CN218704635U - Packaging structure for internal rotation of rotor plant - Google Patents

Abstract

The utility model relates to a packaging structure is used in internal transfer of rotor factory, its structure includes from last to the die-casting lid of lock joint in proper order down, honeycomb bounding wall and die-casting end tray, and it has four layers EPP frameworks to build each other on the inboard die-casting end tray top surface of honeycomb bounding wall and put the grafting, EPP framework top surface shape and bottom surface shape cooperation, is equipped with two rows of every three standing grooves of arranging in every EPP framework, and every standing groove interpolation is equipped with a rotor plastic uptake inside lining, places a rotor in every rotor plastic uptake inside lining. The utility model has the advantages that: structural design is reasonable, through set up not removable rotor plastic uptake inside lining in the EPP framework, but depositing of the multiple model rotor of adaptation improves the suitability, security when the turnover in the factory can be guaranteed to parcel nature box structure, and 24 rotors can be deposited to a box, have improved turnover efficiency, can reduce practical cost.

Description

Packaging structure for internal rotation of rotor plant

Technical Field

The utility model relates to a packaging structure is used in internal transfer of rotor factory.

Background

The motor rotor temporarily stores and transfers in the factory, and when waiting for the equipment on next step, needs effectively fix the rotor to guarantee packing and transferring safety.

The internal rotation packaging structure in a rotor plant in the prior art is generally suitable for transportation of rotors of one type, has poor applicability and higher cost for storing rotors of different types; still there is single assurance structure to hold the rotor volume few, the not enough scheduling problem of security, can't effectively satisfy the production needs.

CN214650056U is a modular device for the turnover and storage of rotor assemblies of electric machines, which can accommodate a large number of rotors, but its open structure has insufficient safety, and can only be applied to one type of rotor, and there is a risk of falling for the turnover in a long distance plant.

SUMMERY OF THE UTILITY MODEL

The utility model provides a packaging structure is used in internal transfer of rotor factory, its purpose aims at overcoming the above-mentioned not enough that prior art exists, under the prerequisite of guaranteeing the turnover security, improves the suitability to improve single assurance and hold rotor quantity.

The technical solution of the utility model is as follows: the utility model provides a packaging structure is used in internal transfer of rotor factory, its structure includes from last to the die-casting lid of lock joint in proper order down, the tray at the bottom of honeycomb bounding wall and die-casting, it has four layers of EPP frameworks to build each other on the tray top surface at the bottom of the inboard die-casting of honeycomb bounding wall to put the grafting, EPP framework top surface shape and bottom surface shape cooperation, be equipped with two rows of every three standing grooves of arranging in every EPP framework, every standing groove interpolation is equipped with a rotor plastic uptake inside lining, place a rotor in every rotor plastic uptake inside lining.

Preferably, in order to conveniently lift the die-casting cover and facilitate stacking among the plurality of box bodies, the top of the die-casting cover is provided with a handle and three rows of three grooves in each row, and the bottom surface of the die-casting bottom tray is provided with bulges matched with the grooves in number and shape.

Preferably, in order to facilitate separation of the stacked EPP frame, a handle groove is formed in the center of the bottom edge of the side surface of the EPP frame.

Preferably, for the convenience of clamping and placing the rotor by the robot, the outer sides of the adjacent placing grooves and the placing grooves at two ends of each row on the EPP frame body are provided with passageways.

Preferably, in order to prevent the rotor from rotating and ensure the structural stability, the inner bottom of the rotor plastic suction lining is provided with a silica gel pad.

Preferably, in order to prevent the rotor from jumping and further prevent the rotor from rotating, the bottom surface of the EPP frame 2 is provided with a boss corresponding to each placing groove, and a silica gel block is arranged on the boss.

Preferably, in order to facilitate the robot to suck the whole EPP frame body transfer position, the middle part of the top surface of the EPP frame body 2 is provided with a robot sucking block.

Preferably, in order to ensure the dryness in the box body, a drying agent groove is arranged on the top surface of the EPP frame body at the bottom of each passageway.

The utility model has the advantages that: structural design is reasonable, through set up not removable rotor plastic uptake inside lining in the EPP framework, but depositing of the multiple model rotor of adaptation improves the suitability, security when the turnover in the factory can be guaranteed to parcel nature box structure, and 24 rotors can be deposited to a box, have improved turnover efficiency, can reduce practical cost.

Drawings

Fig. 1 is an explosion structure diagram of the packing structure for internal rotation in the rotor plant of the present invention.

Fig. 2 is a schematic structural view of the EPP frame of fig. 1.

Fig. 3 is another angle structure diagram of fig. 2.

Fig. 4 is a top view of fig. 2.

Fig. 5 is a schematic view of the structure of the blister liner of fig. 2.

In the figure, 1 is a die-cast cover, 11 is a groove, 12 is a handle, 2 is an EPP frame body, 21 is a handle groove, 22 is a placing groove, 23 is a passage, 24 is a rotor plastic lining, 241 is a silica gel pad, 25 is a boss, 26 is a silica gel block, 27 is a robot sucking block, 28 is a drying agent groove, 3 is a honeycomb coaming, 4 is a die-cast bottom tray, and 41 is a bulge.

Detailed Description

The present invention will be described in further detail with reference to examples and specific embodiments.

As shown in fig. 1-5, a packaging structure for internal rotation in a rotor factory comprises a die-casting cover 1, a honeycomb coaming 3 and a die-casting bottom tray 4 which are fastened in sequence from top to bottom, wherein four layers of EPP frames 2 are mutually stacked and inserted on the top surface of the die-casting bottom tray 4 on the inner side of the honeycomb coaming 3, the top surface shape of the EPP frame 2 is matched with the bottom surface shape, two rows of three placing grooves 22 are arranged in each EPP frame 2, a rotor blister lining 24 is inserted in each placing groove 22, and a rotor is placed in each rotor blister lining 24.

The top of the die-casting cover 1 is provided with a handle 12 which is convenient for lifting the die-casting cover 1, three rows of three grooves 11 are also arranged, and the bottom surface of the die-casting bottom tray 4 is provided with protrusions 41 matched with the grooves 11 in number and shape. Can be convenient for stacking among a plurality of box bodies.

The EPP frame body 2 is provided with a handle groove 21 at the bottom edge center of the side surface. The EPP frame body 2 is convenient to separate and stack.

The outer sides of the adjacent placing grooves 22 in each row and the placing grooves 22 at two ends on the EPP frame body 2 are provided with a passage 23. The robot can conveniently clamp and place the rotor.

The bottom of the inner side of the rotor plastic suction lining 24 is provided with a silica gel pad 241. The rotor can be prevented from rotating, and the structural stability is ensured.

The bottom surface of the EPP frame body 2 is respectively provided with a boss 25 corresponding to each placing groove 22, so that the rotor can be prevented from jumping, and the bosses 25 are provided with silica gel blocks 26, so that the rotor can be further prevented from rotating.

The middle part of the top surface of the EPP frame body 2 is provided with a robot suction block 27. The robot can conveniently absorb the whole EPP frame body 2 to transfer the position.

A desiccant reservoir 28 is provided on the top surface of the EPP frame 2 at the bottom of each aisle 23. Used for storing drying agents and ensuring the dryness in the box body.

According to the structure, when in use, one layer of EPP frame body 2 is placed on the die-casting bottom tray 4, the corresponding rotor plastic-absorbing lining 24 is inserted into each placing groove 22 according to a rotor signal, then the rotor is placed in the rotor plastic-absorbing lining 24, the drying agent is placed in the drying agent groove 28, then the second layer of EPP frame body 2 is stacked on the top, the above actions are repeated until the fourth layer of EPP frame body 2 is fully placed with the rotor, then the honeycomb coaming 3 is placed on the periphery, and the die-casting bottom tray 4 is covered.

All the above components are prior art, and those skilled in the art can use any model and existing design that can implement their corresponding functions.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a packaging structure is used in internal transfer of rotor factory, a serial communication port, include from last die-casting lid (1) to lock joint in proper order down, tray (4) at the bottom of honeycomb bounding wall (3) and die-casting, it has four layers EPP framework (2) to build each other on tray (4) top surface at the bottom of honeycomb bounding wall (3) inboard die-casting, EPP framework (2) top surface shape and bottom surface shape cooperation, be equipped with two rows of three standing groove (22) of every row in every EPP framework (2), every standing groove (22) interpolation is equipped with a rotor plastic uptake inside lining (24), place a rotor in every rotor plastic uptake inside lining (24).

2. The internal rotation packaging structure of a rotor factory as claimed in claim 1, wherein the top of the die-cast cover (1) is provided with a handle (12) and three rows of three grooves (11), and the bottom surface of the die-cast bottom tray (4) is provided with protrusions (41) which are matched with the grooves (11) in number and shape.

3. The inner periphery turning packing structure of a rotor factory according to claim 1, wherein the EPP frame (2) is provided with a handle groove (21) at the center of the bottom edge of the side surface.

4. The internal rotation packaging structure of a rotor plant as claimed in claim 1, wherein the EPP frame body (2) is provided with passageways (23) at the outer sides of each row of adjacent placing grooves (22) and the placing grooves (22) at the two ends.

5. The internal rotation packaging structure of the rotor factory as claimed in claim 1, wherein the bottom of the inner side of the rotor blister lining (24) is provided with a silica gel pad (241).

6. The internal rotation packaging structure of a rotor plant according to claim 1, wherein the bottom surface of the EPP frame (2) is provided with a boss (25) corresponding to each placement groove (22), and the boss (25) is provided with a silica gel block (26).

7. The internal rotation packaging structure of a rotor factory according to claim 1, wherein the EPP frame body (2) is provided with a robot sucking block (27) at the middle of the top surface.

8. The internal rotation packaging structure of the rotor plant as claimed in claim 4, wherein the EPP frame (2) at the bottom of each passageway (23) is provided with a desiccant groove (28) on the top surface.

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