CN106612997B - One kind cutting vertical stream installed threshing separator dynamic transfer system - Google Patents

Abstract

The present invention provides one kind and cuts vertical stream installed threshing separator dynamic transfer system, including cut flow roller, gear, driving member and longitudinal axial flow roller；The cut flow roller and the orthogonal placement of longitudinal axial flow roller；Cut flow roller axis is equipped in horizontal cut flow roller, the both ends of cut flow roller axis are pierced by the both ends of cut flow roller and connect respectively with power intake and power output end, and the cut flow roller axis of the power output end is inserted directly into gear；The driving member is arranged in the gap between cut flow roller and longitudinal axial flow roller vertical interlaced；The output end of gear is connect by driving member with one end in longitudinal axial flow roller equipped with longitudinal axial flow roller axis.The present invention realizes that power transmitting enormously simplifies the structure that power transmits between cut flow roller and longitudinal axial flow roller by gear and one group of driving member; reduce power transmission distance; the stationarity and transmission efficiency for improving power transmitting, effectively reduce the vibration and complete machine noise of threshing rack.

Description

One kind cutting vertical stream installed threshing separator dynamic transfer system

Technical field

The invention belongs to combine harvester technical field of research, and in particular to one kind is cut vertical stream installed threshing separator power and passed Defeated system.

Background technique

Full-feeding combine harvester currently on the market mostly uses the twin-roll threshing mode for cutting vertical flow pattern, and threshing stroke is long Separating area is big, and production efficiency can be improved in the case where not increasing body volume, good to moist difficult de- crop adaptability.It passes Dynamic device is the important component of combine harvester, and the Stability and dependability of transmission device directly influences combine harvester Transaction capabilities and service life.And the kind of drive that existing full-feeding combine harvester cuts vertical flow pattern threshing cylinder mainly has Two kinds, kind is unilateral chain conveyer, its drive mechanism is arranged in ipsilateral, i.e., power is passed through root transmission shaft by engine and passed It is handed to the thresing machine left side, then horizontal threshing cylinder is reached by chain conveyer, while power is transferred to longitudinal threshing by composite sprocket The bevel gear housing on the left back side of roller, then longitudinal threshing cylinder, this shape are imparted power to by chain conveyer by transmission case The transmission of formula, stroke farther out, need Multi-stage transmission to be just able to achieve, this is allowed for, and drive line is complicated and changeable, and power consumption is big, whole Machine size and weight are all larger, and it is unreliable to be driven, and is driven distance, and series mostly can unavoidably cause vibration and noise all It is very big.Another kind after that is, power is transferred on the left of cut flow roller, through exporting on the right side of cut flow roller, is led to using two sides power transmission It crosses bevel gear reversing box and transmission shaft or chain is transferred to machine tail portion, power is ultimately transferred to using chain by longitudinal axis flow roll Cylinder, although this transfer mode improves power transmission structure, arranges convenient for complete machine moulding, but power transmitting distance still compared with Far, drive mechanism is complicated, and transmission efficiency is low, and since chain is longer, and chain trembling acutely, not only brings phase in operation process To quick abrasion, reliability is reduced, and can also generate biggish noise and vibration, running stability is poor.

Kind full-feeding combine harvester disclosed in Chinese patent CN102860184A is cut vertical flow pattern threshing cylinder power and is passed Motivation structure, the power intake of horizontal threshing cylinder and output end branch are in horizontal threshing cylinder two sides, output end connection cone tooth Transmission case is taken turns, then power is transferred to machine tail portion through transmission shaft, then drives longitudinal axial flow roller main shaft rear portion through driving member again Make its rotation.The too long power loss of this kind of drive transmission shaft increases, and exposed relatively hazardous, in addition structure is complicated be unfavorable for it is whole Machine layout etc..

Kind full-feeding combine harvester disclosed in Chinese patent CN104904416A cuts vertical stream threshing cylinder power transmission System, he is needed first after directly exporting from grades of bevel gear reversing boxes by setting bevel gear reversing box and transition sprocket wheel, power The higher transition sprocket wheel of installation site is passed to by chain conveyer to improve power output position and then transmit again by chain conveyer To longitudinal axial flow roller, although this scheme simplifies the power transmission structure between cut flow roller and longitudinal axial flow roller, reduces Power transmits distance, but chain conveyer is respectively adopted between transition transmission case and bevel gear housing and longitudinal axial flow roller, is driven Stability is poor, and vibration and noise is larger, easily occurs jumping tooth and de- chain phenomenon, and be not easy arrangement tensioning dress in narrow space It sets.

Chinese patent CN103650782A uses speed change umbrella gear box, is equipped with large bevel gear and umbellule in speed change umbrella gear box Gear, large bevel gear are to engage connection with cone pinion, power is defeated through speed change umbrella gear box by spline and front roll axis connection Back roll axis is reached by chain after out.Although such transmission device structure is simple, reduce power transmitting distance, this Kind of scheme power output position and power input position be in same level in actual application driving chain easily with Frame side wall interference generally need to first improve power transmission height by setting transition sprocket wheel and pass to longitudinal axial flow roller again, be driven Stationarity is poor, and reliability is low, and tensioning apparatus is difficult to arrange, being unsuitable for longitudinal axial flow is that the tilting of inclination arrangement cuts vertical flow pattern formula Full-feeding combine harvester.

Summary of the invention

The purpose of the present invention is providing one kind regarding to the issue above to cut vertical stream installed threshing separator dynamic transfer system, pass through Gear and one group of driving member realize that power transmitting enormously simplifies power between cut flow roller and longitudinal axial flow roller and transmits Structure, reduce power transmission distance, improve power transmitting stationarity and transmission efficiency, effectively reduce threshing rack Vibration and complete machine noise, be not only adapted to be in tilted layout the tilting full-feeding combine harvester for cutting vertical flow pattern formula, be also applied for The horizontally disposed full-feeding combine harvester for cutting vertical flow pattern formula.

The technical scheme is that one kind cuts vertical stream installed threshing separator dynamic transfer system, including cut flow roller, tooth Take turns transmission case, driving member and longitudinal axial flow roller；

The cut flow roller and the orthogonal placement of longitudinal axial flow roller；Cut flow roller axis is equipped in horizontal cut flow roller, The both ends of cut flow roller axis are pierced by the both ends of cut flow roller and connect respectively with power intake and power output end, the power Input terminal is connect by drive mechanism with engine output shaft, and the cut flow roller axis of the power output end is inserted directly into gear biography In dynamic case, power carries out commutation and the raising of output position by gear (5)；

The driving member is arranged in the gap between cut flow roller and longitudinal axial flow roller vertical interlaced；Gear Output end is connect by being equipped with one end of longitudinal axial flow roller axis in driving member and longitudinal axial flow roller, and power is from gear (5) Output is passed to longitudinal axial flow roller axis (8) by one group of driving member (6), and longitudinal axial flow roller axis (8) drives longitudinal axial flow roller (9) rotation Turn.

In above scheme, splined shaft, medial lateral axis and gear are equipped in the gear drive box body of the gear Transmission case output shaft；

The axis of the splined shaft, medial lateral axis and gear output shaft is parallel to each other and position is successively raised； Roller gear and successively engaged transmission are cased on splined shaft, medial lateral axis and gear output shaft respectively；The splined shaft On be additionally provided with output bevel gear wheel, the output bevel gear wheel inner face is right against gear output end face, input bevel gear with Cut flow roller axis connection and connection is engaged with output bevel gear wheel, the output end of gear output shaft passes through driving member and vertical One end in axial-flow type drum equipped with longitudinal axial flow roller axis connects.

In above scheme, splined shaft, medial lateral axis and tooth are provided in the gear drive box body of the gear Take turns transmission case output shaft；

It is cased with roller gear and intermeshing transmission respectively on medial lateral axis and splined shaft, is additionally provided on splined shaft Bevel gear is inputted, output bevel gear wheel is provided on gear output shaft, cut flow roller axis, medial lateral axis and splined shaft exist Axis in gear drive box body is parallel to each other and position successively increases；

The roller gear is connect with one end of cut flow roller axis, and engages biography with the roller gear on medial lateral axis It is dynamic；Power passes to roller gear through cut flow roller axis, and the roller gear engagement successively increased by axial location improves power Output position, roller gear drives splined shaft rotation to impart power to the input bevel gear being attached to by spline, defeated The change of power direction of transfer is realized in the engagement for entering bevel gear and output bevel gear wheel again, and the output bevel gear wheel passes through spline and drives The rotation of gear output shaft, the output end of gear output shaft is by being equipped with the longitudinal axis in driving member and longitudinal axial flow roller One end of stream roller axis connects, and drives the rotation of longitudinal axial flow roller axis.

In above scheme, the driving member is V-belt or chain.

It further include tensioning apparatus in above scheme；The tensioning apparatus setting is in the gear output shaft and indulges It is connect between axial-flow type drum axis and with driving member.

Further, the tensioning apparatus is tensioning pulley or tightener sprocket.

In above scheme, the axis of the gear output shaft is 149~300mm higher than the axis of cut flow roller axis.

In above scheme, the cut flow roller axis is connect with the input bevel gear by spline.

In above scheme, the splined shaft is connect with the output bevel gear wheel by spline.

In above scheme, the roller gear is logical with the splined shaft, medial lateral axis and gear output shaft respectively Cross flat key or spline connection.

Compared with prior art, the beneficial effects of the present invention are:

1. gear is arranged in the output end of cut flow roller, cut flow roller axis, which is directly inserted into gear, to be led to It crosses spline to connect with bevel gear, avoids and cut flow roller and gear, letter are connected by chain conveyer first in the prior art Change the power transmission structure between cut flow roller and gear, saves one group of sprocket wheel and chain, gear biography of being more convenient for The arrangement of dynamic case, compact-sized, easy for installation, gear is lubricated using enclosed, guarantees the high speed rotation portion of transmission device Position sufficient lubrication, so that the service life of drive mechanism is improved.

2. gear be not only able to achieve power commutation can also make power output position improve avoiding problems existing skills Power directly needs to pass to the higher mistake of installation site by chain conveyer first after the output of level-one bevel gear housing in art Sprocket wheel is crossed to improve power output position and then pass to that reliable transmission caused by longitudinal axial flow roller is low, machine by chain conveyer again Structure is complicated, and vibration and noise are big, easily cause the problems such as jumping tooth, de- chain, and complete machine structure is more compact, has saved level-one chain conveyer, Transmission is more reliable and more stable, and low noise with small vibration, transmission efficiency is higher, good mechanical property.

3. realizing by one gear of setting and using one group of driving member by longitudinal axial flow roller in the prior art Power intake is transformed into the opposite other end of motive power input terminal, not only greatly reduces power transmission distance, improves biography Dynamic stationarity, the effectively lower vibration and noise of machine, shortens whole length and weight；And it in gear and indulges One group of driving member is only set between axial-flow type drum axis, takes full advantage of the space of cut flow roller and longitudinal axial flow roller alternating share, Arrangement tensioning apparatus is easily facilitated, it is more reasonable to be laid out, and arranges convenient for complete machine moulding and structure.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of an embodiment of the present invention；

Fig. 2 is the A direction view of Fig. 1；

Fig. 3 is the kind structural schematic diagram of gear of the present invention；

Fig. 4 is the another kind structural schematic diagram of gear of the present invention.

In figure: 1. power intakes；2. cut flow roller；3. cut flow roller axis；4. power output end；5. gear； 501. splined shaft；502. output bevel gear wheels；503. input bevel gears；504. medial lateral axis；505. gear output shafts； 506. roller gear；507. gear drive box bodies；508. gear output end face, 6. driving member；7. tensioning apparatus；8. Longitudinal axial flow roller axis；9. longitudinal axial flow roller.

Specific embodiment

With reference to the accompanying drawings and detailed description the present invention is made to walk into and be described in detail, but protection scope of the present invention It is not limited to this.

Fig. 1 show a kind of embodiment of the present invention for cutting vertical stream installed threshing separator dynamic transfer system, described Cut vertical stream installed threshing separator dynamic transfer system, including cut flow roller 2, gear 5, driving member 6,7 and of tensioning apparatus Longitudinal axial flow roller 9.

The cut flow roller 2 and the orthogonal placement of longitudinal axial flow roller 9；Cut flow roller is equipped in horizontal cut flow roller 2 Axis 3, the both ends of cut flow roller axis 3 are pierced by the both ends of cut flow roller 2 and connect respectively with power intake 1 and power output end 4, The power intake 1 is connect by drive mechanism with engine output shaft, and the cut flow roller axis 3 of the power output end 4 is straight It patches in gear 5, power carries out commutation and the raising of output position by gear 5；The driving member 6 is set It sets in the gap between 9 vertical interlaced of cut flow roller 2 and longitudinal axial flow roller；The output end of gear 5 passes through driving member 6 It is connect with the one end for being equipped with longitudinal axial flow roller axis 8 in longitudinal axial flow roller 9, power passes through one group of transmission from the output of gear 5 Part 6 passes to longitudinal axial flow roller axis 8, and longitudinal axial flow roller axis 8 drives longitudinal axial flow roller 9 to rotate.The tensioning apparatus 7 is arranged in institute It states between gear output shaft 505 and longitudinal axial flow roller axis 8 and is connect with driving member 6.

Bevel gear and axis is equipped in the gear 5 to be parallel to each other and position successively raised roller gear 506. Power not only changes the direction of motion after cut flow roller axis 3 is passed to gear 5 and increases power output shaft line position, and Directly pass through driving member 6 from the power that gear 5 is spread out of afterwards and pass to longitudinal axial flow roller 9, in gear 5 and the longitudinal axis Tensioning apparatus 7 is additionally provided between stream roller axis 8, for adjusting the rate of tension of driving member 6.The present invention is passed by using gear Dynamic case 5 and one group of driving member 6 realize that power is transmitted from the clearance position of 9 alternating share of cut flow roller 2 and longitudinal axial flow roller, transmitting Distance substantially shortens, and reliable transmission and stability significantly increase, and complete machine oscillation and noise are greatly reduced.

As shown in Fig. 2, power passes to longitudinal axial flow roller 9 by one group of driving member 6 after exporting in gear 5, Power transfer path is shorter, and tensioning apparatus 7 is disposed between gear output shaft 505 and longitudinal axial flow roller axis 8.It is described Driving member 6 can be V-belt perhaps chain correspondingly, the tensioning apparatus 7 can use tensioning pulley or tightener sprocket. Driving member 6 and tensioning apparatus 7 are arranged in the gap between 9 vertical interlaced of cut flow roller 2 and longitudinal axial flow roller, and power is by gear Transmission case output shaft 505 passes through driving member 6 after exporting and passes to longitudinal axial flow roller axis 8, and the tensioning apparatus 7 is by 6 band of driving member It moves to guarantee that driving member 6 is in suitable rate of tension range, so as to by driving the rotation of longitudinal axial flow roller 9,2 He of cut flow roller 9 location arrangements of longitudinal axial flow roller are more compact.

When power through cut flow roller axis 3 enter gear 5 after, 5 internally-powered of gear can first through bore tooth Wheel engagement, which changes power direction of transfer, engages through roller gear 506 improve power output position again, and gear 5 can be at this time Using structure as shown in Figure 3: being equipped with bevel gear and splined shaft 501 in the gear 5, the output bevel gear wheel 502 is logical It crosses spline and is fixed on splined shaft 501, medial lateral axis 504, gear output shaft are additionally provided in the gear 5 505, and the axis of splined shaft 501, medial lateral axis 504, gear output shaft 505 is parallel to each other and position is passed in gear Successively increase in dynamic box body 507.It is equipped on the splined shaft 501, medial lateral axis 504 and gear output shaft 505 Roller gear 506, and adjacent roller gear 506 is intermeshed transmission, the roller gear 506 and splined shaft 501, intermediate cross Axis 504, gear output shaft 505 are connected by flat key or spline respectively, and the inner face of the output bevel gear wheel 502 is just For gear output end face 508.The cut flow roller axis 3 is connect by spline with input bevel gear 503 and realizes power Transmitting, the engagement of the input bevel gear 503 and output bevel gear wheel 502 realize that power direction of transfer changes 90 °, the output cone Gear 502 drives splined shaft 501 to rotate by spline.Power is after bevel gear engages and realizes power transmitting commutation further through spline The engagement of axis 501 and output bevel gear wheel 502 transfers power to splined shaft 501 to drive the rotation of roller gear 506, finally Power is exported from gear output shaft 505, realizes that power output position is higher than the position of 3 place axis of cut flow roller axis, The axis of the gear output shaft 505 is 149-300mm higher than the axis of cut flow roller axis 3.

The engagement of roller gear 506 is first passed through after power enters gear 5 realizes the raising of power output position again When engaging change direction of transfer by bevel gear, the structure arrangement of the gear 5 can also use knot as shown in Figure 4 Structure: the gear 5 is provided with splined shaft 501, medial lateral axis 504, gear output shaft 505, in medial lateral axis 504 and splined shaft 501 on be provided with roller gear 506 and intermeshing transmission, be additionally provided on splined shaft 501 input cone tooth Wheel 503 is provided with output bevel gear wheel 502, cut flow roller axis 3, medial lateral axis 504 and flower on gear output shaft 505 Axis of the key axis 501 in gear drive box body 507 is parallel to each other and position successively increases.Roller gear 506 and cut flow roll Cylinder axis 3 connects, and with the engaged transmission of roller gear 506 on medial lateral axis 504.Power passes to circle through cut flow roller axis 3 Stud wheel 506, the engagement of roller gear 506 successively increased by axial location improve power output position, 506 band of roller gear The dynamic rotation of splined shaft 501 imparts power to the input bevel gear 503 being attached to by spline, inputs 503 He of bevel gear The change of power direction of transfer is realized in the engagement of output bevel gear wheel 502 again, and the output bevel gear wheel 502 passes through spline band moving gear The rotation of transmission case output shaft 505 outputs power, and 505 axis of gear output shaft is higher than 3 axis of cut flow roller axis 149-300mm。

The working principle of the invention is:

Start engine, engine operation generates operation power, operation power moving from cut flow roller by transmission mechanism Power input terminal 1 is transmitted to cut flow roller 2, and cut flow roller 2 works under the drive from engine power, and cut flow roller axis 3 is straight Connect and be inserted into gear 5 and output power on gear 5, through gear 5 change power direction of transfer and Power output position is improved, power is directly delivered to by longitudinal axis flow roll by one group of driving member 6 by gear output shaft 505 Cylinder axis 8, it is final that longitudinal axial flow roller 9 is driven to work.

It can very easily realize that the power between cut flow roller 2 and longitudinal axial flow roller 9 passes using above-mentioned transmission scheme It passs, compared with classical joint harvester, greatly reduces the transmitting distance between cut flow roller 2 and longitudinal axial flow roller 9, simplify and cut stream Transferring structure between roller 2 and longitudinal axial flow roller 9, and realize that power transmits using gear 5 and one group of driving member 6 And deflecting, complete machine oscillation and noise are effectively reduced, the stationarity and reliability of transmission are improved, transmission efficiency is high.Power from It is transmitted in the gap of 9 vertical interlaced of cut flow roller 2 and longitudinal axial flow roller, effectively shortens the length of complete machine, structure is more compact, Easily facilitate complete machine layout and moulding.The present invention realizes that power transmitting greatly simplifies by gear 5 and one group of driving member 6 The structure that power transmits between cut flow roller 2 and longitudinal axial flow roller 9, reduces power transmission distance, improves power transmitting Stationarity and transmission efficiency, effectively reduce the vibration and complete machine noise of threshing rack.

Although not each embodiment only includes it should be appreciated that this specification describes according to various embodiments Independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will illustrate Book is as entirety, and the technical solutions in the various embodiments may also be suitably combined, formed it will be appreciated by those skilled in the art that Other embodiments.

Detailed description the illustrating only for possible embodiments of the invention of those listed above series, The protection scope that they are not intended to limit the invention, it is all without departing from equivalent embodiment made by technical spirit of the present invention or change It should all be included in the protection scope of the present invention.

Claims (9)

1. one kind cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that including cut flow roller (2), gear drive Case (5), one group of driving member (6) and longitudinal axial flow roller (9)；

The cut flow roller (2) and longitudinal axial flow roller (9) orthogonal placement；It is equipped in horizontal cut flow roller (2) and cuts flow roll Cylinder axis (3), the both ends of cut flow roller axis (3) are pierced by both ends of cut flow roller (2) and defeated with power intake (1) and power respectively Outlet (4) connection, the power intake (1) are connect by drive mechanism with engine output shaft, the power output end (4) Cut flow roller axis (3) be inserted directly into gear (5), power by gear (5) carry out commutation and output bit The raising set；

In the gap that the driving member (6) is arranged between cut flow roller (2) and longitudinal axial flow roller (9) vertical interlaced；Gear passes The output end of dynamic case (5) is connect by driving member (6) with one end in longitudinal axial flow roller (9) equipped with longitudinal axial flow roller axis (8), is moved Power is passed to longitudinal axial flow roller axis (8) from gear (5) output by one group of driving member (6), longitudinal axial flow roller axis (8) band Dynamic longitudinal axial flow roller (9) rotation；

Splined shaft (501), medial lateral axis (504) and tooth are equipped in the gear drive box body (507) of the gear (5) It takes turns transmission case output shaft (505)；

The axis of the splined shaft (501), medial lateral axis (504) and gear output shaft (505) is parallel to each other and position Successively increase；It is cased with roller gear respectively on splined shaft (501), medial lateral axis (504) and gear output shaft (505) (506) and successively engaged transmission；It is additionally provided with output bevel gear wheel (502) on the splined shaft (501), the output bevel gear wheel (502) inner face is right against gear output end face (508), and input bevel gear (503) is connect simultaneously with cut flow roller axis (3) And connection is engaged with output bevel gear wheel (502), the output end of gear output shaft (505) passes through driving member (6) and the longitudinal axis One end in stream roller (9) equipped with longitudinal axial flow roller axis (8) connects.

2. one kind according to claim 1 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that the tooth It takes turns in the gear drive box body (507) of transmission case (5) and is provided with splined shaft (501), medial lateral axis (504) and gear Output shaft (505)；

Roller gear (506) and intermeshing transmission are cased with respectively on medial lateral axis (504) and splined shaft (501), in spline It is additionally provided with input bevel gear (503) on axis (501), is provided with output bevel gear wheel on gear output shaft (505) (502), the axis phase of cut flow roller axis (3), medial lateral axis (504) and splined shaft (501) in gear drive box body (507) Mutually parallel and position successively increases；

The roller gear (506) connect with one end of cut flow roller axis (3), and with the Cylinder Gear on medial lateral axis (504) Take turns (506) engaged transmission；Power passes to roller gear (506) through cut flow roller axis (3), is successively increased by axial location Roller gear (506) engagement improves power output position, and roller gear (506) drives splined shaft (501) rotation to transmit power To the input bevel gear (503) being attached to by spline, the engagement of bevel gear (503) and output bevel gear wheel (502) is inputted The change of power direction of transfer is realized again, and the output bevel gear wheel (502) drives gear output shaft (505) by spline Rotation, the output end of gear output shaft (505) is by being equipped with longitudinal axis flow roll in driving member (6) and longitudinal axial flow roller (9) One end connection of cylinder axis (8), drives longitudinal axial flow roller axis (8) rotation.

3. one kind according to claim 1 or 2 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that institute Stating driving member (6) is V-belt or chain.

4. one kind according to claim 1 or 2 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that also Including tensioning apparatus (7)；The tensioning apparatus (7) is arranged in the gear output shaft (505) and longitudinal axial flow roller axis (8) it is connect between and with driving member (6).

5. one kind according to claim 4 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that described Tight device (7) is tensioning pulley or tightener sprocket.

6. one kind according to claim 1 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that the tooth The axis for taking turns transmission case output shaft (505) is 149~300mm higher than the axis of cut flow roller axis (3).

7. one kind according to claim 1 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that described to cut Stream roller axis (3) is connect with the input bevel gear (503) by spline.

8. one kind according to claim 1 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that the flower Key axis (501) is connect with the output bevel gear wheel (502) by spline.

9. one kind according to claim 1 cuts vertical stream installed threshing separator dynamic transfer system, which is characterized in that the circle Stud wheel (506) passes through flat key with the splined shaft (501), medial lateral axis (504) and gear output shaft (505) respectively Or spline connection.