power Transmission Devices (AREA)
Abstract
A hydraulic control unit that delivers hydraulic fluid to a limited slip differential according to the present disclosure can include a unitary hydraulic control unit housing. The unitary hydraulic control unit housing can include a sump housing portion, an accumulator housing portion and a housing manifold portion. The pump housing portion can define a sump chamber. The accumulator housing portion can define an accumulator chamber. The housing manifold portion can have a fluid passage that fluidly connects the sump chamber and the accumulator chamber.
Description
Technical field
Present invention relates in general to limited-slip differential, relate more specifically to transmit the hydraulic control unit of hydraulic fluid to limited-slip differential.
Background technique
Differential mechanism is arranged on vehicle, so that driving wheel and interior driving wheel all continue to allow driving wheel to rotate faster than interior driving wheel during turning when motor receives power outside.Although differential mechanism is useful when turning, they can allow vehicle to lose tractive force in such as snow or mud or other smooth media.If any one in two driving wheels loses tractive force, this driving wheel will spin with two-forty, and another may not rotate.For overcoming this situation, develop limited-slip differential, so that tractive force will be lost and the power of the driving wheel spinned is transferred to the driving wheel do not rotated.
Electronic control type limited-slip differential can comprise the clutch of hydraulic actuating, with the differential speed rotation between the output shaft limiting differential mechanism.In some configurations, distant pump can be used to send hydraulic fluid to clutch.The control manifold that other associated components hydraulic fluid sent to needed for clutch can comprise oil trap, accumulator and associate.Challenging may be bundled on clutch by the required hardware relevant to transmitting hydraulic fluid in an efficient way.
Background herein describes and is used for general description technological accumulation and inheritance of the present invention.Both also impliedly do not admit clearly, work and each side that may not be considered when applying in this description of prior art of the so-called inventor described by this background technique part are contrary with the present invention.
Summary of the invention
A kind of according to of the present invention, transmit hydraulic fluid to the hydraulic control unit of limited-slip differential and can comprise monomer (integrated type) hydraulic control unit housing.This monomer hydraulic control unit housing can comprise oil trap housing section, accumulator (accumulator) housing section and housing house steward (collector, manifold) portion.This oil trap housing section can limit oil trap room.This accumulator housing section can limit accumulator room.This housing house steward portion can have the fluid passage that fluid connects this oil trap room and this accumulator room.
According to other features, oil trap room can limit longitudinal oil trap chamber axis.Accumulator room can limit longitudinal accumulator chamber axis.This longitudinal oil trap chamber axis can be parallel with longitudinal accumulator chamber axis.Clutch plunger pressure transducer can be connected on monomer hydraulic control unit housing.Clutch plunger pressure transducer can be configured to the clutch plunger pressure measuring this limited-slip differential.Oil trap fluid temperature sensor can be connected on this monomer hydraulic control unit housing.This oil trap fluid temperature sensor can be configured to the temperature of the fluid measuring these oil trap indoor.
According to other features, accumulator pressure transducer can be connected on this monomer hydraulic control unit housing.This accumulator pressure transducer can be configured to the pressure measuring these accumulator indoor.Threeway ratio adjusting valve can be connected on this monomer hydraulic control unit housing.This threeway ratio adjusting valve can be configured to regulate the hydrodynamic pressure in this monomer hydraulic control unit housing.
According to other features, this hydraulic control unit can also comprise motor and swiveling gear (gerotorgear) assembly.This motor can have output shaft.This motor can be connected on this monomer hydraulic control unit housing.This swiveling gear assembly can comprise interior swiveling gear and outer swiveling gear.This interior swiveling gear is coupled for rotating together with this output shaft.This motor can limit longitudinal motor axis.This longitudinal motor axis can be parallel to this longitudinal accumulator axis.
According to other features, longitudinal clutch plunger pressure transducer axis, longitudinal oil trap fluid temperature sensor axis and accumulator pressure transducer axis are parallel to each other, and are parallel to longitudinal motor axis.Oil trap plunger is arranged in the first opening at one end place of this oil trap housing section hermetically, and this first limited opening is in this monomer hydraulic control unit housing.This monomer hydraulic control unit housing can limit the first stop ring (snap ring) groove at this first opening, this first snap ring groove is configured to receive for oil trap plunger being retrained (restriction, catches) stop ring in this oil trap housing section.It is indoor that piston can be slidably disposed on this accumulator.Accumulator plunger can be arranged in the second opening at one end place of this accumulator housing section hermetically, and this second limited opening is in this monomer hydraulic control unit housing.This monomer control unit housing can limit the second snap ring groove at this second opening, and this second snap ring groove is configured to receive for this accumulator plunger being constrained in the second stop ring in this accumulator housing section.
A kind of according to other features of the present invention, transmit hydraulic fluid to the hydraulic control unit of limited-slip differential and can comprise monomer hydraulic control unit housing, motor and swiveling gear assembly.This monomer hydraulic control unit housing can comprise oil trap housing section, accumulator housing section and housing house steward portion.This oil trap housing section can limit oil trap room.This accumulator housing section can limit accumulator room.This housing house steward portion can have the fluid passage that fluid connects this oil trap room and this accumulator room.This motor can have output shaft.This motor can be connected on this monomer hydraulic control unit housing.This swiveling gear assembly can comprise interior swiveling gear and outer swiveling gear.This interior swiveling gear is coupled for rotating together with this output shaft.
According to other features, this motor can limit longitudinal motor axis.This longitudinal motor axis can be parallel to this longitudinal accumulator axis.This hydraulic control unit can also comprise clutch plunger pressure transducer, oil trap fluid temperature sensor and accumulator pressure transducer.This clutch plunger pressure transducer can be connected on monomer hydraulic control unit housing and to limit longitudinal clutch plunger pressure transducer axis.This oil trap fluid temperature sensor can be connected on this monomer hydraulic control unit housing and to limit longitudinal oil trap fluid temperature sensor axis.This accumulator pressure transducer can be connected on this monomer hydraulic control unit housing and to limit accumulator pressure transducer axis.This longitudinal clutch plunger pressure transducer axis, this longitudinal oil trap fluid temperature sensor axis and this accumulator pressure transducer axis are parallel to each other, and are parallel to this longitudinal motor axis.
According to other features, oil trap plunger can be arranged in first opening be limited in this monomer hydraulic control unit housing hermetically at one end place of this oil trap housing section.This monomer hydraulic control unit housing can limit the first snap ring groove at this first opening, and this first snap ring groove is configured to receive for this oil trap plunger being constrained in the stop ring in this oil trap housing section.It is indoor that piston can be slidably disposed on this accumulator.Accumulator plunger can be arranged in second opening be limited in this monomer hydraulic control unit housing hermetically at one end place of this accumulator housing section.
A kind of according to other features of the present invention, transmit hydraulic fluid to the hydraulic control unit of limited-slip differential and can comprise monomer hydraulic control unit housing, motor, clutch plunger pressure transducer, oil trap fluid temperature sensor and accumulator pressure transducer.This monomer hydraulic control unit housing can comprise oil trap housing section, accumulator housing section and housing house steward portion.This oil trap housing section can limit oil trap room.This accumulator housing section can limit accumulator room.This housing house steward portion can have the fluid passage that fluid connects this oil trap room and this accumulator room.This motor can have output shaft.This motor can be connected on this monomer hydraulic control unit housing.Clutch plunger pressure transducer can be connected on monomer hydraulic control unit housing.This clutch plunger pressure transducer can limit longitudinal clutch plunger pressure transducer axis.Oil trap fluid temperature sensor is connected on this monomer hydraulic control unit housing.This oil trap fluid temperature sensor can limit longitudinal oil trap fluid temperature sensor axis.Accumulator pressure transducer can be connected on this monomer hydraulic control unit housing.This accumulator pressure transducer can limit accumulator pressure transducer axis.This longitudinal clutch plunger pressure transducer axis, this longitudinal oil trap fluid temperature sensor axis and this accumulator pressure transducer axis are parallel to each other, and are parallel to this longitudinal motor axis.
According to other features, this hydraulic control unit also comprises oil trap plunger, piston and accumulator plunger.This oil trap plunger can be arranged in first opening be limited in this monomer hydraulic control unit housing hermetically at one end place of this oil trap housing section.This monomer hydraulic control unit housing can limit the first snap ring groove at this first opening, and this first snap ring groove is configured to receive for this oil trap plunger being constrained in the stop ring in oil trap housing section.It is indoor that this piston can be slidably disposed on this accumulator.This accumulator plunger can be arranged in the second opening of being limited in this monomer hydraulic control unit housing hermetically at one end place of this accumulator housing section.This monomer hydraulic control unit housing can limit the second snap ring groove at this second opening, and this second snap ring groove is configured to receive for this accumulator plunger being constrained in the second stop ring in this accumulator housing section.
Accompanying drawing explanation
To the present invention be fully understood from detailed description and accompanying drawing, in the accompanying drawings:
Fig. 1 is the front perspective view of the hydraulic control unit according to embodiment of the present invention structure;
Fig. 2 is the top perspective view of the hydraulic control unit of Fig. 1;
Fig. 3 A is the plan view of hydraulic control unit housing mounting surfaces;
Fig. 3 B is the plan view of hydraulic control unit housing mounting surfaces, and shows fluid filter and fluid filter cap with decomposition view;
Fig. 4 is the front perspective view of the motor mount plate of the hydraulic control unit of Fig. 1;
Fig. 5 is the interface board of the hydraulic control unit of Fig. 1 and the plan view of swiveling gear assembly;
Fig. 6 is the side isometric view of the hydraulic control unit of Fig. 1;
Fig. 7 is the exploded perspective view of the hydraulic control unit of Fig. 6;
Fig. 8 is the sectional view of the hydraulic control unit of Fig. 2 that 8-8 along the line takes;
Fig. 9 is the sectional view of the hydraulic control unit of Fig. 8 that 9-9 along the line takes; And
Figure 10 is the sectional view of the hydraulic control unit of Fig. 9 that 10-10 along the line takes.
Embodiment
First with reference to figure 1, the hydraulic control unit constructed according to one embodiment of present invention shown in it, and totally represent with reference number 10.As shown in the drawing, hydraulic control unit 10 according to the present invention provides the individual unit of a position that can be arranged on vehicle.This configuration allows simple assembling and installs.Usually, hydraulic control unit 10 sends hydraulic fluid to limited-slip differential 12 by hydraulic fluid conduit 14.This limited-slip differential 12 can be the electronic limited slip differential device with clutch 20 and piston 22.
Limited-slip differential assembly 12 can be received in housing (not shown) line operate of going forward side by side to drive a pair axletree 30,32, and this is connected on a pair corresponding driving wheel 34,36 axletree.Usually, limited-slip differential assembly 12 is used as traditional open differential during normal operating state, until there is the event needing biased moment.When detection or when expecting loss of traction, can optionally actuated clutches 20, be the biased ratio that this situation produces optimum.
Limited-slip differential 12 also can comprise the differential gear assembly 40 for allowing axletree 30,32 to rotate with friction speed.Differential gear assembly 40 can comprise the side gear (not specifically illustrate) of a pair installation for rotating together with axletree 30 and 32 (with driving wheel 34 and 36).In open type configuration described below, differential gear assembly 40 rotates with friction speed for allowing axletree 30 and 32.
Clutch 20 connects a pair live axle and exports and differential gear assembly 40.Clutch 20 can comprise clutch assembly (not specifically illustrating), and this clutch assembly has the multiple annular slabs be inserted between multiple annular friction sheet.The plurality of annular slab and annular friction sheet insert mutually (staggered, to interleave) each other, and rotate each other for crossing with substantially discontiguous relation when clutch 20 is positioned at its open position.But it is relative for it will be appreciated by persons skilled in the art that term used herein " does not contact ", and does not mean that and necessarily represent that annular slab absolutely not contacts with annular friction sheet when clutch 20 is in open mode.Annular slab and annular friction sheet can move to joint rubbing against one another vertically, thus reduce the relative rotation between annular slab and annular friction sheet when clutch 20 is in closed or part closed configuration.In this way, when clutch 20 is positioned at its operating position, side gear and axletree rotate together with driving wheel.
Clutch 20 can operate to allow side gear such as to rotate independently of one another with different speed opening under configuration.Side gear such as common with substantially identical speed or local is common (that is, dependent ground) rotate when, clutch 20 also can operate under closed or part closed configuration.Clutch 20 is hydraulic coupling, it utilizes the pressurized hydraulic fluid provided from hydraulic control unit 10 by hydraulic fluid conduit 14, this pressurized hydraulic fluid effect on the piston 22 so as to open, closed with part closed configuration between optionally actuated clutches assembly.It is appreciated that above-mentioned limited-slip differential 12 is only exemplary.In this respect, hydraulic control unit 10 can be used in transmitting hydraulic fluid to the actuator (piston etc.) of any slide limiting differential configuration.
Now hydraulic control unit 10 is described general reference Fig. 1-6 in more detail.Hydraulic control unit 10 can comprise monomer hydraulic control unit housing 50 usually, and this housing has oil trap housing section 52, accumulator housing section 54 and housing house steward portion 56.Oil trap housing section 52 can limit oil trap room 62.Accumulator housing section 54 can limit accumulator room 64.Oil trap room 62 and accumulator room 64 can be limited to the discrete liquid storage chamber in monomer hydraulic control unit housing 50.Housing house steward portion 56 can limit and be configured to provide the close various fluid passages to various sensor disclosed herein.Housing house steward portion 56 can also connect oil trap room 62 and accumulator room 64 by fluid.
Hydraulic control unit 10 can also comprise clutch plunger pressure transducer 70, oil trap fluid temperature sensor 72, oil trap pressure transducer 74 and threeway ratio adjusting valve 76.Clutch plunger pressure transducer 70 threadably or otherwise can be received regularly by monomer hydraulic control unit housing 50.Clutch plunger pressure transducer 70 can be configured to the pressure at piston 22 place measuring limited-slip differential 12.Oil trap fluid temperature sensor 72 threadably or otherwise can be received regularly by monomer hydraulic control unit housing 50.Oil trap fluid temperature sensor 72 can be configured to the temperature of the fluid in measuring set oil groove room 62.Accumulator pressure transducer 74 threadably or otherwise can be received regularly by monomer hydraulic control unit housing 50.Accumulator pressure transducer 74 can be configured to measure the pressure in accumulator room 63.
Threeway ratio adjusting valve 76 threadably or regularly can be received by monomer hydraulic control unit housing 50.In the illustrated example, threeway ratio adjusting valve 76 is fixed on monomer hydraulic control unit housing 50 by fastening piece 75.Threeway ratio adjusting valve 76 can comprise valve portion 77 (Fig. 7), outside housing parts 79A and inner side housing parts 79B.Threeway ratio adjusting valve 76 can be configured to regulate the hydrodynamic pressure in monomer hydraulic control unit housing 50.
Hydraulic fluid line connector 80 can threadably or otherwise be fixed on hydraulic control unit housing 50.Hydraulic fluid line connector 80 can connect hydraulic fluid conduit 14 and hydraulic control unit housing 50 by fluid.Oil trap gas exhaust piping connector 82 can be threaded connection with or otherwise be fixed on hydraulic control unit housing 50.Oil trap gas exhaust piping connector 82 can connect with flexible pipe (not shown) so that by the gas discharging in oil trap room 62 in air.
Concrete reference drawing 6 and 7, will describe the further feature of hydraulic control unit 10.Accumulator piston 86 can be slidably arranged in accumulator room 64.Accumulator plunger 88 can be arranged in the opening 90 that is limited in monomer hydraulic control unit housing 50 hermetically at one end place of accumulator housing section 54.Oil trap plunger 92 can be arranged in the opening 94 that is limited in monomer hydraulic control unit housing 50 hermetically at one end place of oil trap housing section 52.First snap ring groove 100 can be limited in hydraulic control unit housing 50 at opening 94 place.First snap ring groove 100 can be configured to receiving first stop ring 102, and this first stop ring catches the oil trap plunger 92 in the oil trap room 62 of oil trap housing section 52.Second snap ring groove 110 can be limited in hydraulic control unit housing 50 at opening 90 place.Second snap ring groove 110 can be configured to receiving second stop ring 112, and this second stop ring catches the accumulator plunger 88 in the accumulator room 62 of accumulator housing section 54.
Again always with reference to figure 1-7, other features of hydraulic control unit 10 will be described.Motor 120 can be connected on hydraulic control unit housing 50.Motor 120 can have output shaft 122 (Fig. 4) and motor mount plate 124.Motor mount plate 124 can have motor mounting surface 130.Motor mount plate 124 can limit radial groove 132 in the radially outer position of output shaft 122.Radial groove 132 can receive O shape ring 136 (Fig. 7).Motor mount plate 124 can comprise the motor mounting ears 140 (Fig. 4) that multiple radial direction extends, and this motor mounting ears defines corresponding multiple motor mounting holes 142.A pair location post holes 144 is limited in motor mount plate 124.
Motor 120 can operate swiveling gear assembly 150 (Fig. 5).Swiveling gear assembly 150 can construct routinely and can comprise interior swiveling gear 152 and outer swiveling gear 154 generally.Interior swiveling gear 152 is coupled for rotating together with output shaft 122.When the relative rotation of inside and outside swiveling gear 152,154 can cause on the fluid that acts on and be included in hydraulic control unit housing 50, pump fluid into the pump action of limited-slip differential 12 eventually through hydraulic control circuit 14, the operation of swiveling gear assembly 150 can be conventional.
Concrete reference drawing 3A and 3B, will describe other features of hydraulic control unit housing 50.Hydraulic control unit housing 50 can comprise hydraulic control unit casing mounting structure 158, and it has the hydraulic control unit surface of shell 160 limiting radial groove 162.Radial groove 162 can be configured to receive O shape ring 164.Pump intake 166 can be defined through hydraulic control unit housing 50.Fluid filter 170 and fluid check valve 172 can be arranged in hydraulic control unit housing 50.Fluid filter 170 can filter the hydraulic fluid of final flowing between hydraulic control unit 10 and limited-slip differential 12.Fluid filter 170 can constrain in hydraulic control unit housing 50 by filter plunger 174.The backflow of fluid check valve 172 energy limit fluid.A pair location post holes 176 can be limited in hydraulic control unit housing 150.Multiple shell bores 178 can be limited in hydraulic control unit housing 150.
Interface board 200 (Fig. 2 and 5-7) can be arranged between hydraulic control unit housing 50 and motor 120.More specifically, interface board 120 can be mounted for the contact between housing mounting surfaces 160 (Fig. 3 A) and motor mounting surface 130 (Fig. 4).Interface board 200 can have the internal diameter (Inner arc) 210 (Fig. 5) limiting opening 212.A pair locating column 220 can through corresponding location post holes 224 to being accepted, and this location post holes is defined through interface board 200.At rigging position, locating column 220 can be received by the location post holes 144 (Fig. 4) in motor mount plate 124 and the location post holes 176 (Fig. 3 A) be limited in hydraulic control unit housing 50.Locating column 220 can stop motor 120, relative rotation between interface board 200 and hydraulic control unit housing 50.
Interface board 200 can comprise the plate mounting ears 230 that multiple radial direction extends, this plate mounting ears defines corresponding multiple interface board mounting holes 232.At rigging position, described multiple interface board mounting hole 232 (Fig. 5), multiple motor mounting hole 142 (Fig. 4) and multiple shell bores 178 (Fig. 3 A) are aimed to receive multiple fastening piece 240 (Fig. 7) ordinatedly.
With reference now to Fig. 5, outer swiveling gear 154 is received by the opening 212 in interface board 200.In the example provided, outer swiveling gear 154 is received by opening 212 with interference fit.According to instruction of the present invention, interface board 200 is formed by the material that its expansion coefficient is equal or at least substantially identical with outer swiveling gear 154.In one example, interface board 200 and outer swiveling gear 154 are all formed by steel.In another example, interface board 200 and outer swiveling gear 154 are all formed by powdered metal.By combining the interface board 200 with the expansion coefficient similar or identical with outer swiveling gear 154, the axial shrinkage of interface board at opening 212 place can be consistent with the axial expansion of outer swiveling gear 154.In this respect, the efficiency of pump can be kept.In other prior art configurations that such as pump interface is formed by aluminium, swiveling gear assembly 150 may such as when eccentric hoop or pump bag (pump pocket) (opening 212) during axial shrinkage, become and can not operate or can not effectively operate during the low-temperature condition in enough large gap stoping the operation being used for inside and outside swiveling gear.
Concrete reference drawing 6 now, will describe other features of hydraulic control unit 10.As mentioned above, hydraulic control unit allows the individual unit with the monomer housing being with discrete liquid storage chamber.Whole encapsulation makes best performance, maintains area needed for less installation simultaneously.Usually, the assembly of hydraulic control unit 10 all with arranged in parallel relation be conducive to reduce size.Particularly, oil trap room 62 limits longitudinal oil trap chamber axis 260.Accumulator room 64 limits longitudinal accumulator chamber axis 261.Motor 120 limits longitudinal motor axis 264.Clutch plunger pressure transducer 70 limits longitudinal clutch plunger pressure transducer axis 266.Accumulator pressure transducer 74 limits longitudinal accumulator pressure transducer axis 268.Oil trap fluid temperature sensor 72 limits longitudinal oil trap fluid temperature sensor axis 270.All longitudinal axis 260,262,264,266,268 and 270 parallel to each other.The vehicle that can be installed to easily that this relation is conducive to hydraulic control unit 10 is such as installed to compact package on vehicle chassis.In this respect, the independent accumulator and the pump that need independently mounting points can be avoided.
Fig. 8-10 illustrates the various sectional views of hydraulic control unit 10.Fig. 8 illustrates the oil trap fluid temperature sensor 72 be communicated with oil trap room 62.Figure 10 illustrates the interface board 200 be arranged between motor 120 and monomer hydraulic control unit housing 50 with sectional view.
In order to example and explanation to the description of embodiment above, and non exhaustive or restriction the present invention.The discrete component of specific embodiment or feature are not limited to this specific embodiment usually, and in the applicable case, they are interchangeable and can be used for even without embodiment selected by being specifically shown or described.Same embodiment also can be different in many aspects.This modification can not be regarded as departing from the present invention, and all changes all comprise within the scope of the invention.
Claims (20)
1. a hydraulic control unit, this hydraulic control unit transmits hydraulic fluid to limited-slip differential, and this hydraulic control unit comprises:
Monomer hydraulic control unit housing, described monomer hydraulic control unit housing comprises:
(i) oil trap housing section, this oil trap housing section limits oil trap room;
(ii) accumulator housing section, this accumulator housing section limits accumulator room; With
(iii) housing house steward portion, this housing house steward portion has fluid passage, and described fluid channel fluid connects described oil trap room and described accumulator room.
2. hydraulic control unit according to claim 1, it is characterized in that, described oil trap room defines longitudinal oil trap chamber axis, and described accumulator room defines longitudinal accumulator chamber axis, wherein, described longitudinal oil trap chamber axis is parallel with longitudinal accumulator chamber axis.
3. hydraulic control unit according to claim 1, it is characterized in that, described hydraulic control unit also comprises the clutch plunger pressure transducer be connected on this monomer hydraulic control unit housing, and this clutch plunger pressure sensor configurations becomes to measure the clutch plunger pressure of this limited-slip differential.
4. hydraulic control unit according to claim 1, it is characterized in that, described hydraulic control unit also comprises the oil trap fluid temperature sensor be connected on this monomer hydraulic control unit housing, and this oil trap fluid temperature sensor is configured to the temperature of the fluid measuring described oil trap indoor.
5. hydraulic control unit according to claim 1, it is characterized in that, described hydraulic control unit also comprises the accumulator pressure transducer be connected on described monomer hydraulic control unit housing, and described accumulator pressure sensor configurations becomes to measure the pressure of described accumulator indoor.
6. hydraulic control unit according to claim 1, it is characterized in that, described hydraulic control unit also comprises the threeway ratio adjusting valve be connected on described monomer hydraulic control unit housing, and described threeway ratio adjusting valve is configured to regulate the hydrodynamic pressure in described monomer hydraulic control unit housing.
7. hydraulic control unit according to claim 2, is characterized in that, described hydraulic control unit also comprises:
Have the motor of output shaft, described motor is connected on described monomer hydraulic control unit housing; And
Swiveling gear assembly, described swiveling gear assembly comprises interior swiveling gear and outer swiveling gear, and wherein, described interior swiveling gear is coupled for rotating together with described output shaft.
8. hydraulic control unit according to claim 7, is characterized in that, described motor defines longitudinal motor axis, and wherein, described longitudinal motor axis is parallel to described longitudinal accumulator axis.
9. hydraulic control unit according to claim 8, it is characterized in that, described hydraulic control unit also comprises: (i) clutch plunger pressure transducer, described clutch plunger pressure transducer to be connected on described monomer hydraulic control unit housing and to define longitudinal clutch plunger pressure transducer axis, (ii) oil trap fluid temperature sensor, described oil trap fluid temperature sensor to be connected on described monomer hydraulic control unit housing and to define longitudinal oil trap fluid temperature sensor axis, (iii) accumulator pressure transducer, described accumulator pressure transducer to be connected on described monomer hydraulic control unit housing and to define accumulator pressure transducer axis, wherein, described longitudinal clutch plunger pressure transducer axis, described longitudinal oil trap fluid temperature sensor axis and described accumulator pressure transducer axis are parallel to each other, and it is parallel with described longitudinal motor axis.
10. hydraulic control unit according to claim 1, it is characterized in that, described hydraulic control unit also comprises oil trap plunger, and described oil trap plunger is arranged in first opening be limited in described monomer hydraulic control unit housing hermetically at one end place of described oil trap housing section.
11. hydraulic control units according to claim 10, it is characterized in that, described monomer hydraulic control unit housing defines the first snap ring groove at described first opening, this first snap ring groove is configured to receive stop ring, and this oil trap plunger constrains in this oil trap housing section by this stop ring.
12. hydraulic control units according to claim 10, is characterized in that, described hydraulic control unit also comprises:
Be slidably disposed on the piston of described accumulator indoor; With
Accumulator plunger, described accumulator plunger is arranged in second opening be limited in described monomer hydraulic control unit housing hermetically at one end place of described accumulator housing section.
13. hydraulic control units according to claim 12, it is characterized in that, described monomer hydraulic control unit housing limits the second snap ring groove at described second opening, this second snap ring groove is configured to receiving second stop ring, and described accumulator plunger constrains in described accumulator housing section by this second stop ring.
14. 1 kinds of hydraulic control units, this hydraulic control unit transmits hydraulic fluid to limited-slip differential, and this hydraulic control unit comprises:
Monomer hydraulic control unit housing, described monomer hydraulic control unit housing comprises:
(i) oil trap housing section, this oil trap housing section limits oil trap room;
(ii) accumulator housing section, this accumulator housing section limits accumulator room; And
(iii) housing house steward portion, this housing house steward portion has fluid passage, and described fluid channel fluid connects described oil trap room and described accumulator room,
Have the motor of output shaft, this motor is connected on this monomer hydraulic control unit housing; And
Swiveling gear assembly, described swiveling gear assembly comprises interior swiveling gear and outer swiveling gear, and wherein, described interior swiveling gear is coupled for rotating together with described output shaft.
15. hydraulic control units according to claim 14, is characterized in that, described motor defines longitudinal motor axis, and wherein, described longitudinal motor axis is parallel to longitudinal accumulator axis.
16. hydraulic control units according to claim 15, it is characterized in that, described hydraulic control unit also comprises: (i) clutch plunger pressure transducer, described clutch plunger pressure transducer to be connected on described monomer hydraulic control unit housing and to define longitudinal clutch plunger pressure transducer axis, (ii) oil trap fluid temperature sensor, described oil trap fluid temperature sensor to be connected on described monomer hydraulic control unit housing and to define longitudinal oil trap fluid temperature sensor axis, (iii) accumulator pressure transducer, described accumulator pressure transducer to be connected on described monomer hydraulic control unit housing and to define accumulator pressure transducer axis, wherein, described longitudinal clutch plunger pressure transducer axis, described longitudinal oil trap fluid temperature sensor axis and described accumulator pressure transducer axis are parallel to each other, and it is parallel with described longitudinal motor axis.
17. hydraulic control units according to claim 16, it is characterized in that, described hydraulic control unit also comprises oil trap plunger, described oil trap plunger is arranged in first opening be limited in described monomer hydraulic control unit housing at one end place of described oil trap housing section hermetically, wherein, described monomer hydraulic control unit housing defines the first snap ring groove at described first opening, described first snap ring groove is configured to receive stop ring, and described oil trap plunger constrains in described oil trap housing section by this stop ring.
18. hydraulic control units according to claim 17, is characterized in that, described hydraulic control unit also comprises:
Be slidably disposed on the piston of described accumulator indoor; And
Accumulator plunger, described accumulator plunger is arranged in second opening be limited in described monomer hydraulic control unit housing hermetically at one end place of described accumulator housing section.
19. 1 kinds of hydraulic control units, this hydraulic control unit transmits hydraulic fluid to limited-slip differential, and this hydraulic control unit comprises:
Monomer hydraulic control unit housing, described monomer hydraulic control unit housing comprises:
(i) oil trap housing section, this oil trap housing section limits oil trap room;
(ii) accumulator housing section, this accumulator housing section limits accumulator room; And
(iii) housing house steward portion, this housing house steward portion has fluid passage, and described fluid channel fluid connects described oil trap room and described accumulator room,
Motor, this motor limits longitudinal motor axis and has output shaft, and described motor is connected on described monomer hydraulic control unit housing;
Clutch plunger pressure transducer, described clutch plunger pressure transducer to be connected on described monomer hydraulic control unit housing and to limit longitudinal clutch plunger pressure transducer axis;
Oil trap fluid temperature sensor, described oil trap fluid temperature sensor to be connected on described monomer hydraulic control unit housing and to limit longitudinal oil trap fluid temperature sensor axis; With
Accumulator pressure transducer, described accumulator pressure transducer to be connected on described monomer hydraulic control unit housing and to limit accumulator pressure transducer axis, wherein, described longitudinal clutch plunger pressure transducer axis, described longitudinal oil trap fluid temperature sensor axis and described accumulator pressure transducer axis are parallel to each other, and parallel with described longitudinal motor axis.
20. hydraulic control units according to claim 19, is characterized in that, described hydraulic control unit also comprises:
Oil trap plunger, described oil trap plunger is arranged in first opening be limited in described monomer hydraulic control unit housing at one end place of described oil trap housing section hermetically, wherein, described monomer hydraulic control unit housing limits the first snap ring groove at described first opening, described first snap ring groove is configured to receive stop ring, and described oil trap plunger constrains in described oil trap housing section by this stop ring; And
Be slidably disposed on the piston of described accumulator indoor; And
Accumulator plunger, described accumulator plunger is arranged in second opening be limited in described monomer hydraulic control unit housing at one end place of described accumulator housing section hermetically, wherein, described monomer hydraulic control unit housing defines the second snap ring groove at described second opening, described second snap ring groove is configured to receiving second stop ring, and described accumulator plunger constrains in described accumulator housing section by this second stop ring.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US201361868800P | 2013-08-22 | 2013-08-22 | |
US61/868,800 | 2013-08-22 |
Publications (1)
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CN104421396A true CN104421396A (en) | 2015-03-18 |
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Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420478096.8U Active CN204186923U (en) | 2013-08-22 | 2014-08-22 | Hydraulic control unit |
CN201410418296.9A Pending CN104421396A (en) | 2013-08-22 | 2014-08-22 | Hydraulic control unit having unitary sump and accumulator housing |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420478096.8U Active CN204186923U (en) | 2013-08-22 | 2014-08-22 | Hydraulic control unit |
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CN (2) | CN204186923U (en) |
WO (1) | WO2015026411A2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
USD779561S1 (en) | 2015-07-17 | 2017-02-21 | Eaton Corporation | Hydraulic control unit |
USD779560S1 (en) | 2015-07-17 | 2017-02-21 | Eaton Corporation | Hydraulic control unit |
GB201516861D0 (en) * | 2015-09-23 | 2015-11-04 | Parker Hannifin Mfg Uk Ltd | A motor pump assembly |
CN109715987B (en) * | 2016-08-10 | 2022-10-14 | 伊顿智能动力有限公司 | Electronic limited slip coupling with bolt configuration |
WO2019046787A1 (en) * | 2017-09-01 | 2019-03-07 | Eaton Intelligent Power Limited | Hydraulic control unit for limited slip differential |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE748353C (en) * | 1938-11-15 | 1944-11-01 | Automatic control device for charging a fluid pressure accumulator, especially for hydraulic systems in aircraft | |
US4679463A (en) * | 1984-08-31 | 1987-07-14 | Nissan Motor Co., Ltd. | Limited slip differential |
DE3524615C2 (en) * | 1985-07-10 | 1993-09-30 | Bosch Gmbh Robert | Hydraulic unit for actuating a differential lock for a motor vehicle |
DE10002693A1 (en) * | 2000-01-22 | 2001-07-26 | Wabco Gmbh & Co Ohg | Controller for gearbox has controllable valve, at least part of pressure source, electric controller and possibly control cylinders combined into unit |
US6446774B2 (en) * | 2000-04-10 | 2002-09-10 | New Venture Gear, Inc. | Active control of a hydra-mechanical traction control device |
WO2008008705A2 (en) * | 2006-07-14 | 2008-01-17 | Borgwarner Inc. | Limited slip differential |
DE102009038377A1 (en) * | 2008-08-25 | 2010-03-04 | Volkswagen Ag | Hydraulic arrangement for controlling clutches of adjustable torque distributor device in motor vehicle, has common supply connected with high pressure circuit behind branch to low pressure circuit by valve closed against pumping direction |
-
2014
- 2014-05-21 WO PCT/US2014/038886 patent/WO2015026411A2/en active Application Filing
- 2014-08-22 CN CN201420478096.8U patent/CN204186923U/en active Active
- 2014-08-22 CN CN201410418296.9A patent/CN104421396A/en active Pending
Also Published As
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WO2015026411A3 (en) | 2015-04-23 |
WO2015026411A2 (en) | 2015-02-26 |
CN204186923U (en) | 2015-03-04 |
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