CN106523595A - Full-load flywheel - Google Patents

Abstract

The invention discloses a full-load flywheel. In the turning radius direction, the material performance of at least one region is different from that of the other region of the flywheel of the same material. The elasticity modulus of the region with a small turning radius is smaller than that of the region with a large turning radius, and/or the hooker coefficient of the region with the small turning radius is smaller than that of the region with the large turning radius; or the elasticity modulus in the turning radius direction is larger than that in the circumferential direction, and/or the hooker coefficient in the turning radius direction is larger than that in the circumferential direction. The full-load flywheel can improve the local stress situation of the flywheel, and the service life of the flywheel is prolonged.

Description

A kind of full load flywheel

Technical field

The present invention relates to dynamic field, more particularly to full load flywheel.

Background technology

Flywheel energy storage is a kind of important form of accumulation of energy, but, when being subject to centrifugal action due to flywheel, on radial direction Elongation of the elongation less than circumferencial direction, and more level off to shaft center line, stress is bigger, so, in the difference of flywheel In region, material stress is entirely different, therefore, often cause flywheel to destroy as a certain local pressure is excessive.Therefore, need Invent a kind of full load flywheel.

The content of the invention

In order to solve the above problems, technical scheme proposed by the present invention is as follows：

A kind of full load flywheel, the material character in flywheel at least one region on radius of gyration direction of commaterial It is different from another region；The elastic modelling quantity in the little region of the radius of gyration less than the big region of the radius of gyration elastic modelling quantity and/ Or the Hooke coefficient in the Hooke coefficient in the little region of the radius of gyration region big less than the radius of gyration, or on radius of gyration direction Hooke coefficient of the elastic modelling quantity more than the elastic modelling quantity on circumferencial direction and/or on radius of gyration direction is more than on circumferencial direction Hooke coefficient.

Further selectively, on radius of gyration direction, make the heat treatment condition of the flywheel different.

Further selectively, on radius of gyration direction, make the pre-stressed state of the flywheel different.

Further selectively, on radius of gyration direction, make the machining state of the flywheel different.

Further selectively, on radius of gyration direction, make the crystalline phase of the flywheel different.

Further selectively, on radius of gyration direction, the heat treatment condition of the flywheel and institute on circumferencial direction are made The heat treatment condition for stating flywheel is different.

Further selectively, on radius of gyration direction, the pre-stressed state of the flywheel and institute on circumferencial direction are made The pre-stressed state for stating flywheel is different.

Further selectively, on radius of gyration direction, make the machining state of the flywheel described with circumferencial direction The machining state of flywheel is different.

Further selectively, on radius of gyration direction, make the flywheel crystalline phase and circumferencial direction on the flywheel Crystalline phase it is different.

In the present invention, so-called " full load flywheel " is not meant to that any position load of flywheel or stress are identical, and Be the distribution to stress carry out more reasonably adjustment make material as much as possible make contributions the safety of flywheel.

In the present invention, so-called " machining state " to be referred to and form different geometric shapes, such as rough pattern by processing, Structural form after the processing such as bending shape.

In the present invention, necessary part, unit should be set where necessity or be according to the known technology of dynamic field System etc..

Beneficial effects of the present invention are as follows:

The disclosed full load flywheel of the present invention can improve the stressing conditions of flywheel local, extend the use longevity of flywheel Life.

Specific embodiment

Embodiment 1

A kind of full load flywheel, the material character in flywheel at least one region on radius of gyration direction of commaterial It is different from another region；The elastic modelling quantity in the elastic modelling quantity in the little region of the radius of gyration region big less than the radius of gyration, and The Hooke coefficient in the Hooke coefficient in the little region of the radius of gyration region big less than the radius of gyration.

Used as disposable embodiment, the embodiment of the present invention 1 is also selectively chosen the area for only making the radius of gyration little The elastic modelling quantity in the elastic modelling quantity in the domain region big less than the radius of gyration, or the Hooke coefficient in the region for only making the radius of gyration little is little In the Hooke coefficient in the big region of the radius of gyration.

Embodiment 2

A kind of full load flywheel, the material character in flywheel at least one region on radius of gyration direction of commaterial It is different from another region；Elastic modelling quantity on radius of gyration direction is more than the elastic modelling quantity on circumferencial direction, and the radius of gyration Hooke coefficient on direction is more than the Hooke coefficient on circumferencial direction.

Used as disposable embodiment, the embodiment of the present invention 2 is also selectively chosen only to be made on radius of gyration direction Elastic modelling quantity more than the elastic modelling quantity on circumferencial direction, or only make the Hooke coefficient on radius of gyration direction be more than circumferencial direction On Hooke coefficient.

Embodiment 3

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Heat treatment condition it is different.

As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment and embodiment 1 can The embodiment of conversion on radius of gyration direction, can further make the heat treatment condition of the flywheel different.

Embodiment 4

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Pre-stressed state it is different.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 3 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make the pre-stressed state of the flywheel different.

Embodiment 5

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Machining state it is different.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 4 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make the machining state of the flywheel different.

Embodiment 6

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Crystalline phase it is different.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 5 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make the crystalline phase of the flywheel different.

Embodiment 7

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Heat treatment condition it is different from the heat treatment condition of the flywheel on circumferencial direction.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 6 and its disposable embodiment and reality The disposable embodiment for applying example 1 can further make the flywheel on radius of gyration direction, on radius of gyration direction Heat treatment condition it is different from the heat treatment condition of the flywheel on circumferencial direction.

Embodiment 8

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Pre-stressed state it is different from the pre-stressed state of the flywheel on circumferencial direction.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 7 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make the pre-stressed state and circle of the flywheel In circumferential direction, the pre-stressed state of the flywheel is different.

Embodiment 9

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Machining state it is different from the machining state of the flywheel on circumferencial direction.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 8 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make the machining state and circumference of the flywheel On direction, the machining state of the flywheel is different.

Embodiment 10

A kind of full load flywheel, which on radius of gyration direction, further makes the flywheel on the basis of embodiment 1 Crystalline phase it is different with the crystalline phase of the flywheel on circumferencial direction.

As disposable embodiment, the embodiment of the present invention 2 to embodiment 9 and its disposable embodiment and reality The disposable embodiment for applying example 1 on radius of gyration direction, can further make crystalline phase and the circumferencial direction of the flywheel The crystalline phase of the upper flywheel is different.

As the embodiment that can be converted, the increasing on the basis of embodiment 1 being related in embodiment 1 to embodiment 10 Plus technology essential factor can be mutually combined.

It is clear that the invention is not restricted to above example, according to techniques known and technology disclosed in this invention Scheme, can derive or association goes out many flexible programs, and all these flexible programs also are regarded as the protection model for being the present invention Enclose.

Claims (10)

1. a kind of full load flywheel, it is characterised in that：The flywheel of commaterial at least one region on radius of gyration direction Material character it is different from another region；The bullet in the elastic modelling quantity in the little region of the radius of gyration region big less than the radius of gyration Property the little region of modulus and/or the radius of gyration Hooke coefficient less than the big region of the radius of gyration Hooke coefficient, or revolution half Hooke coefficient of the elastic modelling quantity on the direction of footpath more than the elastic modelling quantity on circumferencial direction and/or on radius of gyration direction is more than circle Hooke coefficient in circumferential direction.

2. as claimed in claim 1 full load flywheel, it is characterised in that：On radius of gyration direction, the heat treatment of the flywheel Condition is different.

3. as claimed in claim 1 or 2 full load flywheel, it is characterised in that：On radius of gyration direction, the pre- of the flywheel should Power state is different.

4. as claimed in claim 1 or 2 full load flywheel, it is characterised in that：On radius of gyration direction, the processing of the flywheel State is different.

5. as claimed in claim 3 full load flywheel, it is characterised in that：On radius of gyration direction, the processing shape of the flywheel State is different.

6. the full load flywheel as described in claim 1 or 2 or 5, it is characterised in that：On radius of gyration direction, the flywheel Crystalline phase is different.

7. the full load flywheel as described in claim 1 or 2 or 5, it is characterised in that：On radius of gyration direction, the flywheel Heat treatment condition is different from the heat treatment condition of the flywheel on circumferencial direction.

8. the full load flywheel as described in claim 1 or 2 or 5, it is characterised in that：On radius of gyration direction, the flywheel Pre-stressed state is different from the pre-stressed state of the flywheel on circumferencial direction.

9. the full load flywheel as described in claim 1 or 2 or 5, it is characterised in that：On radius of gyration direction, the flywheel Machining state is different from the machining state of the flywheel on circumferencial direction.

10. the full load flywheel as described in claim 1 or 2 or 5, it is characterised in that：On radius of gyration direction, the flywheel Crystalline phase is different with the crystalline phase of the flywheel on circumferencial direction.