RU2114347C1 - Eccentric transmission - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: driving shaft eccentric is positioned in slide recess. Driven member engages eccentric through slide. In this case, driven member is pressed to supports by tightening member for interaction with them. EFFECT: prompt conversion of shaft rotary motion directly to slow movement of driven member. 7 cl, 8 dwg

Description

 The invention relates to mechanical engineering and can be used in all industries for converting a high frequency of rotation of the shaft into the slow motion of the thrust or secondary shaft.

 Known transmission screw-nut in jacks, calipers, etc. [2]. This transmission with low efficiency, limited travel of the driven part and sophisticated technology, coincides in purpose, but has few common features.

 Closest to the invention is an eccentric transmission (friction feeder) [1], comprising a housing with supports in it, a drive shaft with an eccentric driven element interacting with the supports.

 However, the known devices: cyclic gears, planetary, wave, worm, friction, - in which the fast rotation of the input shaft is converted to the slow rotation of the driven shaft, and then another device - rocker, rack and pinion - receive a slow linear movement of the part (traction), - these are complex devices.

 The objective of the invention is the conversion of the rapid rotational motion of the shaft directly into the slow linear motion of the driven element.

 For this, an eccentric gear comprising a housing with supports in it, a drive shaft with an eccentric, a driven element interacting with the supports and the eccentric, and an element for pressing the driven element to the supports, according to the invention, is provided with a slider with a groove, the eccentric is placed in the groove of the slider, and the driven the element interacts with the eccentric through the slider.

 The eccentric gear can be equipped with a part spring-loaded to the slider, by means of which the slider interacts with the driven element.

 The eccentric gear may also be provided with a spring, under the action of which the slider compresses the driven element from the supports, with a force exceeding the force of the elastic preload element.

 In this case, the preload element may have a stroke limiter.

 In addition, the element of preloading the driven element to the supports can be placed on the slider.

 The eccentric gear may also be equipped with additional supports placed opposite the main supports on the opposite side of the driven element.

 In this case, the role of the driven element is played by the rim of the wheel, or drum, or disk, placed on the driven shaft.

 In FIG. 1 shows an eccentric gear; in FIG. 2, 3, 4, 5 - transmission design options; in FIG. 6 - transmission, the driven element of which is a wheel rim, mounted on a shaft; in FIG. 7 - a device that converts the rotation of the shaft into a continuous movement of traction; in FIG. 8 is a view AA in FIG. 6.

 The eccentric gear contains a housing 1 with bearings 2, an eccentric 3 on the drive shaft 4, a driven element 5 (rod), an element for pressing 6 of the driven element to the supports. The eccentric is located in the groove 7 of the slider 8.

 During the rotation of the shaft 4 with the eccentric 3, when the large radius of the eccentric passes the lower arc of the described circle (Fig. 1), the slider 8 pushes the rod 5 from the supports and advances it along the rotation by the amount of doubled eccentricity. To ensure the adhesion of the surface of the slider to the surface of the traction, the latter is pressed against the slider by the preload element 6 (spring-loaded roller). When the large radius of the eccentric passes the upper half of the arc, the eccentric does not press the slider and the slider makes an idle reverse. The preloading element at this time presses the thrust to the supports 2 so that it cannot move in the opposite direction.

 At a traction speed equal to double eccentricity per revolution of the shaft, the traction will undergo transverse vibrations with an amplitude equal to eccentricity. To avoid this, a spring-loaded part 9 is placed on the slider (Fig. 2), the preload element 6 has a stroke limiter, so the stroke of the roller 10 is limited to fractions of a millimeter and the thrust oscillates between the supports 2 and the roller within this stroke, which in amplitude corresponds to normal vibration .

 The transmission shown in FIG. 2, leaving its positive qualities, if the slider is pressed against the thrust by a spring 11, under the influence of which the slider will squeeze the thrust from the supports with a force exceeding the force of the elastic preload element (Fig. 3).

 It is possible to place variants of the preload element 6 of the rod to the supports 2 on a slider (Fig. 4) or to the main supports 2, opposite the latter from the opposite side of the rod, put additional supports 15 (Fig. 5).

 If instead of the thrust (driven element) put the rim of the wheel 16, drum or disk mounted on the driven shaft 17, then we get the shaft speed reducer (Fig. 6).

 In all of the above options, the slider moved the traction in steps, making the reverse idle. This can be avoided if the role of the supports will be played by another slider 18 with an eccentric 19, whose large radius is in antiphase to the eccentric of the first slider 8 (Fig. 7, 8).

Claims (7)

 1. An eccentric gear, comprising a housing with supports in it, a drive shaft with an eccentric, a driven element interacting with the supports and the eccentric, and an element for pressing the driven element to the supports, characterized in that it is provided with a slider with a groove, the eccentric is placed in the groove of the slider, and the driven element interacts with the eccentric through the slider.  2. The transmission according to claim 1, characterized in that it is equipped with a part spring-loaded to the slider, by means of which the slider interacts with the driven element.  3. The transmission according to claim 1, characterized in that it is provided with a spring, under the action of which the slider squeezes the driven element from the supports with a force exceeding the force of the elastic preload element.  4. The transmission according to claim 3, characterized in that the preload element has a travel stop.  5. The transmission according to claim 1, characterized in that the element of preloading the driven element to the supports is placed on the slider.  6. The transmission according to claim 4, characterized in that it is provided with additional supports placed opposite the main supports on the opposite side of the driven element.  7. The transmission according to claim 1, or 2, or 3, characterized in that the role of the driven element is played by the rim of the wheel, or drum, or disk, placed on the driven shaft.

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