CN206814263U - A kind of handling apparatus of servo-electric motor hollow shafting rotor - Google Patents

Abstract

The utility model discloses a kind of handling apparatus of servo-electric motor hollow shafting rotor, including pull bar for the hollow bulb through hollow shaft, the first baffle and second baffle, locking nut that can be enclosed on the pull bar；One end of the pull bar is provided with suspension ring, and the first baffle is arranged on the inner side of the fixing end of the suspension ring；The other end of the pull bar coordinates with the locking nut screw thread, and the second baffle is arranged on the inner side of the locking nut；The first baffle is used to abut with the side shaft end of the hollow shaft, and the second baffle is used to abut with the opposite side shaft end of the hollow shaft.Above-mentioned handling apparatus, handling is reliable and stable, easy to operate, avoids the potential safety hazard that hollow shaft comes off, while improve operability.

Description

A kind of handling apparatus of servo-electric motor hollow shafting rotor

Technical field

It the utility model is related to hoisting tooling technical field, more particularly to a kind of handling apparatus of servo-electric motor hollow shafting rotor.

Background technology

The handling of the rotating shaft of rotor mainly has following two modes at present：A kind of be designed with the end face of rotating shaft Screwed hole, coordinated by the screw with suspension ring and screwed hole and realize that handling, turn etc. operate, so as to complete the life of whole rotor Production；Another kind be rotating shaft it is cylindrical on be designed with screw thread, by making special screw thread suspender, realize the handling of rotating shaft.

But above two mode is not particularly suited for the handling of hollow shaft, because the reason for hollow shaft design structure, cause sky The wall thickness of mandrel is too thin, can not process the screwed hole of suitable rotor weight, therefore can not install lifting bolt in rotating shaft end face and enter Row handling；The gear that the rotating shaft surface of this hollow outer shaft is not also adapted to is used for processing screw thread, can not install spiral shell on rotating shaft surface Line suspender carries out handling.And servo-electric motor hollow shafting rotor needs the operation by processes such as hot jacket, turn, dipping lacquers in process of production, Currently used method is to be strangled to carry out handling on rotating shaft surface with lifting rope, but rotating shaft easily comes off and injured by a crashing object during this method handling Worker, very big potential safety hazard be present, and operability is also very poor；This outer shaft can not also hang and hang, and p-m rotor is then Vacuum pressure impregnation can not be realized, greatly limits the normal production of servo-electric motor hollow shafting rotor.

In summary, how to solve the problems, such as that servo-electric motor hollow shafting rotor handling has potential safety hazard and poor operability, it has also become Those skilled in the art's technical barrier urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of handling apparatus of servo-electric motor hollow shafting rotor, to avoid servo-electric motor hollow shafting rotor handling The problem of presence potential safety hazard in journey, while improve operability.

To achieve these goals, the utility model provides a kind of handling apparatus of servo-electric motor hollow shafting rotor, including for passing through Wear pull bar, the first baffle that can be enclosed on the pull bar and second baffle, the locking nut of the hollow bulb of hollow shaft；

One end of the pull bar is provided with suspension ring, and the first baffle is arranged on the inner side of the fixing end of the suspension ring； The other end of the pull bar coordinates with the locking nut screw thread, and the second baffle is arranged on the interior of the locking nut Side；The first baffle is used to abut with the side shaft end of the hollow shaft, and the second baffle is used for and the hollow shaft Opposite side shaft end abuts.

Preferably, boss is provided with the first baffle and the second baffle, the boss is used for described in insertion The hollow bulb of hollow shaft and with the hollow bulb gap coordinate.

Preferably, groove is provided with the first baffle and the second baffle, the groove is used for and the sky The outer rim gap of the shaft end of mandrel coordinates.

Preferably, it is provided with the first baffle and the second baffle for connecting with the hollow bulb of the hollow shaft Logical through hole.

Preferably, the suspension ring and the first baffle are integral type structure.

Preferably, the suspension ring and the pull bar are integral type structure.

Preferably, the first baffle and the pull bar are integral type structure.

Preferably, the suspension ring, the pull bar and the first baffle are integral type structure.

Preferably, the second baffle and the locking nut are integral type structure.

Content is introduced compared to background technology, the handling apparatus of above-mentioned servo-electric motor hollow shafting rotor, when in use, suspension ring and first gear When plate and pull bar are split-type structural, suspension ring and first baffle are arranged on pull bar first, when suspension ring, first baffle and pull bar For integral type structure when, also omit above-mentioned steps, pull bar directly penetrated to the hollow bulb of hollow shaft, is inserted in second baffle, is passed through Turn locking nut makes second baffle be moved to first baffle, hollow between first baffle and second baffle to clamp Axle, then by suspension ring handling hollow shaft, handling is reliable and stable, easy to operate, avoids the potential safety hazard that hollow shaft comes off, together When improve operability.

Brief description of the drawings

Fig. 1 is the structural representation of the handling apparatus for the servo-electric motor hollow shafting rotor that the utility model embodiment provides.

In figure 1 above,

Hollow shaft 1, pull bar 2, first baffle 3, second baffle 4, locking nut 5, suspension ring 6, through hole 7.

Embodiment

Core of the present utility model is to provide a kind of handling apparatus of servo-electric motor hollow shafting rotor, to avoid servo-electric motor hollow shafting rotor handling The problem of presence potential safety hazard in journey, while improve operability.

In order that those skilled in the art more fully understands technical scheme provided by the utility model, below in conjunction with attached The utility model is described in further detail with specific embodiment for figure.

As shown in figure 1, the handling apparatus for the servo-electric motor hollow shafting rotor that the utility model embodiment provides, including for through hollow The pull bar 2 of the hollow bulb of axle 1, the first baffle 3 that can be enclosed on pull bar 2 and second baffle 4 (concrete structure be first baffle and Be provided with the middle part of second baffle and be inserted in hole, pull bar can penetrate this and be inserted in hole), locking nut 5；One end of pull bar 2 is set There are suspension ring 6, and first baffle 3 is arranged on the inner side of the fixing end of suspension ring 6；The other end of pull bar 2 is matched somebody with somebody with the screw thread of locking nut 5 Close, and second baffle 4 is arranged on the inner side of locking nut 5；First baffle 3 is used to abut with the side shaft end of hollow shaft 1, and second Baffle plate 4 is used to abut with the opposite side shaft end of hollow shaft 1.

Content is introduced compared to background technology, the handling apparatus of above-mentioned servo-electric motor hollow shafting rotor, when in use, suspension ring and first gear When plate and pull bar are split-type structural, suspension ring and first baffle are arranged on pull bar first, when suspension ring, first baffle and pull bar For integral type structure when, above-mentioned steps can be omitted, pull bar is directly penetrated to the hollow bulb of hollow shaft, is inserted in second baffle, is passed through Turn locking nut makes second baffle be moved to first baffle, hollow between first baffle and second baffle to clamp Axle, then by suspension ring handling hollow shaft, handling is reliable and stable, easy to operate, avoids the potential safety hazard that hollow shaft comes off, together When improve operability.

In some specific embodiments, boss is provided with above-mentioned first baffle 3 and second baffle 4, boss is used Coordinate in the hollow bulb for being embedded in hollow shaft 1 and with hollow bulb gap.By setting boss to coordinate with hollow bulb gap, drawing is avoided The phenomenon that bar rocks in the hollow bulb of hollow shaft, further ensure the stability and reliability of handling.

Groove is provided with first baffle 3 and second baffle 4 of course, it should be understood that can also be, groove is used for Coordinate with the outer rim gap of the shaft end of hollow shaft 1, said structure can be also realized the problem of preventing hollow shaft from rocking.In addition it is above-mentioned The structure of boss or groove is set to be only the preferable examples of the utility model embodiment or be not provided with boss or groove Structure, only the utility model embodiment is preferably using the structure of above-mentioned setting boss or groove.

In some more particular embodiments, it can also be provided with and be used on above-mentioned first baffle 3 and second baffle 4 The through hole 7 connected with the hollow bulb of hollow shaft 1.After setting above-mentioned through hole 7 to facilitate hollow shaft dipping lacquer, in hollow part Paint solution is smoothly discharged.It is appreciated of course that above-mentioned through hole is only one kind that the utility model embodiment is discharged for paint solution Citing, it can also be and be respectively provided with open slot on first baffle and second baffle, the open slot connects with the hollow part of hollow shaft, from And realize the discharge of paint solution after dipping lacquer.

Need exist for explanation, above-mentioned suspension ring 6 and first baffle 3 can be integral type structure or split type Structure；It can also be that suspension ring 6 and pull bar 2 are integral type structure；Also either first baffle 3 and pull bar 2 are integral type structure；Again Either suspension ring 6, pull bar 2 and first baffle 3 is integral type structure.By by least 2 in suspension ring 6, pull bar 2 and first baffle 3 The individual built-up time for being designed to integral structure and can saving handling apparatus, it is of course possible to which understanding is above-mentioned suspension ring 6, pull bar 2 It is designed to that integral structure is only the citing or three of the utility model embodiment with least two in first baffle 3 Using split-type structural, such as, suspension ring are connected by the end of screw thread and pull bar, and first baffle is inserted in pull bar and suspension ring Fixing end offsets.It is further to note that the structure of above-mentioned integral type can be that integral type knot is formed by way of welding Structure or the integral structure obtained by way of cutting.

In addition, above-mentioned second baffle 4 and locking nut 5 can also be integral type structure.By setting into a single integrated structure energy Enough built-up times for reducing handling apparatus significantly, further increase operating efficiency, and above-mentioned integral structure can be logical The mode for crossing welding is obtained or obtained by the processing mode of cutting.It is appreciated of course that above-mentioned integral type knot The citing that structure is only the utility model embodiment can also be second baffle 4 and locking nut 5 is split-type structural, only The utility model embodiment preferably uses above-mentioned integral structure.

The handling apparatus of servo-electric motor hollow shafting rotor provided by the utility model is described in detail above.Need what is illustrated That each embodiment in this specification is described by the way of progressive, what each embodiment stressed be and other The difference of embodiment, between each embodiment identical similar part mutually referring to.

It should also be noted that, herein, such as first and second or the like relational terms are used merely to one Entity or operation make a distinction with another entity or operation, and not necessarily require or imply between these entities or operation Any this actual relation or order be present.Moreover, term " comprising ", "comprising" or its any other variant are intended to contain Lid nonexcludability includes, so that article or equipment including a series of elements not only include those key elements, but also Including the other element being not expressly set out, or also include for this article or the intrinsic key element of equipment.Do not having In the case of more limitations, the key element that is limited by sentence "including a ...", it is not excluded that including the article of above-mentioned key element Or other identical element in equipment also be present.

Specific case used herein is set forth to principle of the present utility model and embodiment, above example Explanation be only intended to help and understand core concept of the present utility model.It should be pointed out that the ordinary skill for the art For personnel, on the premise of the utility model principle is not departed from, some improvement and modification can also be carried out to the utility model, These are improved and modification is also fallen into the protection domain of the utility model claims.

Claims (9)

1. a kind of handling apparatus of servo-electric motor hollow shafting rotor, it is characterised in that including the pull bar for the hollow bulb through hollow shaft (1) (2) first baffle (3) and second baffle (4), the locking nut (5) that, can be enclosed on the pull bar (2)；

One end of the pull bar (2) is provided with suspension ring (6), and the first baffle (3) is arranged on the fixing end of the suspension ring (6) Inner side；The other end of the pull bar (2) coordinates with the locking nut (5) screw thread, and the second baffle (4) is arranged on institute State the inner side of locking nut (5)；The first baffle (3) is used to abut with the side shaft end of the hollow shaft (1), and described second Baffle plate (4) is used to abut with the opposite side shaft end of the hollow shaft (1).

2. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the first baffle (3) and described Be provided with boss on second baffle (4), the boss be used for the hollow bulb for being embedded in the hollow shaft (1) and with the hollow bulb Gap coordinates.

3. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the first baffle (3) and described Groove is provided with second baffle (4), the groove is used to coordinate with the outer rim gap of the shaft end of the hollow shaft (1).

4. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the first baffle (3) and described The through hole (7) for being connected with the hollow bulb of the hollow shaft (1) is provided with second baffle (4).

5. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the suspension ring (6) and described first Baffle plate (3) is integral type structure.

6. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the suspension ring (6) and the pull bar (2) it is integral type structure.

7. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the first baffle (3) with it is described Pull bar (2) is integral type structure.

8. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the suspension ring (6), the pull bar (2) and the first baffle (3) is integral type structure.

9. the handling apparatus of servo-electric motor hollow shafting rotor as claimed in claim 1, it is characterised in that the second baffle (4) with it is described Locking nut (5) is integral type structure.