SU1758664A1 - Wave drive - Google Patents

Abstract

Use: demonstration in the educational process of converting wave energy into rotation of the shaft of the working machine. Summary of the Invention: a wave simulator interacting with the rods is installed under the platform with which the floats are connected with the rods. The simulator can be made in the form of a camshaft, a belt drive with a wavy-shaped belt, a multi-belt, or in the form of a cam drum. In addition, the wave drive can have a bath with water, in which the causative agent is located. 5 hp ff, 1 ill.

Description

FIELD OF THE INVENTION The invention relates to mechanical engineering, the predominant application is in energy educational institutions and research laboratories.

A water wave drive (VP) adopted as a prototype is known, comprising a platform, floats with rods associated with it, and means for converting the movement of rods into rotation of the shaft of the working machine.

The well-known EP cannot be used as a demonstration in laboratory conditions due to the large size and transience of the water wave, which makes it difficult to directly observe the EP, learn how to design an EP and conduct research on improving the EP. The absence of such in-depth training and a model for testing deprives specialists of the possibility of developing projects of using free (wave) energy to obtain an economic effect in the national economy. The lack of impartiality during the demonstration in the educational process limits the range of tasks to be solved.

The purpose of the invention is to expand the range of tasks solved by a wave drive by ensuring in-depth demonstration in the educational process.

The goal is achieved by developing a desktop EF containing a platform with a wave simulator mounted under it, interacting with the rods. In this case, the wave simulator is made in several versions, namely, in the form of: a) a camshaft, each cam of which is designed to interact with the corresponding rod and consists of a hub and a spiral spring plate fixed in it; b) the usual belt transmission with the outer surface of the belt, made in the form of a water wave and located along the shaft of the working machine (along the crankshaft); c) the usual gear bottom (according to the number of belts) of the belt drive located across the shaft of the working machine (along the belt for each rod); d) o6i 1h, oh bath with water and a jet or other companion of waves of the necessary pitch and amplitude; e) ordinary cam with a row

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cams on the circumference under each stock.

If there is an image of option (a), the remaining versions (bd) should be completely dreaming, therefore limited to the description of only the first option.

The drawing shows the proposed VP.

The wave drive contains a platform 1 with posts 2, on which a wire hollow shaft 3 is mounted for rotation, connected with rods 4 with rods 5, which are hollow and accommodate springs (or other flexible elements) 6 interacting with pushers 7 (group 5-7 is replaced by a solid rod in some experiments), fixed to floats 8 with nuts 9; mounted under the platform with screws 10, a rack 11 of a wave simulator made in the form of a cam roller mounted on this rack and including a roller 12 with a handle 13 and a series of cams made in the form of split sleeves 14 and clamping screws 15 and spiral plates -cams 16, placed in the slotted sleeves and clamped with screws 17.

In this case, the cam lobes are mounted on a roller with a phase shift corresponding to (or not corresponding to, depending on the program) the phase shift of the crankshaft connecting rod journals. Depending on the program, group 5-7 is replaced with a solid rod, and the floats 8 are removed if they are not necessary (for example, using a cam or belt wave simulator).

By rotating the wave simulator 13 by means of the cams 16, the pushers 7 and the rods 5 move upwards, causing the crankshaft to rotate. In this case, the effect of the springs 6 is determined by replacing the group 5-7 with a solid rod (and without floats).

Laboratory experiments on the VP can be established that, thanks to the elastic suspension of the floats 8 on the water wave, the synchronization of the operation of the rods 5 occurs — overcoming the mismatch of the phases of the displacement of the rods.

Crankshaft 3 can rotate in any wave mode due to the synchronizing role of the elastic suspension of the floats 8

on the water wave. In the case of a cam or belt imitator of VP waves, the same synchronizer plays the role of springs 6. At the VP, these springs may not be needed, and

therefore, the group 5-7 can be made as a single rod (which can be connected to the float 8 by means of an elastic element, for example a membrane, if necessary).

0 Laboratory experiments on the VP found that the synchronization is even easier occurs when there is a flywheel on the free end of the crankshaft or control motor, which can

5 is powered by electricity (accumulated) generated by a generator operating from the airspace itself.

Lamellar spiral cams 16 VP thanks to their elastic deflection like

0 water waves play a synchronizing role even in the absence of springs 6 (group 5-7 in the form of a single rigid rod).

The application of the present invention

5 will give an economic effect in the national economy.

Claims (2)

Invention Formula 1. Wave drive containing platform, associated float with rods 0 and means for converting the movement of rods into rotation of the shaft of the working machine, characterized in that, in order to broaden the range of tasks to be solved by ensuring the ability to demonstrate during the training process, it has a wave simulator interacting with the rods. 2. The actuator according to claim 1, characterized in that the wave simulator is made in the form 0 a camshaft, each cam of which is intended to interact with a corresponding stem and consists of a hub and a spiral spring of a sticking plate fixed therein. 53. The drive according to claim 1, wherein the fact that the wave simulator is made in the form of a belt drive, the outer surface of the belt of which has a wave-like shape, while the belt is located along the shaft 0 working machine. 4. The actuator according to claim 1, characterized in that the wave simulator is made in the form of a belt drive, the belt of which is located across the shaft of the working machine and is higher than multi-multiplex, with the number of rows corresponding to the number of rods. 5. The method of claim 1, wherein that it has a bath with water and the causative agent of waves of a given step and amplitude located in it. 6. The drive according to claim 1, characterized in that the wave simulator is made in the form of a cam drum, each row Cams which is located under the corresponding stem.