CN108847752A - Rotor shaft crossing device - Google Patents

Abstract

The present invention provides a kind of rotor shaft crossing device.The rotor shaft crossing device, including iron core fixation member, shaft pushing tow component, the shaft pushing tow component is in shaft therein for pushing tow, the iron core fixation member is for being fixed rotor core, the iron core fixation member is on the pushing tow direction of the shaft pushing tow component, when the shaft described in the shaft pushing tow component pushing tow, the shaft can be threaded onto the shaft hole that the rotor core has.A kind of rotor shaft crossing device according to the present invention is realized by the way of mechanization and wears axis process to rotor core, and high degree of automation greatly improves rotor and wears the working efficiency of axis, reduces work difficulty, can save human cost.

Description

Rotor shaft crossing device

Technical field

The invention belongs to technical field of motor manufacture, and in particular to a kind of rotor shaft crossing device.

Background technique

In process, blank rotor needs to penetrate shaft internal rotor to current all kinds of small-sized alternating current generators, compresses Carry out the process operation of next step again afterwards, this process often uses some simple instruments of human assistance to carry out, specifically Need one or several operators that shaft is manually put into internal rotor by root, it is extremely low that rotor core wears axis working efficiency, Work difficulty, labor intensity are generally higher, and human cost is higher.

Summary of the invention

Therefore, the technical problem to be solved in the present invention is that a kind of rotor shaft crossing device is provided, using mechanization Mode, which is realized, wears axis process to rotor core, and high degree of automation greatly improves rotor and wears the working efficiency of axis, reduces Work difficulty, can save human cost.

To solve the above-mentioned problems, the present invention provides a kind of rotor shaft crossing device, including iron core fixation member, shaft Pushing tow component, the shaft pushing tow component are in shaft therein for pushing tow, and the iron core fixation member is used for rotor iron Core is fixed, and the iron core fixation member is on the pushing tow direction of the shaft pushing tow component, when the shaft pushing part When shaft described in part pushing tow, the shaft can be threaded onto the shaft hole that the rotor core has.

Preferably, the iron core fixation member includes fixing seat, and the fixing seat is on the plane perpendicular to pushing tow direction Section at V-structure, the rotor core is placed in the V-structure.

Preferably, the V-structure is provided with stop bit part far from the shaft pushing tow component side.

Preferably, the iron core fixation member further includes lifters, and the fixing seat is connected to the top of the lifters.

Preferably, the shaft pushing tow component includes shaft placement platform, pushing tow driving assembly, the shaft placement platform With the placing groove extended along pushing tow direction, for the placing groove for placing the shaft, the pushing tow driving assembly can Shaft described in pushing tow is moved along pushing tow direction.

Preferably, the pushing tow driving assembly includes pushing tow cylinder, push block, and the push block and the pushing tow cylinder have Some piston rod connections.

Preferably, the pushing tow driving assembly has mounting portion, and the mounting portion and shaft placement platform sliding connect It connects.

Preferably, the rotor shaft crossing device further includes shaft transfer unit, and the shaft transfer unit includes chain Formula revolution conveyer belt, conveyer belt driving assembly mention axis scraper plate, and the conveyer belt driving assembly and chain type revolution conveyer belt drive Dynamic connection, to drive the chain type revolution conveyer belt to generate rotary motion around its centre of gyration, it is described mention axis scraper plate with it is described Chain type turns round the peripheral side connection of conveyer belt, it is described mention axis scraper plate and have propose axle construction, the shaft, which is placed in, described mentions axis knot In structure, the shaft transfer unit mentions axis scraper plate described in and shaft conveying is placed in the placing groove.

Preferably, the conveyer belt driving assembly includes motor, and the output shaft of the motor and chain type revolution convey The driven roller that band has is coaxially connected.

Preferably, the axle construction that mentions is configured with shaft placement notch, and the shaft can be placed in the shaft and place In notch, in chain type revolution conveyer belt turning course, the shaft, which is placed notch and had, will place therein described turn Axis is discharged into the first position of the placing groove, and will place what the shaft therein was promoted along chain type revolution conveyer belt The second position.

Preferably, the rotor shaft crossing device further includes shaft accommodating part, and the shaft accommodating part has Expect side, the exit side mentions being correspondingly arranged for axis scraper plate with described, and the shaft accommodating part mentions axis scraper plate one along described in It is sloped downwardly, is placed in notch so as to be placed in the shaft therein and roll into the shaft under Gravitative Loads.

Preferably, the rotor shaft crossing device further include for by the rotor core guided placement in the V-type The iron core feed well of structure.

Preferably, the iron core feed well include be arranged symmetrically first charging side channel, second charging side channel, described first Charging side channel, the cross section of the second charging side channel are all L-shaped, and the first charging side channel, the second charging side channel opposite can be transported It is dynamic, to change the width of rebate of the iron core feed well.

Preferably, the rotor shaft crossing device further includes feed well width adjustment slide unit, the first charging side channel, Second charging side channel is slidably connected with the feed well width adjustment slide unit independently of one another.

Preferably, the rotor shaft crossing device further includes iron core stop bit component, and the iron core stop bit component is set to institute Above the outlet for stating iron core feed well, the rotor core in the iron core feed well is positioned for stopping.

Preferably, the iron core stop bit component includes the first stop bit cylinder, and the piston rod of the first stop bit cylinder stretches out End is equipped with the first stop block, and when first stop block stretches out, the rotor core in the iron core feed well will be barred from In the iron core feed well, when first stop block retracts, the rotor core will be consolidated by the iron core is reentered certainly Determine in component.

Preferably, the iron core stop bit component further includes the second stop bit cylinder, and the piston rod of the second stop bit cylinder is stretched Outlet is equipped with the second stop block, and when second stop block stretches out, the rotor core in the iron core feed well will be blocked In the iron core feed well, when second stop block retracts, the rotor core will rely on and reenter described first certainly The space of stop bit cylinder progress stop bit.

Preferably, the rotor shaft crossing device further includes rotor assembly blow tank, the rotor assembly blow tank tool There is feed end, the feed end is undertaken in the V-structure, so as to wear the rotor assembly that axis finishes in the V-structure It is able to enter in the rotor assembly blow tank.

Preferably, the rotor assembly blow tank includes symmetrically arranged first side bar, the second side bar, first side bar Parallel to each other with the second side bar, the rotor assembly blow tank edge tilts upwards towards the side of the V-structure.

Preferably, first side bar has the first position-arresting part far from one end of the V-structure, and second side bar is remote One end from the V-structure has the second position-arresting part.

Preferably, first side bar and the second side bar can relative motion, to change the rotor assembly blow tank Width of rebate.

Preferably, the rotor shaft crossing device further includes blow tank width adjustment slide unit, first side bar and Two side bars are slidably connected with the blow tank width adjustment slide unit independently of one another.

Preferably, the rotor shaft crossing device further includes installation rack, for the iron core fixation member, shaft Pushing tow component is supported.

A kind of rotor shaft crossing device provided by the invention, using the iron core fixation member to the rotor core into Line position sets fixation, forces in the shaft using the shaft pushing tow component, so that it is described so that the shaft is easily penetrated In the shaft hole that rotor core has, axis process, automation are worn to rotor core due to realizing by the way of mechanization Degree is high, greatly improves rotor and wears the working efficiency of axis, reduces work difficulty, can save human cost.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the rotor shaft crossing device of the embodiment of the present invention；

Fig. 2 is the positive structure diagram of the rotor shaft crossing device (omitting section components) of the embodiment of the present invention；

Fig. 3 is the schematic perspective view of the iron core fixation member of the rotor shaft crossing device of the embodiment of the present invention；

Fig. 4 is the stereochemical structure that iron core is placed in the iron core fixation member of the rotor shaft crossing device of the embodiment of the present invention Schematic diagram；

Fig. 5 is the partial enlargement diagram in Fig. 1 at A；

Fig. 6 is the overlooking structure diagram of Fig. 2；

Fig. 7 is the iron core fixation member propradation schematic diagram using the rotor shaft crossing device of the embodiment of the present invention；

Fig. 8 is to decline status diagram using the iron core fixation member of the rotor shaft crossing device of the embodiment of the present invention；

Fig. 9 is the partial enlargement structural representation of Fig. 1；

Figure 10 is the overlooking structure diagram of Fig. 9；

Figure 11 is that the chain type in Fig. 1 turns round conveyer belt and proposes the connection relationship diagram of axis scraper plate.

Appended drawing reference is expressed as：

1, iron core fixation member；11, fixing seat；12, stop bit part；13, lifters；2, shaft pushing tow component；21, shaft is put Horizontalization platform；22, pushing tow driving assembly；221, pushing tow cylinder；222, push block；23, placing groove；24, guide rail is slid；31, chain type Turn round conveyer belt；32, conveyer belt driving assembly；33, axis scraper plate is mentioned；332, shaft places notch；4, shaft accommodating part；5, iron Core feed well；53, feed well width adjustment slide unit；6, rotor assembly blow tank；61, the first side bar；611, the first position-arresting part； 62, the second side bar；621, the second position-arresting part；63, feed end；64, blow tank width adjustment slide unit；7, rack is installed；8, iron core Stop bit component；81, the first stop bit cylinder；82, the second stop bit cylinder；100, shaft；101, rotor core.

Specific embodiment

In conjunction with referring to shown in Fig. 1 to Figure 11, according to an embodiment of the invention, providing a kind of rotor shaft crossing device, wrap Iron core fixation member 1, shaft pushing tow component 2 are included, the shaft pushing tow component 2 is in shaft 100 therein for pushing tow, described For iron core fixation member 1 for rotor core 101 to be fixed, the iron core fixation member 1 is in the shaft pushing tow component 2 Pushing tow direction on, when the shaft 100 described in 2 pushing tow of shaft pushing tow component, the shaft 100 can be threaded onto described turn In the shaft hole that sub- iron core 101 has.In the technical solution using the iron core fixation member 1 to the rotor core 101 into Line position sets fixation, the shaft 100 is forced in using the shaft pushing tow component 2, so that the shaft 100 be enable easily to wear Enter in the shaft hole that the rotor core 101 has, axis work is worn to rotor core due to realizing by the way of mechanization Sequence, high degree of automation greatly improve rotor and wear the working efficiency of axis, reduce work difficulty, can save manpower at This.

A kind of specific embodiment as the iron core fixation member 1, it is preferable that the iron core fixation member 1 is wrapped Fixing seat 11 is included, section of the fixing seat 11 on the plane perpendicular to pushing tow direction is at V-structure, the rotor core 101 are placed in the V-structure, and the periphery wall at least two sides of the iron core 101 can be erected at the V of the fixing seat 11 at this time Between the side wall of type structure, it ensure that the stability of the position of the rotor core 101, can effectively prevent in the shaft 101 penetrate the sideslip of 101 position of rotor core in the process.

Further, the V-structure is provided with stop bit part 12, Ye Jisuo far from 2 side of shaft pushing tow component It states stop bit part 12 and the terminal position for wearing axis direction is set, the one of the rotor core 101 can be forced in during wearing axis Side makes to wear axis process more smooth, it is to be understood that the effect of the stop bit part 12 is that the rotor core 101 is stopped to exist The displacement in axis direction is worn, the setting of stop bit part 12 should not stop the shaft 100 to be pierced by what the rotor core 101 had Movement after shaft hole.

The height of the fixing seat 11 is adjusted for convenience, it is preferable that the iron core fixation member 1 further includes lifters 13, the fixing seat 11 is connected to the top of the lifters 13, such as the lifters 13 can be stretched using relatively conventional Contracting cylinder or oil cylinder, certainly preferably with installation conveniently slider cylinder.

A kind of specific embodiment as the shaft pushing tow component 2, it is preferable that the shaft pushing tow component 2 includes Shaft placement platform 21, pushing tow driving assembly 22, the shaft placement platform 21 have the placing groove extended along pushing tow direction 23, the placing groove 23 for placing the shaft 100, the pushing tow driving assembly 22 can shaft 100 described in pushing tow along Pushing tow direction is mobile, and further, the pushing tow driving assembly 22 includes pushing tow cylinder 221, push block 222, the pushing tow Block 222 is connect with the piston rod that the pushing tow cylinder 221 has, and the pushing tow of the pushing tow cylinder 221 is utilized in the technical solution Power applies its axial displacement to the shaft 100, very smooth the shaft 100 efficiently can be penetrated the rotor iron In the shaft hole of core 101.

Certainly, the pushing tow driving assembly 22 can be arranged independently of the shaft placement platform 21, need to only guarantee Shaft 101 described in pushing tow generates the relative linear displacement of the shaft hole relative to the rotor core 101, as a kind of excellent The embodiment of choosing, the pushing tow driving assembly 22 have mounting portion, and the mounting portion and the shaft placement platform 21 slide On the one hand connection can guarantee the structural compactness of described device at this time, on the other hand be also convenient for the pushing tow driving part The control of 22 pushing tow track, specifically, for example described mounting portion can be designed as the structure with sliding slot, the shaft is placed The side of platform 21 is provided with the sliding guide rail 24 to match with the sliding slot, is achieved in above-mentioned be slidably connected.

In order to further increase the automated machine degree of the rotor shaft crossing device, it is preferable that the motor Rotor shaft crossing device further includes shaft transfer unit, and the shaft transfer unit includes chain type revolution conveyer belt 31, conveyer belt drive Dynamic component 32 mentions axis scraper plate 33, and the conveyer belt driving assembly 32 is drivingly connected with chain type revolution conveyer belt 31, with driving Chain type revolution conveyer belt 31 generates rotary motion around its centre of gyration, described to mention axis scraper plate 33 and chain type revolution is defeated Send the peripheral side of band 31 to connect, it is described mention axis scraper plate 33 and have propose axle construction, the shaft 100, which is placed in, described proposes axle construction In, the shaft transfer unit mentions axis scraper plate 33 described in and the shaft 100 conveying is placed in the placing groove 23.It can With understanding, the chain type revolution conveyer belt 31 is designed as cricoid enclosed construction, and the conveyer belt driving assembly 32 can To include motor, the output shaft of the motor and the driven roller that chain type revolution conveyer belt 31 has are coaxially connected, are similar to Common conveyer belt structure in the industry, such as the inside of chain type revolution conveyer belt 31 should be provided with corresponding carrying roller and guiding Roller is also provided with usual rate of tension adjustment structure to realize the rotary motion of the chain type revolution conveyer belt 31, due to These settings are more usual, do not repeating herein, but it is emphasized that the present invention turns round the outer of conveyer belt 31 in the chain type Side be arranged it is several mention axis scraper plate 33, be that institute is uncommon in the prior art.Specifically, the axle construction that mentions is configured with shaft Notch 332 is placed, the shaft 100 can be placed in the shaft and place in notch 332, turn round conveyer belt 31 in the chain type In turning course, the shaft is placed notch 332 and is had and will place the shaft 100 therein and be discharged into the placing groove 23 First position, and the shaft 100 therein will be placed along the second position that chain type revolution conveyer belt 31 is promoted.

In order to make the rotor wear axis process flow as far as possible, it is preferable that the rotor shaft crossing device It further include shaft accommodating part 4, the shaft accommodating part 4 has exit side, the exit side and the axis scraper plate 33 that mentions It is correspondingly arranged, the shaft accommodating part 4 mentions axis scraper plate 33 and be sloped downwardly along described in, so as to be placed in institute therein It states shaft 100 to roll under Gravitative Loads in the shaft placement notch 332, the shaft accommodating part 4 can be designed as one A body structure for having opening, the shaft accommodating part 4 being obliquely installed can once place more shafts 100, these shafts 100 will sequentially tumble under the action of self-weight into the shaft placement notch 332 for mentioning axis scraper plate 33, greatly improve dress The working efficiency set.

In terms of the charging of the rotor core 101, also in compliance with the principle of process flow, it is preferable that the motor turns Sub- shaft crossing device further include for by 101 guided placement of rotor core in the iron core feed well 5 of the V-structure.It is described The structural shape of iron core feed well 5 can be various, can theoretically guarantee that the rotor core 101 being capable of state in a vertical shape (vertical state refers to that the end face of the rotor core 101 is vertical with the groove bottom wall of the iron core feed well 5), and in order to Improve the size adaptability of the iron core feed well 5, it is preferable that the iron core feed well 5 includes the first charging being arranged symmetrically Side channel, the second charging side channel, the first charging side channel, the cross section of the second charging side channel are all L-shaped, first feed side Slot, second charging side channel can relative motion passed through in the technical solution with changing the width of rebate of the iron core feed well 5 The change of the width of rebate is realized to the different adaptability for folding thick rotor core 101, namely improves the iron core charging The versatility of slot 5.

A kind of specific embodiment as the width of rebate for adjusting the iron core feed well 5, it is preferable that the motor turns Sub- shaft crossing device further includes feed well width adjustment slide unit 53, and the first charging side channel, the second charging side channel are independently of one another It is slidably connected with the feed well width adjustment slide unit 53.

Further, the rotor shaft crossing device can also include iron core stop bit component 8, the iron core position-arresting part Part 8 is set to above the outlet of the iron core feed well 5, positions the rotor core 101 in the iron core feed well 5 for stopping, The iron core stop bit component 8 includes the first stop bit cylinder 81, and the piston rod extension end of the first stop bit cylinder 81 is equipped with first Stop block, when first stop block stretches out, the rotor core 101 in the iron core feed well 5 will be barred from the iron In core feed well 5, when first stop block retracts, the rotor core 101 will be fixed by the iron core is reentered certainly In component 1；As a kind of more preferably embodiment, the iron core stop bit component 8 further includes the second stop bit cylinder 82, and described second The piston rod extension end of stop bit cylinder 82 is equipped with the second stop block, when second stop block stretches out, the iron core feed well 5 In rotor core 101 will be barred from the iron core feed well 5, when second stop block retract when, the rotor iron The space that core 101 will carry out stop bit by the first stop bit cylinder 81 is reentered certainly.Pass through described first in the technical solution Stop bit cylinder 81, the second stop bit cylinder 82 carry out precedence to multiple rotor cores 101 in the iron core feed well 5 Control prevents multiple rotor cores 101 while rolling down to the generation of the situation in the iron core fixation member 1.

It after rotor wears axis, is preferably capable of being transferred to other positions in time, to prevent from making subsequent axis of wearing Industry has an adverse effect, it is preferable that the rotor shaft crossing device further includes rotor assembly blow tank 6, the rotor assembly Blow tank 6 has feed end 63, and the feed end 63 is undertaken in the V-structure, so that it is complete to wear axis in the V-structure Complete rotor assembly is able to enter in the rotor assembly blow tank 6.Further, the rotor assembly blow tank 6 includes pair Claim the first side bar 61, the second side bar 62 of setting, first side bar 61 and the second side bar 62 are parallel to each other, the rotor assembly Blow tank 6 tilts upwards along the side towards the V-structure.Further, the iron core fixation member 1 can be described Space lifting between first side bar 61, the second side bar 62.At this point, wearing the rotor assembly that axis finishes will roll under the action of self-weight Enter in the rotor assembly blow tank 6, since the width direction of rotor assembly is the shaft 100 lengthening, at this time shaft 100 Both ends will be set up in first side bar 61, on the second side bar 62, it is to be understood that first side bar 61, the second side The distance between beam 62 is preferably capable of the width greater than the rotor core 101.

The rotor assembly is deviate from from the rotor assembly blow tank 6 in order to prevent, it is preferable that first side bar 61 One end far from the V-structure has the first position-arresting part 611, and second side bar 62 has far from one end of the V-structure There is the second position-arresting part 621, first position-arresting part 611, the second position-arresting part 621 will contradict the shaft on the rotor assembly 100, To prevent the rotor assembly from continuing rolling.

Design principle such as the iron core feed well 5 is similar, and first side bar 61 and the second side bar 62 being capable of opposite fortune Dynamic, to change the width of rebate of the rotor assembly blow tank 6, further, the rotor shaft crossing device further includes Hopper width adjustment slide unit 64, first side bar 61 and the second side bar 62 are sliding with the blow tank width adjustment independently of one another Platform 64 is slidably connected.It is noted that the blow tank width adjustment slide unit 64 can be designed as one group, have and institute thereon The first side bar 61, the corresponding sliding block of the second side bar 62 are stated, a set of guide rail is shared；It can also be independent of each other using two sets The blow tank width adjustment slide unit 64 is corresponding with first side bar 61, the second side bar 62 respectively, and such mode is more flexible, Certainly described be slidably connected can also be using more simplified pattern, as carried out position compensation using waist-shaped hole common in the industry Mode.

In order to wear the operation of axis convenient for rotor, it is preferable that the rotor shaft crossing device further includes installation rack 7, for being supported to the iron core fixation member 1, shaft pushing tow component 2, the height of the installation rack 7 is preferably capable of Adjustment, certainly, it is preferably additionally provided with idler wheel, to facilitate the position of described device mobile.

Those skilled in the art will readily recognize that above-mentioned each advantageous manner can be free under the premise of not conflicting Ground combination, superposition.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.Above only It is the preferred embodiment of the present invention, it is noted that for those skilled in the art, do not departing from this hair Under the premise of bright technical principle, several improvements and modifications can also be made, these improvements and modifications also should be regarded as guarantor of the invention Protect range.

Claims (23)

1. a kind of rotor shaft crossing device, which is characterized in that including iron core fixation member (1), shaft pushing tow component (2), institute It states shaft pushing tow component (2) and is in shaft therein (100) for pushing tow, the iron core fixation member (1) is used for rotor iron Core (101) is fixed, and the iron core fixation member (1) is on the pushing tow direction of the shaft pushing tow component (2), when described When shaft (100) described in shaft pushing tow component (2) pushing tow, the shaft (100) can be threaded onto the rotor core (101) tool In some shaft holes.

2. shaft crossing device according to claim 1, which is characterized in that the iron core fixation member (1) includes fixing seat (11), section of the fixing seat (11) on the plane perpendicular to pushing tow direction is at V-structure, the rotor core (101) It is placed in the V-structure.

3. shaft crossing device according to claim 2, which is characterized in that the V-structure is far from the shaft pushing tow component (2) side is provided with stop bit part (12).

4. shaft crossing device according to claim 2, which is characterized in that the iron core fixation member (1) further includes lifters (13), the fixing seat (11) is connected to the top of the lifters (13).

5. shaft crossing device according to claim 1, which is characterized in that the shaft pushing tow component (2) includes that shaft is placed Platform (21), pushing tow driving assembly (22), the shaft placement platform (21) have the placing groove extended along pushing tow direction (23), the placing groove (23) is for placing the shaft (100), and the pushing tow driving assembly (22) being capable of shaft described in pushing tow (100) it is moved along pushing tow direction.

6. shaft crossing device according to claim 5, which is characterized in that the pushing tow driving assembly (22) includes pushing tow cylinder (221), push block (222), the push block (222) connect with the piston rod that the pushing tow cylinder (221) has.

7. shaft crossing device according to claim 5, which is characterized in that the pushing tow driving assembly (22) has mounting portion, The mounting portion is slidably connected with the shaft placement platform (21).

8. shaft crossing device according to claim 5, which is characterized in that it further include shaft transfer unit, the shaft conveying Component includes chain type revolution conveyer belt (31), conveyer belt driving assembly (32), mentions axis scraper plate (33), the conveyer belt driving assembly (32) it is drivingly connected with chain type revolution conveyer belt (31), to drive chain type revolution conveyer belt (31) in its revolution The heart generates rotary motion, and the axis scraper plate (33) that mentions is connect with the peripheral side of chain type revolution conveyer belt (31), described to mention axis Scraper plate (33), which has, proposes axle construction, the shaft (100) be placed in it is described mention in axle construction, the shaft transfer unit passes through institute State mention axis scraper plate (33) by the shaft (100) conveying be placed in the placing groove (23).

9. shaft crossing device according to claim 8, which is characterized in that the conveyer belt driving assembly (32) includes motor, The output shaft of the motor and the driven roller that chain type revolution conveyer belt (31) has are coaxially connected.

10. shaft crossing device according to claim 8, which is characterized in that the axle construction that mentions is configured with shaft placement notch (332), the shaft (100) can be placed in the shaft and place in notch (332), turn round conveyer belt (31) in the chain type In turning course, the shaft is placed notch (332) and is had and will place the shaft (100) therein and be discharged into the placing groove (23) first position in, and will place what the shaft (100) therein was promoted along chain type revolution conveyer belt (31) The second position.

11. shaft crossing device according to claim 10, which is characterized in that further include shaft accommodating part (4), the shaft Accommodating part (4) has exit side, and the exit side proposes being correspondingly arranged for axis scraper plate (33), the shaft accommodating part with described (4) edge mentions axis scraper plate (33) one described in and is sloped downwardly, so as to be placed in the shaft (100) therein in Gravitative Loads Under roll into the shaft and place in notch (332).

12. shaft crossing device according to claim 2, which is characterized in that further include for drawing the rotor core (101) Lead the iron core feed well (5) for being placed in the V-structure.

13. shaft crossing device according to claim 12, which is characterized in that the iron core feed well (5) includes being arranged symmetrically First charging side channel, second charging side channel, it is described first charging side channel, second charging side channel cross section it is all L-shaped, it is described First charging side channel, second charging side channel can relative motion, to change the width of rebate of the iron core feed well (5).

14. shaft crossing device according to claim 13, which is characterized in that it further include feed well width adjustment slide unit (53), The first charging side channel, the second charging side channel are slidably connected with the feed well width adjustment slide unit (53) independently of one another.

15. shaft crossing device according to claim 12, which is characterized in that further include iron core stop bit component (8), the iron core Stop bit component (8) is set to above the outlet of the iron core feed well (5), is positioned in the iron core feed well (5) for stopping Rotor core (101).

16. shaft crossing device according to claim 12, which is characterized in that the iron core stop bit component (8) is stopped including first The piston rod extension end of position cylinder (81), the first stop bit cylinder (81) is equipped with the first stop block, when first stop block When stretching, the rotor core (101) in the iron core feed well (5) will be barred from the iron core feed well (5), when described When first stop block retracts, the rotor core (101) will rely on and reenter in the iron core fixation member (1) certainly.

17. shaft crossing device according to claim 16, which is characterized in that the iron core stop bit component (8) further includes second The piston rod extension end of stop bit cylinder (82), the second stop bit cylinder (82) is equipped with the second stop block, when second stop bit When block stretches out, the rotor core (101) in the iron core feed well (5) will be barred from the iron core feed well (5), work as institute When stating the retraction of the second stop block, the rotor core (101) will stop by the first stop bit cylinder (81) is reentered certainly The space of position.

18. shaft crossing device according to claim 2, which is characterized in that it further include rotor assembly blow tank (6), described turn Sub- assembly blow tank (6) has feed end (63), and the feed end (63) is undertaken in the V-structure, so as to be in the V-type The rotor assembly that axis finishes is worn in structure to be able to enter in the rotor assembly blow tank (6).

19. shaft crossing device according to claim 18, which is characterized in that the rotor assembly blow tank (6) includes symmetrical The first side bar (61), the second side bar (62) being arranged, first side bar (61) and the second side bar (62) are parallel to each other, and described turn Sub- assembly blow tank (6) edge tilts upwards towards the side of the V-structure.

20. shaft crossing device according to claim 19, which is characterized in that first side bar (61) is far from the V-type knot One end of structure has the first position-arresting part (611), and second side bar (62) has the second stop bit far from one end of the V-structure Portion (621).

21. shaft crossing device according to claim 19, which is characterized in that first side bar (61) and the second side bar (62) Can relative motion, to change the width of rebate of the rotor assembly blow tank (6).

22. shaft crossing device according to claim 21, which is characterized in that it further include blow tank width adjustment slide unit (64), First side bar (61) is slidably connected with the blow tank width adjustment slide unit (64) independently of one another with the second side bar (62).

23. shaft crossing device according to claim 1, which is characterized in that further include installation rack (7), for the iron Core fixation member (1), shaft pushing tow component (2) are supported.