Machine romanova - mechanical atom 10

 

(57) Abstract:

Machine Romanova - mechanical atom 10 is a means for movement in the environment for exploring non-traditional movement in terms of buoyancy and contains a floating Foundation, established on the basis of movable elements and a mechanism for moving the elements relative to the base, including located on the rack horizontally large gear in the center of which is inserted into the bearing middle gear, which is fixed strap, carrying at one end a motor connected to a small gear with a larger gear, and the other balancing the load, and the contact system that supplies power to the motor. The tool to move in the environment has a platform, a rack mounted on the platform offset from the centre, and on the larger gear at a certain distance from the center fixed axle, on which is placed the flywheel with the gear member in connection with the middle gear, when this contact system is located in the centre of the larger gear. 2 Il.

The invention relates to a floating mechanical means, where the immersion medium (water) mass becomes weightless.

Similar isob move the elements relative to the base (ed.mon. USSR N 1186228, CL A 63 H 23/24, 1995).

This unit has the original kinematical scheme of the movement of the drive members. However, this device is for models traditional techniques.

You can also mention created by the author of the invention, the tool Machine Romanova - mechanical atom 5, where mechanical model containing a floating Foundation, established on the basis of movable elements and a mechanism for moving the elements relative to the base, the movable elements are in the form pivotally mounted on an axis rigidly associated with the base strap, carrying on one end of the rotating node with the small gear and the other end is a balanced load, the movement of elements in the form attached to the base of the motor with a contact gear means rigidly associated with the base and installed coaxially to the axis of the strap large gear, as well as its associated shaft with a small gear motor rotating host switching systems both electric motors and their power, and the switching system includes means to activate the motor with a contact gear when moving the rotating node along the arc of a large gear, bleris what about the large gear.

The tool to move in the environment, disclosed in the description of the patent of the Russian Federation 2031685, is in essential features the closest analogue of the proposed invention and contains a floating Foundation, established on the basis of movable elements and a mechanism for moving the elements relative to the base, including located on the rack horizontally large gear in the center of which is inserted into the bearing middle gear, which is fixed strap, carrying at one end a motor connected to a small gear with a larger gear, and the other balancing the load, and the contact system that supplies power to the motor.

The technical result of the invention is the study of non-traditional movement in terms of buoyancy, where the main factor in moving mechanism is weightless (on the water).

This technical result is achieved in that the means for motion in a medium containing floating Foundation, established on the basis of movable elements and a mechanism for moving the elements relative to the base, including located on the rack horizontally large gear in the center of coconutwater, connected to a small gear with a larger gear, and the other balancing the load, and the contact system that supplies power to the electric motor, according to the invention the tool to move in the environment has a platform, a rack mounted on the platform offset from the centre, and on the larger gear at a certain distance from the center fixed axle, on which is placed the flywheel with the gear member in connection with the middle gear, when this contact system is located in the centre of the larger gear.

The invention is illustrated by drawings, where shown on:

Fig. 1 - General view of the funds;

Fig. 2 is a top view.

The figures indicated:

1. Platform

2. Big gear

3. Middle gear

4. Strap

5. Motor

6. Balancing the load

7. Flywheel

8. Gear flywheel

9. Contact system

10. Battery

11. Floating base

12. Small gear

13. Hour

Work Machine Romanova - mechanical atom 10" is as follows.

Sequential alternating switching on and off of the electric motor 5, going on great gear 2, creates a translational motion of the platform 1.

As can be seen in Fig. 2, the flywheel 7 is located below the center plate 4 c of the electric motor 5 is located slightly above the horizontal line a large gear 2.

In the future it will be understood that the location of the strap 4 and the flywheel 7 is not chosen by chance. When the motor 5, a small gear driving a large gear 2, moves the bar 4 with the motor 5 and thereby rotates the flywheel 7, because his gear is connected with the middle gear 3.

After reaching the lowest point of the large gear 2, the motor 5 is turned off and the entire subsequent path of the rotating elements do by inertia to the initial starting position of the strap 4.

Consider what happens during this one work cycle.

First of all you need to understand that the mechanism of the two systems interact. One is the platform 1, a large gear 2 with axle and the flywheel 7. Another system is the strap 4 with average gear 3 and the motor 5.

When the motor 5 is switched on, he presses his gear teeth of a large gear 2, pushing her away in the opposite direction. As well as a large gear 2 is rigidly fixed to the platform 1, then it is uslca its small gear large gear 2, itself moves together with the plate 4 in the opposite direction. As well as plate 4 is connected with the middle gear 3, the force is transferred to the gear of the flywheel 8, and hence the axis, standing on a higher gear 2.

Thus, the motor 5 generates two opposing forces: the pressure of his small gear large gear 2, from which the platform 1 should rotate, but the pressure of the secondary gear 3 on the axis of the flywheel 4 holds the platform 1 from rotating. And despite its potential rotation, she is forced to take a static position. In these conditions, the teeth of the small gear make a large gear 2 is not to rotate and move linearly, creating a translational motion of the platform 1.

It should be noted, as seen in Fig. 2, the motor 5 is at a time when his position is perpendicular arrangement of the flywheel 4. It is found experimentally that this is the location of two interacting systems at the point of activation of the electric motor is most beneficial for the implementation of the translational motion of the platform.

What happens when disconnects the electric motor 5.

During operation El is 5 cumulative, the accumulated kinetic energy of the flywheel 4, now given to rotating elements. And this inertial movement also "works" for the translational motion of the entire system.

The flywheel 7 during the rotation, based on the average gear 3, moves the right side of the platform 1, and the small gear now presses the teeth of a large gear 2 "ahead of itself" by moving the left side. Summarizing these steps, the platform 1 is moved in the same original direction, and the braking movement gradually causes the bar to the previous position, where takes place the next cycle.

Each cycle starts with zero or minimal movement, as the inertia of the flywheel 7, and is the backbone for low gear when making its efforts on a large gear 2.

Thus, each time working together with a part of the braking (when turned off the motor). It occurs due to the friction of the small gear on the large gear 2. (In industrial production can be improved constructive solutions inhibition). It is important that the motor 5 is started from scratch or with a slow speed.

Inertia at this stage detrimental as a support for the in, creating a translational movement is possible only in conditions of weightlessness in the water (environment), as it involves not only the rotating elements on the platform 1, but is also involved and the platform itself is 1.

As already mentioned in the previous applications ("Machine Romanova - mechanical atom 5 and 7), if we just put a floating base on the table, we never would have seen the reactions from the efforts of the small gear to the large gear 2, and the result of the efforts of the middle gear 3 on the flywheel 7.

Only the efforts of the aquatic environment (simulated weightlessness) introduces complex interactions in this mechanism, for here interact not only visible moving parts, and is involved in the process itself floating base.

A new constructive solution "Machine Romanova - mechanical atom 10" differs from the previous models ("Machine Romanova 5" and "7") by its simplicity and economy in construction.

Significant changes that distinguish the invention Machine Romanova - mechanical atom 10" from its analogues ("Machine Romanova - mechanical atom 5" and "7").

1. The whole system is rotating elements placed on the same rack

2. All rotating elements Sauveur is El, acting in "Machine Romanova - mechanical atom 5"), which makes this invention more economical in energy.

3. And most importantly, the orderly operation of the motor, that is found moments on and off the motor at the given location on the circumference of the flywheel.

Previous patents Machines Romanova - mechanical atom 5" and "7" are not technical conditions described above in paragraphs 1, 2 and 3, so their translational motion is less effective.

Means for motion in a medium containing floating Foundation, established on the basis of movable elements and a mechanism for moving the elements relative to the base, including located on the rack horizontally large gear in the center of which is inserted into the bearing middle gear, which is fixed strap, carrying at one end a motor connected to a small gear with a larger gear, and the other balancing the load, and the contact system that supplies power to the electric motor, characterized in that the means for movement in the environment has a platform, a rack mounted on the platform offset from the center, while most gear at some length about this contact system, located in the centre of the larger gear.

 

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