CZ2787U1 - Rotary lever mechanism - Google Patents

Description

Swivel lever mechanism

Technical field

An object of the invention in the recoil is a rotary lever mechanism with a continuously exerting force at the outlet. This mechanism, especially in the variant with a transmission ratio greater than 1, is universally usable as a force part of the drive of various devices - eg fluid pumping devices, load lifting devices, etc.

BACKGROUND OF THE INVENTION

At present, various mechanisms and devices of various complexity are known which utilize the physical laws applied to so-called simple machines - a lever, a pulley of an inclined plane (wedge), a screw and a wheel on a shaft. In principle, when applying the equilibrium conditions on these simple machines, the workload of the load requires less force than the weight of the load. By virtue of the above-mentioned simple machines, it is apparent that in devices which use their nature _f , the energy derived from the workforce is converted, either discontinuously or during a cycle, if this activity is repeated cyclically. In the case of known devices of this type, this eliminates the possibility of a continuous force application at the outlet.

The above-mentioned problem, the solution of which is not known in the prior art, is solved by a rotary lever mechanism with a continuously exerting force at the outlet according to the invention. The principle of the solution consists in that the rotary lever mechanism is formed by a driven wheel on which one end of the shaft constituting the double-reversible lever is eccentrically rotatably mounted, the tipping point of which forms a tilting rotary bearing. The other end of the shaft (double-reversible lever) is provided with a cam, periodically lifting the free end of the single-reversible lever, between

at which the end of this lever, pivotably mounted, lies a point with a one-way clutch at which the resultant continuously acting force of the cyclic strokes of the lever mechanism is available.

The benefit of the device according to the invention is that, unlike all known devices, it provides a continuous power output with a versatile possibility of subsequent use.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration of a rotary lever mechanism in longitudinal section. FIG. 2 is a side view of the rotary lever mechanism.

Example of a utility model

Pivoting the lever mechanism in the exemplary embodiment (FIGS. 1 and 2) comprises a driven wheel 2, which is ^from its pivot 3 supported by the frame-2ařízení and driven through patorek and on which is eccentrically pivoted to one end of the shaft £, forming a substantially first order lever. The turning point of this lever is formed by a tilting pivot bearing 6, namely a spherical ball bearing mounted in the frame / device. The other end of the shaft is provided with a cam which, through the bearing 8, periodically lifts the free end of the single-reversible lever 10 between and the second, rotatably mounted end 11 of this lever.

the resulting continuously acting force of the cyclic strokes of the lever mechanism.

From the standpoint of understanding the operation of the device, it is important to realize that the driven wheel 2 continuously deflects one end of the shaft 6 forming the double-reversible lever as it rotates. As a result, the second end of the shaft 6, provided with the cam * T1 ·

7, practically in constant periods does the work of the lever; it lifts the free end 9 of the single-reversible lever periodically through the bearing 8

10. This principle of the lever action mechanism then allows a continuous force output at point 12 of the single-reversing lever 10 2a by means of a one-way clutch (ratchet).

To illustrate the force conditions on the rotary lever mechanism, the following calculation is based on the 2 functional model

A circumferential force of 80 N is exerted on the driven wheel 2 from the drive unit. With the length of the longer end of shaft 1 (between the driven wheel 2 and the pivot bearing 6) equal to 2.4 m and the length of the shorter end of the shaft 1. (between the pivot bearing 6 and the cam 7 equal to 0.15 m) Consequently, a force of 1280 N is available on the cam 7 at one revolution. With a continuous application of the force at 12, this means that at 90 revolutions per minute, it is possible at this time, i.e. at one minute, e.g. lift weights of mass m = 1280 N x 90 / 9.81 ms' ² = 11,743 kg to a corresponding height of 0.15 m.

Industrial applicability

As already indicated, the mechanism is tzeíwuckcito Tqs.?. especially in the exemplary variant with a transmission ratio greater than 1, universally usable as a force component of the drive of various devices - eg fluid pumping devices, load lifting devices, etc.

Claims (1)

PROTECTION FOR PROTECTION A lateral lever mechanism, characterized in that it consists of a driven wheel (2) on which one end of the shaft (1) forming a double-reversible lever is eccentrically and rotatably mounted, the tipping point being a tiltable rotatable bearing (6); the end of the shaft (1) is provided with a cam (7) against which the free end (9) of the single-reversible lever (10) abuts, between which and the other rotatably supported end (11) of the single-reversible lever (10) _t connected to the drive part of the unidirectional clutch, the driven part of which is then the effect of the continuous force output of the mechanism and the deer.