SU476387A1 - Automatic device for blocking shafts of asynchronous couplings - Google Patents

Description

one

The master invention relates to mechanical engineering, in particular, to the production of energy transmissions.

Automatic locking devices for asynchronous shafts are known, for example, hydrodynamic couplings, made in the form of a planetary mechanism, the sun wheel of which is fixed on the drive shaft of the coupling, and the satellites with the axis of rotation installed at the root of the driven shaft have unbalances.

A disadvantage of the known devices is the increased complexity, large size and significant power loss during its operation.

In order to eliminate this drawback in the proposed device, each satellite has a mass unbalanced relative to its axis of rotation and is set in engagement relative to the other satellites so that the centers of gravity of the diametrically located satellite | B are even at the even number of their satellites and the centers of gravity of all the satellites with an odd number any position when turning around their axes are equidistant from the axis of the drive shaft.

Such an exercise can simplify the design of the device, since the mobile imbalance in the satellites is eliminated, and its dimensions are reduced. Device may be

installed in a hydrodynamic coupling or on any other asynchronous coupling, for example hydrostatic or electric.

FIG. 1 shows the proposed device, an axial section; in fig. 2 shows a section through A-A of a blocking device with a plane perpendicular to the axis of rotation of the coupling in FIG. one.

The device consists of a solar jaw 1, rigidly mounted on the drive shaft 2 of the pump wheel of the hydraulic coupling, a group of satellites 3, the smallpox 4 rotations of which are located in the coupling sleeve on the side of the turbine wheel 5. The satellites 3 are unbalanced relative to their rotation axes 4, due to which their centers t gesture, shifted relative to the axis of rotation and the value of "e. The sun gear 1 and the satellites 3 interlock with each other in such a way that, when the sun gear rotates, the centers of gravity of the satellites are always equally spaced from the axis of rotation;

The lipii incorporating a dvngatel, on the shaft of which the clutch is fixed, acquires the full speed of rotation of the drive shaft 2 and the associated sun gear 1 associated with it. The satellites 3 that are in engagement with it also acquire the angular velocity sos and their masses develop centrifugal forces, balancing the reactions in the axle supports 4. Since all the satellites rotate synchronously and the centers of gravity are located at the same time (At any time on an equal distance from the clutch rotation axis, the entire planetary system is balanced with the solar P1e axis during rotation Terni 1.

Under the action of the moment developed by the hydraulic coupling, the angular velocity C02 of the turbine wheel 5 of the coupling, in which the rotation axes 4 of the satellites 3 are placed, begins to increase, as a result of which the satellites, besides being rotated around the axes of radius R, around the axis of the sun gear 1 As the slip in the coupling decreases, the angular velocity of the satellites around axes 4 and towards the end of acceleration, before the moment of blocking, the satellites 3 rotate around their axes 4 with a low angular velocity, and around the axis of the solar nyustern 1 from the corners oh speed close to the angular velocity of the sun gear. In this case, the centrifugal forces developed by the masses of the satellites are determined by the magnitude of the angular velocity (02 of their rotation around the axis of the sun gear 1.

When the satellites reach the calculated illumination of the angular velocity M2 of rotation around the axis of the sun (gears 1 and 6 of the tandem forces applied to their centers of the tins, they will reach such a magnitude that the moment of support provided by them, summed up in the solar switch 1, will balance the momentum transmitted by the coupling. It is not in synchronicity, i.e. it will lock it out with the proposed device, about: m.

Subject invention

An automatic locking device for asynchronous shafts, such as hydrodynamic couplings, is extruded in the form of an electric gear mechanism, the sun wheel of which is fixed to the drive shaft of the coupling, and the satellites with axes of rotation installed in the casing of the driven shaft have unbalances, characterized in that

simplifying the device, each satellite has a mass unbalanced relative to its base and is set at the same time relative to other satellites in such a way that the centers of gravity are located near the satellite satellites at the fourth number of their satellites and the centers of gravity of all the satellites at an odd number in any position iri- , equidistant from the axis of the week of the 1st shaft.

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