CN2743625Y - Helical self locking compensating gear - Google Patents

Abstract

The utility model provides a helical self locking compensating gear, comprising an existing symmetrical conical planet gear compensating gear. A guide sleeve which penetrates in the left and the right half axle gear is fixed in the cross axle hole. Helical slide controllers are symmetrically installed in the left and the right half axle gear and each helical slide controller is composed of rolling lead screw pairs, gear brackets, transition gears, semi-circle gears and thrust plates. The idle driving wheel (by the half shaft and the half axle gear) and the other driving wheel which stops rotating (by the half axle gear and the half shaft) are integrated by the helical slide controller to make the two wheels rotate with the differential gear case. Thus the vehicle can move forwards and the two driving wheels are connected temporarily by a connecting sleeve (or a connecting pole), and then can return in time, which realizes that the two driving wheels can be separated in time. The helical self locking compensating gear holds all the advantages of the symmetrical conical planet gear compensating gear, and meanwhile solves the defect that the vehicle stops when one driving wheel slips and idles existing in a common compensating gear.

Description

Spiral no-spin lockup

Technical field

The utility model relates to wheeled vehicle with automatic antiskid differential mechanism.

Background technique

Existing differential mechanism has: symmetric type cone planetary gear differential mechanism, locking differential, differential gear with self-locking device.Wherein differential gear with self-locking device is divided into cone planetary gear differential mechanism, slider cam formula differential mechanism, worm-gear type differential mechanism and the free wheel type differential mechanism (" Automobile Engineering Manual " design piece of writing the 462nd to 468 face that People's Transportation Press publishes) of being with friction plate again.Existing wheeled vehicle is most widely used to be symmetric type cone planetary gear differential mechanism, it has advantages such as simple in structure, stable working, cost be low, but it exists shortcoming, promptly when a driving wheel skid, the rotating speed of another driving wheel is zero, and vehicle just halts.So on the basis of symmetric type cone planetary gear differential mechanism, occurred " locking differential ", it is to adopt jaw clutch that the driving wheel of skid is forced to combine as a whole with the difference shell, though this differential mechanism has solved the problem that the vehicle that causes because of a driving wheel skid halts, but need stop in use by the hand control locking, fall into bus or train route Duan Shixu in time by manually taking locking at vehicle derailing, otherwise may influence traffic safety.Though other present differential gear with self-locking device all has preferably anti-slide performance automatically, but generally all there is complex structure, manufacture process requirement height, the high deficiency of cost, and all influenced the handling maneuver flexibility of vehicle more or less, so the face of promoting the use of is not very wide.

Summary of the invention

At having the defective that locking differential needs the hand control locking, might influence traffic safety now, existing symmetric type cone planetary gear differential mechanism is transformed, the utility model proposes spiral no-spin lockup.

The utility model is on the basic ideas of " locking differential ", with former locking and the process of extracing locking by artificial shut-down operation, changing into does not stop realizes automatically, reach the solution vehicle and cause falling into the effect and the duplicate effect of forced locking differential mechanism of car because of a driving wheel skids, and eliminated the shortcoming that the forced locking differential mechanism exists.

The basic principle that the utility model is used is: when vehicle occurs falling into car, as long as manage the driving wheel (by semiaxis and differential gear) of skid is combined as a whole with difference shell or another driving wheel that stops operating (by differential gear and semiaxis), two-wheeled is rotated with the difference shell together, and vehicle just can advance.

For this reason, the technical solution of the utility model is: spiral no-spin lockup comprises existing symmetric type cone planetary gear differential mechanism; In addition, internal fixation has the guide sleeve that penetrates in the left and right half gear in the hole of cross axle, be symmetrically arranged with the sliding device of spiral control in the left and right half gear, the sliding device of each spiral control is made up of ball-screw pair, gear carrier, transition gear, semi-circle gear, thrust plate; Thrust plate is spacing by the step in the differential gear, and gear carrier is placed between thrust plate and the guide sleeve; Two kinds of drive mechanisms of the secondary branch of ball-screw, specific as follows:

The drive mechanism of the nut moving linearly of ball-screw pair: joint sleeve and screw rod are formed the ball-screw pair, joint sleeve leads in guide sleeve, screw rod passes gear carrier, screw head is located with thrust plate, transition gear, semi-circle gear is supported on the gear carrier by rotating shaft, screw head is provided with the circumferential gear teeth, transition gear and semi-circle gear engagement, transition gear meshes simultaneously with in the differential gear, semi-circle gear is occluding relation with screw head simultaneously, and the rigging position between semi-circle gear and the screw head is the standby condition that semi-circle gear and screw head are in interlock; Be provided with Returnning spring between the connecting sleeve opposing end surface of symmetric arrangement, the screw spiral direction of symmetric arrangement is opposite;

The drive mechanism of the leading screw moving linearly of ball-screw pair: swivel nut and coupling rod are formed the ball-screw pair, swivel nut leads in guide sleeve, the axle journal of swivel nut head passes gear carrier, the swivel nut head is located with thrust plate, transition gear, semi-circle gear is supported on the gear carrier by rotating shaft, the swivel nut head is provided with the circumferential gear teeth, transition gear and semi-circle gear engagement, transition gear meshes simultaneously with in the differential gear, semi-circle gear is occluding relation with the swivel nut head simultaneously, and the rigging position between semi-circle gear and the swivel nut head is the standby condition that semi-circle gear and swivel nut head are in interlock; Be provided with Returnning spring between the coupling rod opposing end surface of symmetric arrangement, the swivel nut Hand of spiral of symmetric arrangement is opposite.

Described spiral no-spin lockup, when a driving wheel skids, with rotatablely moving of the driving wheel that skids, the straight line that converts joint sleeve (or coupling rod) to moves, limit when dead when the straight line of this joint sleeve (or coupling rod) moves by another joint sleeve (coupling rod), rotatablely moving of the driving wheel that skids also just stopped, and realized that the relative rigidity of two driving wheels connects, vehicle just can break away from sunken car predicament, moves on.Two driving wheels are by after the of short duration connection of joint sleeve (or coupling rod), owing to be the rolling lead screw pair, Returnning spring can realize that two-wheeled in time breaks away from time with joint sleeve (or coupling rod) pushed home that moves.

When the joint sleeve moving linearly, the power that screw rod is rotated, respectively from differential gear and return spring, under the effect respectively of two kinds of power, screw rod produces two kinds of rotations that direction is opposite, if motion artifacts will occur with the common kind of drive, the action of requirement just can't be realized, adopt the interlock of semi-circle gear and screw rod wheel toothed portion for this reason, differential gear passes through transition gear, semi-circle gear drives screw rod, and screw rod drives joint sleeve and moves, when resetting, Returnning spring promotes joint sleeve, the counterrotating of joint sleeve lead-screw, screw rod and semi-circle gear are thrown off, and joint sleeve is pushed back original position, thereby realized that joint sleeve moves forward and backward motion freely, and fully automatically.When the coupling rod moving linearly, semi-circle gear and the interlock of swivel nut toothed portion, differential gear drives swivel nut by transition gear, semi-circle gear, and swivel nut drives coupling rod and moves, when resetting, Returnning spring promotes coupling rod, coupling rod promotes the swivel nut counterrotating, and swivel nut and semi-circle gear are thrown off, and coupling rod is pushed back original position, thereby realized that coupling rod moves forward and backward motion freely, and fully automatically.

The utility model has kept whole advantages of symmetrical cone planetary gear differential mechanism, as simple in structure, easy to manufacture, cost is low, stable working, Vehicular turn manoeuvrable etc.Solved the shortcoming that a driving wheel skid of appearance vehicle that open differential exists just halts simultaneously.It both can be used as differential between wheel, also can be used as shaft space difference speed; The vehicle that both can be used for two-wheel drive also can be used for the vehicle of many wheel drive.In vehicle driving, as long as the non-slip idle running of driving wheel is arranged, vehicle just can move on, and its working procedure is automatically, and driver is operated as the working state of the vehicle that open differential is housed just the same.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is an A-A sectional drawing among Fig. 1.

Fig. 3 is the structural representation of another kind of mode of execution of the present utility model.

Fig. 4 is a B-B sectional drawing among Fig. 3.

Embodiment

Spiral no-spin lockup as shown in Figure 1, 2 comprises the symmetric type cone planetary gear differential mechanism that is made of difference shell 1, cross axle 9, planetary pinion 17, planetary pinion 10, left half axle gear 2, right axle shaft gear 11; In addition, at the hole of cross axle 9 internal fixation the guide sleeve 16 that penetrates in the left and right half gear 2,11 is arranged, be symmetrically arranged with the sliding device of spiral control in left half axle gear 2, right axle shaft gear 11, the structure of two sliding devices of spiral control is identical.

Now carry out structure with regard to the sliding device of the spiral control in the left half axle gear 2 and describe, the sliding device of spiral control is made up of joint sleeve 8, screw rod 7, gear carrier 5, transition gear 18, semi-circle gear 19, thrust plate 3; Thrust plate 3 is spacing by the step in the left half axle gear 2, and joint sleeve 8 is slidingly matched with guide sleeve 16 endoporus, and guide sleeve 16 endoporus are provided with axial groove 15, and joint sleeve 8 is stuck in by steel ball and limits its rotation in the axial groove 15; Joint sleeve 8 constitutes the ball-screw pair with screw rod 7, promptly is supported with a plurality of steel balls 6 in the spiral chute of screw rod 7, and the outside of steel ball 6 is stuck in the radial hole of joint sleeve 8; Gear carrier 5 is placed between thrust plate 3 and the guide sleeve 16, screw rod 7 passes gear carrier 5, screw rod 7 and gear carrier 5 Spielpassung, screw rod 7 head end are passed through steel ball 4 roof pressures on thrust plate 3, screw rod 7 heads are provided with the circumferential gear teeth, transition gear 18, semi-circle gear 19 is supported on the gear carrier 5 by rotating shaft, transition gear 18 and semi-circle gear 19 engagements, transition gear 18 meshes simultaneously with in the differential gear 2, semi-circle gear 19 is occluding relation with the screw rod 7 head gear teeth simultaneously, and the rigging position between semi-circle gear 19 and screw rod 7 heads is the standby condition that semi-circle gear 19 and screw rod 7 heads are in interlock; Be provided with Returnning spring 14 between joint sleeve 8 and symmetrically arranged connecting sleeve 12 end faces, the screw rod 13 of symmetric arrangement is opposite with screw rod 7 Hand of spiral.Shown in Fig. 2, the quantity that transition gear 18, semi-circle gear 19 are complementary is three, and uniform on 360 ° of circumference.

The quantity that described transition gear 18, semi-circle gear 19 are complementary is not limited to three, can be two, or more than three.

Described joint sleeve 8 constitutes the ball-screw pair with screw rod 7 and is not limited to structure shown in Fig. 1, can adopt other known configurations.

Shown in Fig. 3,4, swivel nut 22 constitutes the ball-screw pair with coupling rod 21, promptly is supported with a plurality of steel balls 6 in the spiral chute of swivel nut 22, and the inboard of steel ball 6 is stuck in the circular groove of coupling rod 21; Swivel nut 22 is slidingly matched with guide sleeve 16 endoporus, and guide sleeve 16 endoporus are provided with axial groove 15, and coupling rod 21,24 is stuck in by steel ball and limits its rotation in the axial groove 15; The axle journal of swivel nut 22 heads passes gear carrier 5, the axle journal of swivel nut 22 heads and gear carrier 5 Spielpassung, swivel nut 22 head end are passed through steel ball 4 roof pressures on thrust plate 3, the axle journal of swivel nut 22 heads is provided with the circumferential gear teeth, transition gear 18, semi-circle gear 19 is supported on the gear carrier 5 by rotating shaft, transition gear 18 and semi-circle gear 19 engagements, transition gear 18 meshes simultaneously with in the differential gear 2, the gear teeth of 19 whiles of semi-circle gear with swivel nut 22 heads are occluding relation, and the rigging position between semi-circle gear 19 and swivel nut 22 heads is the standby condition that semi-circle gear 19 and swivel nut 22 heads are in interlock; Be provided with Returnning spring 14 between coupling rod 21 and symmetrically arranged coupling rod 24 end faces, the swivel nut 23 of symmetric arrangement is opposite with swivel nut 22 Hand of spiral.In addition, all the other structures are identical with the structure described in Fig. 1,2.

Claims (4)

1, spiral no-spin lockup, comprise existing symmetric type cone planetary gear differential mechanism, it is characterized in that: internal fixation has the guide sleeve that penetrates in the left and right half gear in the hole of cross axle, is symmetrically arranged with the sliding device of spiral control in the left and right half gear; The sliding device of each spiral control is by the ball-screw pair, gear carrier, transition gear, semi-circle gear, thrust plate is formed, thrust plate is spacing by the step in the differential gear, joint sleeve and screw rod constitute the ball-screw pair, joint sleeve leads in guide sleeve, gear carrier is placed between thrust plate and the guide sleeve, screw rod passes gear carrier, screw head is located with thrust plate, transition gear, semi-circle gear is supported on the gear carrier by rotating shaft, screw head is provided with the circumferential gear teeth, transition gear and semi-circle gear engagement, transition gear meshes simultaneously with in the differential gear, semi-circle gear is occluding relation with screw head simultaneously, and the rigging position between semi-circle gear and the screw head is the standby condition that semi-circle gear and screw head are in interlock; Be provided with Returnning spring between the connecting sleeve opposing end surface of symmetric arrangement, the screw spiral direction of symmetric arrangement is opposite.

2, spiral no-spin lockup according to claim 1, it is characterized in that: the concrete structure that described joint sleeve and screw rod constitute the ball-screw pair is: be supported with a plurality of steel balls (6) in the spiral chute of screw rod (7), the outside of steel ball (6) is stuck in the radial hole of joint sleeve (8).

3, spiral no-spin lockup, comprise existing symmetric type cone planetary gear differential mechanism, it is characterized in that: internal fixation has the guide sleeve that penetrates in the left and right half gear in the hole of cross axle, is symmetrically arranged with the sliding device of spiral control in the left and right half gear; The sliding device of each spiral control is by the ball-screw pair, gear carrier, transition gear, semi-circle gear, thrust plate is formed, thrust plate is spacing by the step in the differential gear, swivel nut and coupling rod constitute the ball-screw pair, swivel nut leads in guide sleeve, gear carrier is placed between thrust plate and the guide sleeve, the axle journal of swivel nut head passes gear carrier, the swivel nut head is located with thrust plate, transition gear, semi-circle gear is supported on the gear carrier by rotating shaft, the swivel nut head is provided with the circumferential gear teeth, transition gear and semi-circle gear engagement, transition gear meshes simultaneously with in the differential gear, semi-circle gear is occluding relation with the swivel nut head simultaneously, and the rigging position between semi-circle gear and the swivel nut head is the standby condition that semi-circle gear and swivel nut head are in interlock; Be provided with Returnning spring between the coupling rod opposing end surface of symmetric arrangement, the swivel nut Hand of spiral of symmetric arrangement is opposite.

4, spiral no-spin lockup according to claim 3, it is characterized in that: the concrete structure that described swivel nut and coupling rod constitute the ball-screw pair is: be supported with a plurality of steel balls (6) in the spiral chute of swivel nut (22), the inboard of steel ball (6) is stuck in the circular groove of coupling rod (21).