CN201705885U - Differential dynamic coupling device - Google Patents

Abstract

The utility model discloses a differential dynamic coupling device aiming at solving the problem of slippage wear between the traditional differential planet gear and a planet gear shaft. The differential dynamic coupling device comprises a differential housing, a left half shaft gear, an upper planet gear, a right half shaft gear, a lower planet gear, a round bush without a hole, a planet gear shaft, a No. 1 upper needle roller bearing, a No. 2 upper needle roller bearing, a round bush with a hole, a No. 1 lower needle roller bearing, a No. 2 lower needle roller bearing and the like, wherein the No. 1 upper needle roller bearing, the No. 2 upper needle roller bearing, the round bush with a hole, the No. 1 lower needle roller bearing, the No. 2 lower needle roller bearing and the round bush without a hole are sequentially sheathed at the upper and lower ends of the planet gear shaft; the planet gear shafts sheathing with the round bush with a hole and the round bush without a hole are sheathed and installed in holes at upper and lower ends of the differential housing; the round bush without a hole and an inner hole at the lower end of the differential housing are in interference fit; and the upper planet gear and the lower planet gear installed at the upper and lower ends of the planet gear shaft are respectively and simultaneously meshed and connected with the left half shaft gear and the right half shaft gear in the holes at left and right ends of the differential housing.

Description

Differential-speed dynamic coupling device

Technical field

The utility model relates to a kind of dynamic coupling device, and more particularly, the utility model relates to a kind of differential-speed dynamic coupling device that is applied on the mixed power electric car.

Background technique

Mixed power electric car (HEV-Hybrid Electric Vehicle, generally refer to the oil electric mixed dynamic automobile) make up the efficient coupling that realizes the car load power system by motor and motor and generator, the fuel economy of car load is significantly improved.How realizing the power distribution between mixed power electric car motor and motor and the generator, is one of development mixed power electric car key issue that must solve.The difficulty and the direction of the research and development of power coupled mode wherein and structures shape HEV power system are related to the progress and the level of product development, are crucial steps in the HEV exploitation.To distribute between this power of HEV be to realize by a kind of dynamic coupling device and will finish.

Utilize the dynamic coupling device of differential mechanism as mixed power electric car, can realize mixed power electric car continuous type series parallel connection drive form, rotating speed, torque by regulator generator can make engine operation at best efficiency point, thoroughly solve conventional engines because the problem of the operation point inefficiency that causes with the mechanical connection of wheel, thereby realized the control performance of electronic stepless continuous speed change (ECVT).Utilize the motor of high torque (HT) characteristic to realize the increase torque function of traditional speed changer, can eliminate mechanisms such as speed changer, clutch, the car load power transmission system is greatly simplified.By reasonable control generated output power, can realize the function of real-time regulated battery SOC (state of charge) in the driving process.

Because the planetary pinion rotation rotating speed of automobile tradition differential mechanism is less, and run duration is shorter, therefore no any connected element between the planetary pinion of automobile tradition differential mechanism and the planet pin, the sliding wear when only depending between the two ransaxle lubricant oil to improve its relative movement.The lubricating method that is proposed at present comprises: suitably increase the matching gap of differential mechanism component, increase the pressure angle on hole and the axle Line of contact, form effective wedge gap, promote oil abrasion to form; On differential gear, planetary pinion and planet axis, increase oil duct, make the rapid engaging friction of the oil droplet that splashes surface, constitute lubricated preferably environment; Gear shaft is carried out phosphatization handle, guarantee initial lubricated break-in; Install fluid delivery system additional, utilize the controllable pressure controlling mechanism that differential mechanism is lubricated; Lubricating oil bath is set, guarantees lubricated.

But when traditional differential mechanism is used as the mixed power electric car dynamic coupling device, there is big speed discrepancy all the time in its left and right output semiaxis, differential pinion gear and planet pin rely on above-mentioned lubricating method can only keep relatively rotating of short time, otherwise serious sliding wear between the two can occur.The Chinese patent notification number is CN 2013339, and the day for announcing is on November 4th, 2009, and the patent No. is ZL 200920092968.6, and the model utility name is called " as the differential mechanism of power coupling apparatus of hybrid power vehicle ".At this problem a kind of pure needle bearing scheme has been proposed in the case, needle roller promptly evenly is installed between planetary pinion and planet pin, purpose is to change the sliding friction between them into rolling friction, and to reduce its sliding wear, assembling is difficult but there is needle roller in this kind scheme, movement interference appears between the needle roller easily, make the planetary pinion axle fracture, needle roller part is crooked, part problem such as fracture, not only greatly reduce the life-span of differential mechanism, and had a strong impact on the normal transmission of power of vehicle.

Summary of the invention

Technical problem to be solved in the utility model is the sliding wear problem that has overcome between traditional differential pinion gear and the planet pin, a kind of differential mechanism as series parallel hybrid power vehicle power coupling device that adopts the needle bearing of band retainer is provided, both can improve sliding wear problem between planetary pinion and the planet pin effectively, also can make needle roller keep operational excellence, prevent movement interference and problem such as fracture.

For solving the problems of the technologies described above, the utility model is to adopt following technological scheme to realize: differential-speed dynamic coupling device comprises differential casing, left half axle gear pad, left half axle gear, upper planetary gear, upper planetary gear pad, planet pin lock pin, right axle shaft gear pad, right axle shaft gear, lower planetary gear, lower planetary gear pad, round bush not with holes, planet pin, goes up needle bearing, round bush with holes for No. 1, goes up needle bearing, No. 1 following needle bearing and No. 2 following needle bearings No. 2.

Go up needle bearing for No. 1, go up the upper end that needle bearing and round bush with holes are sleeved on planet pin successively for No. 2, the lower end surface of going up needle bearing for No. 1 contacts with the last shaft shoulder of planet pin, the lower end surface of No. 2 last needle bearings contacts with the upper-end surface of No. 1 last needle bearing, and the upper-end surface of the lower end surface of round bush with holes and No. 2 last needle bearings contacts.Go up needle bearing for No. 1 and go up on the needle bearing for No. 2 and be set with upper planetary gear and upper planetary gear pad.The planet pin that is set with round bush with holes is packed in the hole of differential casing upper end, and the planet pin lock pin inserts in the conical through-hole on differential casing upper end, planet pin and the round bush with holes and is connected for contact.

No. 1 following needle bearing, No. 2 following needle bearings and round bush not with holes are sleeved on the lower end of planet pin successively, the upper-end surface of No. 1 following needle bearing contacts with the following shaft shoulder of planet pin, the lower end surface of No. 1 following needle bearing contacts with the upper-end surface of No. 2 following needle bearings, and the lower end surface of No. 2 following needle bearings contacts with the upper-end surface of round bush with holes not.Be set with lower planetary gear and lower planetary gear pad on No. 1 following needle bearing and No. 2 following needle bearings.Be set with the planet pin of round bush with holes not and pack in the hole of differential casing lower end, the endoporus of round bush not with holes and differential casing lower end is an interference fit.Upper planetary gear on the planet pin and lower planetary gear are connected with a joggle simultaneously with the left half axle gear and the right axle shaft gear that are installed in the left and right stomidium of differential casing respectively.

Planet pin described in the technological scheme is made up of left side section axle, stage casing axle and right section axle.Three sections axles are arranged to one, the axis of symmetry conllinear of left side section axle, stage casing axle and right section axle.The equal diameters of left side section axle and right section axle, the diameter of stage casing axle be greater than the diameter of left side section axle with right section axle, left side section axle and right section spool formation plays the role of positioning with the stage casing axle respectively the last shaft shoulder and the following shaft shoulder.Left end at left side section axle is radially processed a conical through-hole, and the tapering of conical through-hole is identical with the tapering of planet pin lock pin, and the axis of symmetry of conical through-hole and the axis of symmetry of planet pin intersect vertically; Be disposed radially the equipped conical through-holes of two and planet pin lock pin on the barrel of described round bush with holes, the axis of symmetry conllinear of two conical through-holes and and the axis of symmetry of round bush with holes intersect vertically.The tapering of two conical through-holes is identical with the tapering of planet pin lock pin; Described round bush not with holes is the cylinder class formation spare that No. 1 following needle bearing and No. 2 following needle bearings is played position-limiting action, and the right-hand member that round bush not with holes is sleeved on the right section axle of planet pin becomes movingly.

Compared with prior art the beneficial effects of the utility model are:

1. differential-speed dynamic coupling device described in the utility model adopts the needle bearing of band retainer, and process planet pin and two round bushes that size is littler again, directly apply to the problem that there is serious slip abrasion in hybrid vehicle with regard to having solved traditional differential mechanism, can make needle roller keep operational excellence, prevent movement interference and the problem that fractures.

2. differential-speed dynamic coupling device described in the utility model only carries out the partial structurtes transformation to traditional differential mechanism inside, just traditional differential mechanism can be directly applied on the mixed power electric car, played the effect of getting twice the result with half the effort, the brand-new design and the trial-production of mixed power electric car dynamic coupling device have been simplified greatly, save time, save expense.

Description of drawings

Below in conjunction with accompanying drawing the utility model is further described:

Fig. 1 be expression employing described in the utility model have the retainer needle bearing as the whole-cutaway view on the differential-speed dynamic coupling device structural principle plan view on the motor vehicle driven by mixed power;

Fig. 2 is the plan view of the planetary pinion axle construction that adopted in the differential-speed dynamic coupling device described in the utility model of expression;

Fig. 3 is the plan view of the round bush structure not with holes that adopted in the differential-speed dynamic coupling device described in the utility model of expression;

Fig. 4 is the plan view of the round bush structure with holes that adopted in the differential-speed dynamic coupling device described in the utility model of expression;

Among the figure: 1. differential casing, round bush 2. not with holes, 3. left half axle gear pad, 4. left half axle gear, 5. planet pin is gone up needle bearings No. 6.1,7. upper planetary gear, 8. upper planetary gear pad, 9. planet pin lock pin, 10. round bush with holes, No. 11.2 last needle bearings, 12. right axle shaft gear pads, 13. the right axle shaft gear, No. 14.1 following needle bearings, No. 15.2 following needle bearings, 16. lower planetary gear, 17. lower planetary gear pads.

Embodiment

Below in conjunction with accompanying drawing the utility model is explained in detail:

Consult Fig. 1, for solve " pure needle bearing " scheme that prior art adopts exist between needle roller assembling difficulty, the needle roller occur movement interference easily, make the planetary pinion axle fracture, the needle roller part is crooked or part fractures problem, the utility model proposes the differential mechanism that adopts band retainer needle bearing as series parallel hybrid power electric vehicle dynamic coupling device.In other words, only the partial structurtes transformation is carried out in traditional differential mechanism inside, just traditional differential mechanism can be applied on the mixed power electric car as dynamic coupling device.

Differential-speed dynamic coupling device described in the utility model includes differential casing 1, round bush 2 not with holes, left half axle gear pad 3, left half axle gear (bevel gear) 4, planet pin 5, go up needle bearing 6 No. 1, upper planetary gear (bevel gear) 7, upper planetary gear pad 8, planet pin lock pin 9, round bush 10 with holes, go up needle bearing 11 No. 2, right axle shaft gear pad 12, right axle shaft gear (bevel gear) 13, No. 1 following needle bearing 14, No. 2 following needle bearings 15, lower planetary gear 16 and lower planetary gear pad 17.Wherein: left half axle gear 4 is identical in structure parts with lower planetary gear (bevel gear) 16 and upper planetary gear pad 8 with lower planetary gear pad 17 with right axle shaft gear pad 12, upper planetary gear 7 with right axle shaft gear 13, left half axle gear pad 3.

Consult Fig. 2, described planet pin 5 is axostylus axostyle class formation spares, is made up of left side section axle, stage casing axle and right section axle, and three sections axle settings (processing) are integral, the axis of symmetry conllinear of three sections axles.The equal diameters of left side section axle and right section spool, the diameter of stage casing axle is greater than the diameter of left side section axle with right section axle, left side section axle and right section axle and stage casing axle form two (left and right or say upper and lower) shaft shoulders, and two (left and right or say upper and lower) shaft shoulders are gone up needle bearing 6 and No. 2 upward needle bearing 11 and No. 1 following needle bearing 14 and 15 position-limiting actions of No. 2 following needle bearings to being installed on left side section axle and the right section axle No. 1.Left end at left side section axle is radially processed a conical through-hole, and the tapering of conical through-hole is identical with the tapering of planet pin lock pin 9, and the axis of symmetry of the radial taper through hole of processing and the axis of symmetry of planet pin 5 intersect vertically.

Consult Fig. 3, described round bush 2 not with holes is class formation spares, the right-hand member that it is sleeved on planet pin 5 right section axles becomes movingly, when being sleeved on the right section axle of planet pin 5 right-hand members, round bush 2 not with holes packs in the endoporus of differential casing 1 lower end, and becoming interference fit with differential casing 1 lower end endoporus, 2 pairs of round bushes not with holes are installed in No. 1 following needle bearing 14 and 15 position-limiting actions of No. 2 following needle bearings on the planet pin 5 right section axles.

Consult Fig. 4, described round bush 10 with holes also is a class formation spare, is disposed radially (processing) two conical through-holes on the barrel of round bush 10 with holes, the axis of symmetry conllinear of two conical through-holes and and the axis of symmetry of round bush 10 with holes intersect vertically.Two conical through-holes are used for interspersed planet pin lock pin 9, so the tapering of two conical through-holes is identical with the tapering of planet pin lock pin 9, round bush 10 with holes is sleeved on the left end of planet pin 5 left side section axles, to being installed in that on the section axle of planet pin 5 left side No. 1 goes up that needle bearing 6 is gone up needle bearing 11 with No. 2 and, be sleeved on the axis of symmetry conllinear of the radial taper through hole on the axis of symmetry of two conical through-holes on the round bush with holes 10 on planet pin 5 left side section axles and planet pin 5 left side sections spool to being installed in 5 position-limiting actions of planet pin on the differential casing 1.

Consult Fig. 1 and Fig. 2, the utility model adopts 11, No. 1 following needle bearing 14 of needle bearing and No. 2 following needle bearings 15 on No. 6,2, the needle bearing is being set between planet pin 5 and upper planetary gear 7 and the lower planetary gear 16 on No. 1 that is with retainer, because upper planetary gear 7 is bigger with the thickness of lower planetary gear 16, so two needle bearings are installed at each end.No. 1 last needle bearing that is adopted among the embodiment goes up 11, No. 1 following needle bearing 14 of needle bearing 6, No. 2 and No. 2 following needle bearings 15 select for use model to be all the needle bearing of K16x20x13.Go up needle bearing 11 for No. 2 and go up upward (left side) end that needle bearing 6 is sleeved on planet pin 5 for No. 1, following (right side) end face of going up needle bearing 6 for No. 1 contacts with (left side) shaft shoulder of going up of planet pin 5, following (right side) end face of going up needle bearing 11 for No. 2 contacts with (left side) end face of going up of going up needle bearing 6 for No. 1, and following (right side) end face of going up the round bush with holes 10 of upward (left side) end face of needle bearing 11 and suit for No. 2 contacts.

No. 2 following needle bearings 15 and No. 1 following needle bearing 14 are sleeved on following (right side) end of planet pin 5, (left side) end face of going up of No. 1 following needle bearing 14 contacts with following (right side) shaft shoulder of planet pin 5, following (right side) end face of No. 1 following needle bearing 14 contacts with (left side) end face of going up of No. 2 following needle bearings 15, and (left side) end face of going up of following (right side) end face of No. 2 following needle bearings 15 and the round bush 2 not with holes of suit contacts.

Consult Fig. 1, described planet pin lock pin 9 is axostylus axostyle class formation spares, is the lock pin with certain taper.Planet pin lock pin 9 inserts in two conical through-holes and the radial taper through hole on planet pin 5 left side section axles on taper lock pin-and-hole on the differential casings 1, the round bush with holes 10, and 9 pairs of planet pins 5 of planet pin lock pin, round bush with holes go up that needle bearing is gone up 11, No. 1 following needle bearing 14 of needle bearing 6, No. 2 and No. 2 following needle bearings 15 carry out axially locating for 10, No. 1.

Consult Fig. 1, described left half axle gear pad 3, right axle shaft gear pad 12, upper planetary gear pad 8 are plate structure spare with lower planetary gear pad 17.Left half axle gear pad 3 is the identical surface plate class formation spare of structure with right axle shaft gear pad 12; Upper planetary gear pad 8 is the identical curved plate class formation spare of structure with lower planetary gear pad 17, and upper planetary gear pad 8 is identical with the shape at lower planetary gear 16 back sides with the shape and the upper planetary gear 7 of lower planetary gear pad 17.Left half axle gear pad 3, right axle shaft gear pad 12, upper planetary gear pad 8 and lower planetary gear pad 17 are mounted respectively between left half axle gear 4, right axle shaft gear 13, upper planetary gear 7 and lower planetary gear 16 ear end faces and differential casing 1 inwall and become contact to be connected.

Consult Fig. 1 and Fig. 2, the left end of left half axle gear 4 is packed in the endoporus of the left end on the differential casing 1 for being rotationally connected, and the 3 one-tenth contacts of left half axle gear pad of packing between left half axle gear 4 and differential casing 1 inwall are connected; The right-hand member of right axle shaft gear 13 is packed in the endoporus of the right-hand member on the differential casing 1 for being rotationally connected, and the 12 one-tenth contacts of right axle shaft gear pad of packing between right axle shaft gear 13 and differential casing 1 inwall are connected.The left side section axle of planet pin 5 is gone up to install and is gone up needle bearing 6 for No. 1 and go up needle bearing 11 No. 2, go up for No. 1 the right side (descend) end face with the planet pin 5 of needle bearing 6 a left side (on) shaft shoulder contact is connected, No. 2 upward needle bearing 11 the right side (descending) end face with No. 1 upward the left side of needle bearing 6 (on) end face contacts and is connected.Round bush 10 with holes is sleeved on the high order end of section axle in a left side in the planet pin 5, the right side of round bush 10 with holes (descending) end face and No. 2 go up needle bearings 11 a left side (on) end face contacts, being disposed radially the conical through-hole that the left end of two conical through-holes of (processing) and planet pin 5 left side sections spool radially processes on round bush 10 barrels with holes will align.Planet pin 5 left sides (on) No. 1 of end goes up needle bearing 6 and be set with upper planetary gear 7 and upper planetary gear pad 8 on the needle bearings 11 with going up for No. 2, an end that is set with the planet pin 5 of round bush 10 with holes is packed in the hole of differential casing 1 upper end, in the conical through-hole that planet pin lock pin 9 inserts on differential casing 1 upper end, planet pin 5 and the round bush with holes 10,9 pairs of planet pins 5 of planet pin lock pin, round bush with holes are gone up needle bearing 6 for 10, No. 1 and are gone up needle bearing 11 for No. 2 and play the axially locating effect.On the right section axle of planet pin 5 No. 1 following needle bearing 14 and No. 2 following needle bearings 15 are installed, the left side of No. 1 following needle bearing 14 (on) right side (descending) shaft shoulder contact of end face and planet pin 5 is connected, the left side of the right side of No. 1 following needle bearing 14 (descending) end face and No. 2 following needle bearings 15 (on) the end face contact is connected, the left side of the right side of No. 2 following needle bearings 15 (descending) end face and round bush 2 not with holes (on) the end face contact is connected, when round bush 2 not with holes is sleeved on the right section axle of planet pin 5 and the endoporus of differential casing 1 lower end be interference fit, No. 1 following needle bearing 14 and No. 2 following needle bearings 15 are played the axially locating effect.Be set with lower planetary gear 16 and lower planetary gear pad 17 on No. 1 following needle bearing 14 of planet pin 5 right sides (descending) ends and No. 2 following needle bearings 15, upper planetary gear 7 and lower planetary gear 16 respectively above left half axle gear 4 and right axle shaft gear 13 with below and left half axle gear 4 and right axle shaft gear 13 be connected with a joggle simultaneously.

The adjustment of upper planetary gear 7 and lower planetary gear 16 and left half axle gear 4 and right axle shaft gear 13 back lashes:

Upper planetary gear 7 described in the utility model generally is to be in the middle of the rotation with lower planetary gear 16, and rotating speed is higher, when upper planetary gear 7 and lower planetary gear 16 and left half axle gear 4 are too small with right axle shaft gear 13 back lashes, may cause insufficient lubrication, even cause situations such as the gear that is meshed is stuck.Correct meshed transmission gear can reduce gear transmission noises and improves gear-driven lubricating quality, reliability and working life.And bevel gear drive because on making, the normal engaged between gear can not settle at one go, needs to solve by adjusting.Adopt the fixed setting assembling in the utility model, the thickness of thickness by upper planetary gear pad 8 and lower planetary gear pad 17 and left half axle gear pad 3 and right axle shaft gear pad 12 guarantees the back lash of upper planetary gear 7 and lower planetary gear 16 and left half axle gear 4 and right axle shaft gear 13.Increase the thickness of upper planetary gear pad 8 and lower planetary gear pad 17 and left half axle gear pad 3 and right axle shaft gear pad 12, upper planetary gear 7 reduces with the back lash of lower planetary gear 16 and left half axle gear 4 and right axle shaft gear 13; Reduce the thickness of upper planetary gear pad 8 and lower planetary gear pad 17 and left half axle gear pad 3 and right axle shaft gear pad 12, upper planetary gear 7 increases with the back lash of lower planetary gear 16 and left half axle gear 4 and right axle shaft gear 13.

Consult Fig. 2 to Fig. 4, be No. 1 last needle bearing 6 that has retainer to be installed in order to cooperate, go up needle bearing 11 No. 2, the planet pin 5 of No. 1 following needle bearing 14 and No. 2 following needle bearings 15 and redesign and processing, in order to guarantee planet pin 5 and to go up needle bearing 6 No. 1, go up needle bearing 11 No. 2, cooperation between No. 1 following needle bearing 14 and No. 2 following needle bearings 15, need carry out appropriate heat treatment to redesign and the planet pin 5 of processing and the conical through-hole of the location usefulness on the planet pin 5, at first on planet pin 5, process the conical through-hole of location usefulness, then whole planet pin 5 is carried out nitrogencase hardening to improve its surface hardness, thereby satisfy the hardness requirement that contacts with each needle bearing, avoid planet pin 5 and needle roller impression to occur.In order to prevent that No. 1 following needle bearing 14 and No. 2 following needle bearings 15 to the moving axially of the direction that breaks away from planet pin 5, are provided with round bush 2 not with holes and round bush with holes 10.Round bush 2 not with holes is pressed into by interference fit in the hole of the lower end on the differential casing 1, and round bush 10 with holes is installed in the hole of the upper end on the differential casing 1 by excessive cooperation, and carries out axially locating by planet pin lock pin 9 again.

Planet pin 5, round bush with holes 10, the round bush not with holes of new Design and Machining gone up needle bearing for 2, No. 1 and gone up 11, No. 1 following needle bearing 14 of needle bearing for 6, No. 2 and assemble with other part of No. 2 following needle bearings 15 and prior art and obtain new differential-speed dynamic coupling device.After differential-speed dynamic coupling device carries out the differential-speed dynamic coupling test after the Transform Type design, show install additional go up have retainer No. 1 needle bearing go up for 6, No. 2 the differential-speed dynamic coupling device of 11, No. 1 following needle bearing 14 of needle bearing and No. 2 following needle bearings 15 can the adequacy test scheme in the operating condition of test of the different speed of a motor vehicle and all test points of different loads torque, and the major part in the differential-speed dynamic coupling device does not all have tangible inefficacy sign; Illustrated that novel differential coupling power device is feasible fully on the mixed power electric car as being applied to differential mechanism by the traditional vehicle behind the above-mentioned remodeling on function realizes.

By above-mentioned Transform Type design, the serious sliding wear problem that has occurred owing to sliding friction when having avoided running up relatively between former traditional differential pinion gear and the planet pin; Make the whole system structural modification less, and realize its differential-speed dynamic coupling function easily, make things convenient for it to directly apply on the series parallel hybrid power electric vehicle.

Claims (4)

1. a differential-speed dynamic coupling device comprises differential casing (1), left half axle gear pad (3), left half axle gear (4), upper planetary gear (7), upper planetary gear pad (8), planet pin lock pin (9), right axle shaft gear pad (12), right axle shaft gear (13), lower planetary gear (16) and lower planetary gear pad (17); It is characterized in that described differential-speed dynamic coupling device comprises that also round bush not with holes (2), planet pin (5), No. 1 go up needle bearing (6), round bush with holes (10), go up needle bearing (11), No. 1 following needle bearing (14) and No. 2 following needle bearings (15) for No. 2;

Go up needle bearing (6) No. 1, needle bearing (11) and round bush with holes (10) are sleeved on the upper end of planet pin (5) successively on No. 2, the lower end surface of going up needle bearing (6) for No. 1 contacts with the last shaft shoulder of planet pin (5), the lower end surface of No. 2 last needle bearings (11) contacts with the upper-end surface of No. 1 last needle bearing (6), the upper-end surface of the lower end surface of round bush with holes (10) and No. 2 last needle bearings (11) contacts, go up needle bearing (6) for No. 1 and upward be set with upper planetary gear (7) and upper planetary gear pad (8) on the needle bearing (11) with No. 2, the planet pin (5) that is set with round bush with holes (10) is packed in the hole of differential casing (1) upper end, and planet pin lock pin (9) inserts differential casing (1) upper end, be connected for contact in the conical through-hole on planet pin (5) and the round bush with holes (10);

No. 1 following needle bearing (14), No. 2 following needle bearings (15) and round bush not with holes (2) are sleeved on the lower end of planet pin (5) successively, the upper-end surface of No. 1 following needle bearing (14) contacts with the following shaft shoulder of planet pin (5), the lower end surface of No. 1 following needle bearing (14) contacts with the upper-end surface of No. 2 following needle bearings (15), the lower end surface of No. 2 following needle bearings (15) contacts with the upper-end surface of round bush not with holes (2), be set with lower planetary gear (16) and lower planetary gear pad (17) on No. 1 following needle bearing (14) and No. 2 following needle bearings (15), the planet pin (5) that is set with round bush not with holes (2) is packed in the hole of differential casing (1) lower end, the endoporus of round bush not with holes (2) and differential casing (1) lower end is an interference fit, and the upper planetary gear (7) on the planet pin (5) and lower planetary gear (16) are respectively and be installed in differential casing (a 1) left side, left half axle gear in the right-hand member hole (4) is connected with a joggle simultaneously with right axle shaft gear (13).

2. according to the described differential-speed dynamic coupling device of claim 1, it is characterized in that, described planet pin (5) is by left side section axle, stage casing axle and right section axle are formed, three sections axles are arranged to one, left side section axle, the axis of symmetry conllinear of stage casing axle and right section axle, the equal diameters of left side section axle and right section spool, the diameter of stage casing axle is greater than the diameter of left side section axle with right section axle, left side section axle forms the last shaft shoulder and the following shaft shoulder that plays the role of positioning with the stage casing axle respectively with right section axle, left end at left side section axle is radially processed a conical through-hole, the tapering of conical through-hole is identical with the tapering of planet pin lock pin (9), and the axis of symmetry of the axis of symmetry of conical through-hole and planet pin (5) intersects vertically.

3. according to the described differential-speed dynamic coupling device of claim 1, it is characterized in that, be disposed radially two and the equipped conical through-hole of planet pin lock pin (9) on the barrel of described round bush with holes (10), the axis of symmetry conllinear of two conical through-holes and and the axis of symmetry of round bush with holes (10) intersect vertically, the tapering of two conical through-holes is identical with the tapering of planet pin lock pin (9).

4. according to the described differential-speed dynamic coupling device of claim 1, it is characterized in that, described round bush not with holes (2) is the cylinder class formation spare to No. 1 a following needle bearing (14) and No. 2 following needle bearings (a 15) position-limiting action, and the right-hand member that round bush not with holes (2) is sleeved on the right section axle of planet pin (5) becomes movingly.

Images