CN105014453A - Deformation preventing energy storage flywheel machining tool - Google Patents

Abstract

The invention discloses a deformation preventing energy storage flywheel machining tool. The tool comprises a cylindrical shell, wherein multiple sucking blocks for preventing the shell from being deformed in machining are uniformly distributed on the outer wall of the shell; the sucking blocks are tightly sucked with the outer wall of the shell when the shell is in a free state; and the positions of the sucking blocks are fixed through fixed parts in the machining process. The strength of the shell can be improved through setting the sucking blocks on the outer wall of the shell to prevent the inner wall of the shell from being deformed due to stress in machining; and the sucking blocks are used for fixing reinforcement, so that the outward expansion of the shell can be limited, and the inward shrinkage of the shell can be prevented to achieve an excellent deformation preventing effect.

Description

A kind of anti-deformation accumulated energy flywheel processing tool

Technical field

The present invention relates to a kind of anti-deformation accumulated energy flywheel processing tool.

Background technology

Energy storage device of magnetic suspension flywheel, be also called magnetic suspending flying wheel battery, utilize high-speed rotary rotatably flywheel storage power, it with its high-specific-power, high-energy-density, charging is fast, the life-span is long and be just subject to the attention of all trades and professions without features such as chemical contaminations, oneself is for dual-use industries such as automobile, train, space flight, aviations abroad.The magnetically levitated flywheel energy storage cause of China is also in development fast; in the process of energy storage device of magnetic suspension flywheel assembling; need to carry out machining to the shell body of accumulated energy flywheel; shell body is except protecting flywheel and electric machine assembly; also need to play sealing function; so that form hollow in housing, comparatively friction resistance, improves the utilization ratio of the energy.Usually arrange fabrication hole at housing exterior walls in existing housing machining to position and fix; such design is unfavorable for integrality and the air-tightness of shell body; simultaneously in machining; usually can cause shell body stress deformation during the processing of processing component external housing exterior walls, especially in order to reduce weight select thinner shell body time.Prior art is badly in need of a kind of anti-deformation accumulated energy flywheel processing tool avoiding being out of shape.

Summary of the invention

The object of the invention is to overcome the defect existed in prior art, a kind of anti-deformation accumulated energy flywheel processing tool avoiding being out of shape is provided.

For achieving the above object, technical scheme of the present invention there is provided a kind of anti-deformation accumulated energy flywheel processing tool, comprise the shell body of tubular, described shell body outer wall is evenly equipped with multiple suction block preventing shell body to be out of shape in machining, described suction block under shell body is free state with shell body outer wall adsorbed close; Described suction block is fixed by fixed part holding position in mechanical processing process.By on wall outside body skin, the intensity that suction block can improve shell body is set, prevent shell body inwall stressed and be out of shape in machining, use suction block to be fixed reinforcement can expand outwardly by limit shell body, can prevent again shell body from inwardly shrinking, serve and well prevent metamorphosis.

As preferably, the absorption end of described suction block is provided with the arc adsorption plane coordinated with shell body outer wall.Such design makes suction block coordinate closely with shell body.

As preferably, described suction block is electromagnetic absorbing block.Such design makes easy and simple to handle.

As preferably, described suction block is mechanical type magnet base, and described mechanical type magnet base comprises outside soft magnetic materials shell and the permanent magnetic magnet in soft magnetic materials shell that is rotatably connected, and described permanent magnetic magnet rotates outer rim and is provided with a pair brass magnetic isolation plate.Such design makes the absorption between suction block and shell body and release change freely.

As preferably, perpendicular the putting of described shell body is fixed on base, and described base is provided with the column for connecting suction block, and described fixed part is column.Such design makes suction block fix position in shell body machining, ensures that shell body is indeformable.

As preferably, described column is uniform around shell body, and described suction block is arranged on column uniformly.Such design makes the absorption strength of suction block to shell body be evenly distributed.

As preferably, described column is slidably connected on base, and described base is provided with the chute be slidably connected with column, and described chute is arranged along the radial direction of shell body.Such design is convenient to adjust the position of suction block, and suction block is coordinated closely with external hull surface.

As preferably, described column is connected with slide, and described column is provided with the attaching parts of detachably fixing with chute optional position.Such design is convenient to be fixed by column after Contact-sorption between suction block and shell body, is convenient to remove after end of operation, also can adapt to the processing not stopping diameter shell body simultaneously, improves the scope of application of equipment.

As preferably, described shell body inside is provided with machined components.Machining is convenient in such design.

As preferably, described machined components is milling parts and/or punching unit.Machining is convenient in such design.

Advantage of the present invention and beneficial effect are: arrange by wall outside body skin the intensity that suction block can improve shell body, prevent shell body inwall stressed and be out of shape in machining, use suction block to be fixed reinforcement can expand outwardly by limit shell body, can prevent again shell body from inwardly shrinking, serve and well prevent metamorphosis.

Accompanying drawing explanation

Fig. 1 is structure schematic top plan view of the present invention;

Fig. 2 is structure side pseudosection of the present invention;

Fig. 3 is suction block adsorption structure schematic diagram of the present invention;

Fig. 4 is suction block releasing structure schematic diagram of the present invention.

In figure: 1, shell body; 2, suction block; 3, arc adsorption plane; 4, soft magnetic materials shell; 5, permanent magnetic magnet; 6, brass magnetic isolation plate; 7, base; 8, column; 9, chute; 10, processing component.

Detailed description of the invention

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is further described.Following examples only for technical scheme of the present invention is clearly described, and can not limit the scope of the invention with this.

As Figure 1-Figure 4, a kind of anti-deformation accumulated energy flywheel processing tool, comprise the shell body 1 of tubular, described shell body 1 outer wall be evenly equipped with multiple suction block 2 preventing shell body 1 to be out of shape in machining, described suction block 2 under shell body 1 is in free state with shell body 1 outer wall adsorbed close; Described suction block 2 is fixed by fixed part holding position in mechanical processing process.

The absorption end of described suction block 2 is provided with the arc adsorption plane 3 coordinated with shell body 1 outer wall.

Described suction block 2 is electromagnetic absorbing block 2.

Described suction block 2 is mechanical type magnet base, and described mechanical type magnet base comprises outside soft magnetic materials shell 4 and the permanent magnetic magnet 5 in soft magnetic materials shell 4 that is rotatably connected, and described permanent magnetic magnet 5 rotates outer rim and is provided with a pair brass magnetic isolation plate 6.

As shown in Figure 4, magnetic force close: when mechanical type magnet base magnet the two poles of the earth radially time, just to during soft magnetic materials shell 4, (middle of strip magnet only has minimum magnetic in the middle of N and S pole, the magnetic at two ends is intercepted by brass magnetic isolation plate 6, can not remember) can not be magnetized, so now suction block 2 does not almost have magnetic force, just can take off from shell body 1 surface easily.

As shown in Figure 3, magnetic force is opened: when the two poles of the earth (N and S) of mechanical type magnet base magnet are vertical with radial direction, when namely N or S of magnet is extremely just to soft magnetic materials shell 4, has just been magnetized, this direction has strong magnetic, so can be used in holding shell body 1 surface.

Perpendicular the putting of described shell body 1 is fixed on base 7, and described base 7 is provided with the column 8 for connecting suction block 2, and described fixed part is column 8.

Described column 8 is uniform around shell body 1, and described suction block 2 is arranged on column 8 uniformly.

Described column 8 is slidably connected on base 7, and described base 7 is provided with the chute 9 be slidably connected with column 8, and described chute 9 is arranged along the radial direction of shell body 1.

Described column 8 is slidably connected with chute 9, and described column 8 is provided with the attaching parts of detachably fixing with chute 9 optional position.

Described shell body 1 inside is provided with machined components 10.

Described machined components 10 is milling parts and/or punching unit.

In the process used, first shell body 1 location is fixed on base 7, then slided on chute 9 by column 8, the arc adsorption plane 3 of each suction block 2 is coordinated with the outer wall of shell body 1 and contacts, and rotate permanent magnetic magnet 5, soft magnetic materials shell 4 is adsorbed (i.e. arc adsorption plane 3 coordinate with the outer wall of shell body 1 adsorb) is fixed column 8 by attaching parts and base 7 with shell body 1, so just can carry out machining by the inwall of processing component 10 pairs of shell bodies 1.Because shell body 1 is subject to the suction of suction block 2, so limit almost shell body 1 outer wall deformation tendency in any direction; The distortion that milling or punch operation all can not cause shell body 1 is carried out at shell body 1 inwall.

After shell body 1 process finishing, column 8 and base 7 are dismantled fixing, and outwards slide along chute 9, shell body 1 shifts out by vacating space, continue next operation.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, do not departing from the front lower of the technology of the present invention principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. an anti-deformation accumulated energy flywheel processing tool, it is characterized in that: the shell body comprising tubular, described shell body outer wall is evenly equipped with multiple suction block preventing shell body to be out of shape in machining, described suction block under shell body is free state with shell body outer wall adsorbed close; Described suction block is fixed by fixed part holding position in mechanical processing process.

2. anti-deformation accumulated energy flywheel processing tool as claimed in claim 1, is characterized in that: the absorption end of described suction block is provided with the arc adsorption plane coordinated with shell body outer wall.

3. anti-deformation accumulated energy flywheel processing tool as claimed in claim 2, is characterized in that: described suction block is electromagnetic absorbing block.

4. anti-deformation accumulated energy flywheel processing tool as claimed in claim 2, it is characterized in that: described suction block is mechanical type magnet base, described mechanical type magnet base comprises outside soft magnetic materials shell and the permanent magnetic magnet in soft magnetic materials shell that is rotatably connected, and described permanent magnetic magnet rotates outer rim and is provided with a pair brass magnetic isolation plate.

5. anti-deformation accumulated energy flywheel processing tool as claimed in claim 4, is characterized in that: perpendicular the putting of described shell body is fixed on base, and described base is provided with the column for connecting suction block, and described fixed part is column.

6. anti-deformation accumulated energy flywheel processing tool as claimed in claim 5, it is characterized in that: described column is uniform around shell body, described suction block is arranged on column uniformly.

7. the anti-deformation accumulated energy flywheel processing tool as described in claim 1 or 6, it is characterized in that: described column is slidably connected on base, described base is provided with the chute be slidably connected with column, and described chute is arranged along the radial direction of shell body.

8. anti-deformation accumulated energy flywheel processing tool as claimed in claim 7, it is characterized in that: described column is connected with slide, described column is provided with the attaching parts of detachably fixing with chute optional position.

9. anti-deformation accumulated energy flywheel processing tool as claimed in claim 8, is characterized in that: described shell body inside is provided with machined components.

10. anti-deformation accumulated energy flywheel processing tool as claimed in claim 9, is characterized in that: described machined components is milling parts and/or punching unit.