RU143702U1 - SUPER MOVEMENT - Google Patents

Abstract

1. A super-flywheel comprising a hub made in the form of a disk, a rim made of a wound flexible material with an elastic bond between the turns, an annular element provided with ballast and located between the hub and the rim, the ring-shaped element being connected to the hub disk and the rim wound around the ring-shaped element, slots made in an annular element, characterized in that the slots are made in the form of transverse holes evenly spaced along the circumference of the annular element, and the ballast is placed in the transverse holes. 2. The super flywheel according to claim 1, characterized in that a cold-rolled steel tape is used as a flexible rim material, and adhesive layers are used as an elastic bond. The super flywheel according to claim 1, characterized in that the annular element is made of a material with an elastic modulus less than the elastic modulus of the rim material. The super flywheel according to claim 1, characterized in that lead is used as ballast. The super flywheel according to claim 1, characterized in that the hub is connected to the ring-shaped element by the first adhesive layer, and the ring-shaped element is connected to the rim by the second adhesive layer. The super flywheel according to claim 1, characterized in that the hub and the annular element are made in the form of a single part.

Description

The utility model relates to mechanical engineering and can be used as an energy storage device.

Known super-flywheel containing a hub and a rim, made in the form of winding from high-grade fiber. (SU, No. 507729).

In this device, the rim is made of two paired sections, the first of which is wound from the hub to the outer surface, and the second section is wound continuously with the first section being wound from the outer surface to the hub and the last turn of the winding is fixed on it.

The disadvantage of this device is the uneven elastic deformation of the rim and the hub during rotation of the super-flywheel, which can lead to a violation of the mechanical connection of the rim with the hub.

The closest is a super-flywheel containing a hub made in the form of a disk, a rim made of wound flexible material with an elastic bond between the turns, an annular element provided with ballast and located between the hub and the rim, the ring-shaped element being connected to the hub disk, and the rim made wound on an annular element, slots made in an annular element (SU, No. 693073).

In this device, the annular element is made elastic with an annular cavity, the ballast is located in the annular cavity under the twisted rim, and the ballast is made with radial slots to increase its elastic compliance. This ballast contributes to a reliable clamping of the hub to the rim during rotation of the super-flywheel. In addition, in this technical solution, the rim is provided with cheeks and is made of wound flexible material between them with an elastic ligament between the turns, and radial slots are made in the ballast, cheeks and part of the hub. The ring-shaped element has a rather complicated configuration, and the implementation of radial slots in it complicates the design as a whole and affects its manufacturability.

In addition, the disadvantage of the closest analogue is the difficulty of balancing the super flywheel due to the danger of destruction or violation of the uniformity of the elastic properties of the ballast when removing material from it, for example, drilling it in the presence of radial slots.

The task solved by the utility model is the improvement of technical and operational characteristics.

The technical result achieved by the utility model is to simplify the design and balancing.

To solve the problem with achieving the specified technical result in a well-known super-flywheel containing a hub made in the form of a disk, a rim made of a wound flexible material with an elastic bond between the turns, an annular element provided with ballast and located between the hub and the rim, and the annular element is connected to the hub disk, and the rim is wound around the annular element, the slots made in the annular element, according to the claimed utility model, the slots are made in the form of transverse holes evenly spaced along the circumference of the annular element, and the ballast is placed in the transverse holes.

Additional embodiments of the device are possible, in which it is advisable that:

- a steel cold-rolled tape was used as a flexible rim material, and adhesive layers were used as an elastic bond;

- the ring-shaped element was made of a material with an elastic modulus less than the elastic modulus of the rim material;

- lead was used as ballast;

- the hub was connected to the annular element by a first adhesive layer, and the annular element connected to the rim by a second adhesive layer;

- the hub and the ring-shaped element were made in the form of a single part.

The indicated advantages of the utility model, as well as its features are explained using the best option for its implementation with reference to the accompanying drawings.

FIG. 1 depicts a super-flywheel, end view.

FIG. 2 is the same as FIG. 1, cross section.

The super-flywheel (Fig. 1, 2) contains a hub 1 made in the form of a disk, a rim 2 made of a wound flexible material with an elastic bond between the turns, an annular element 3 provided with a ballast 4 and located between the hub 1 and the rim 2. The annular element 3 is connected with the hub disk 1, and the rim 2 is wound around the annular element 3. The slots 5 are made in the annular element 3. The slots 5 are made in the form of transverse holes evenly spaced along the circumference of the annular element 3. Ballast 4 is placed in the transverse slots holes 5.

As a flexible material of the rim 2 can be used steel cold-rolled tape, and as an elastic bond - adhesive layers.

In addition, the annular element 3 is made of a material with an elastic modulus less than the elastic modulus of the material of the rim 2.

As ballast 4, lead can be used.

The hub 1 can be connected to the annular element 3 by the first adhesive layer 6, and the annular element 3 is connected to the rim 2 by the second adhesive layer 7 (Fig. 1).

To further simplify the design, the hub 1 and the annular element 3 can be made in the form of a single part - monolithic (Fig. 2).

In FIG. 1, 2 also shows a shaft 8 through which rotation is fed to the hub 1 of the super-flywheel.

The super-flywheel operates (Fig. 1, 2) as follows.

The super-flywheel includes a rim 2, wound from a flexible high-strength material, for example, cold-rolled steel tape, with gluing an elastic bond, for example, hardening glue. The rim 2 is seated with gluing on the hub 1, made in the form of a disk, including with an annular element 3, from a plastic material, for example, PCB, with an elastic modulus more than an order of magnitude smaller than the elastic modulus of the material from which it is wound rim 2. In the peripheral part of the hub 1, for example, in an annular element 3, there are made evenly distributed circumferential slots 5 — transverse holes filled with ballast 4 — cylindrical columns (rods) of heavy metal, for example, of lead. The operation of the device is as follows.

When the super-flywheel rotates, its rim 2 increases its diameter due to elastic elongation somewhat more than the annular element 3 of the hub 1, made of low density material. If there is ballast 4 in the ring-shaped element 3, made in the form of uniformly distributed holes with heavy metal in them, the ring-shaped element 3 receives additional elastic deformation upon rotation, pressing it against the inner cylindrical part of the rim 2.

As for balancing the super-flywheel, in the presence of slots 5 - transverse holes filled with heavy metal, for example, lead, it is made by partial or complete drilling of individual cylindrical pieces of metal inserted in the slots 5. In this case, the strength of the ballast 4 is not impaired, such as , in the closest analogue, if there is subjected to drilling. At the same time, drilling the ends of balanced discs is a typical balancing technique.

Thus, the technical result achieved is achieved by the fact that the hub 1 and / or its annular element 3 (peripheral) are made of light plastic material (such as textolite), and the ballast 4 is made in the form of a plurality of evenly spaced holes on the periphery of the hub 1, filled with cylindrical columns of heavy metal, such as lead. This embodiment allows you to tightly clamp the peripheral part of the hub to the inner cylindrical surface of the rim 2, as well as to simplify the process of balancing the super flywheel in the rim by partial or complete drilling of heavy metal.

The most successfully announced "Supermahovik" is industrially applicable as an energy storage device.

Claims (6)

1. A super-flywheel comprising a hub made in the form of a disk, a rim made of a wound flexible material with an elastic bond between the turns, an annular element provided with ballast and located between the hub and the rim, the ring-shaped element being connected to the hub disk and the rim wound around the ring-shaped element, slots made in an annular element, characterized in that the slots are made in the form of transverse holes evenly spaced along the circumference of the annular element, and the ballast is placed in the transverse holes. 2. The super-flywheel according to claim 1, characterized in that a cold-rolled steel tape is used as a flexible rim material, and adhesive layers are used as an elastic bond. 3. The super-flywheel according to claim 1, characterized in that the annular element is made of a material with an elastic modulus less than the elastic modulus of the rim material. 4. The super-flywheel according to claim 1, characterized in that lead is used as ballast. 5. The super-flywheel according to claim 1, characterized in that the hub is connected to the ring-shaped element by the first adhesive layer, and the ring-shaped element is connected to the rim by the second adhesive layer. 6. The super-flywheel according to claim 1, characterized in that the hub and the annular element are made in the form of a single part.