SU1020479A1 - Vibration tamper - Google Patents

Abstract

VIBROTRABRAVKA, containing chabot, housing with a crank mechanism located in it with a flywheel, main and additional cranks, slider-strikers, the main one of which is hinged at the end of the corresponding slide, so that in order to increase efficiency in operation by expanding the range of stable modes, and also increase the impact energy of Cheney, it is equipped with a third impact slider and anvils according to the number of impact slider, and the lengths of all connecting rods and height x polzunovudarnikov formed by equal angles offset cranks constitute 40-50 and the radii of the cranks and the additional value exceeding the anvil relative to the base is determined from the ratio T2 2rg g Sr "where Td - main crank eccentricity magnitude, the magnitude of the eccentricity of the crank Svogo lane; the eccentricity value of the second crank; excess of the first anvil or relative to the anvil of the main slider-drummer / h - excess of the second anvil relative to the anvil of the main slider-drummer.

Description

The invention relates to the construction and can be used mainly for compaction of soils, as well as for driving into the soil of structural components and; forming concrete products. A drum rammer is known, including a housing with a shaft located in it with flywheels and crank-connecting rod mechanisms, on the free ends of the connecting rods of which the sliders f13 are hingedly fixed. and the flywheel, the main and additional cranks, the slider-strikers, the main of which is hinged at the end of the corresponding slider 2, the disadvantages of the known vibrating frame are Jn Started that is effective for a narrow range of stable modes, and insufficient impact energy. The purpose of the invention is to increase the efficiency in operation by expanding the range of stable modes, as well as increasing the impact energy. The goal has been set. It is achieved by the fact that the rammer containing the shaft, the body with the crank-and-crank mechanism located in it with the flywheel, the main and additional cranks, the main sliders; of which the ball is fixedly attached to the end of the corresponding slider, provided with a third slider-hammer and anvil in terms of the number of crawlers, the lengths of all connecting rods and the height of all slider-impactors, respectively, are equal, the excess of additional annealed relatively basic is determined from the relation where r is the value of the eccentricity of the main crank / g is the value of the eccentricity of the first crank; g is the value of eccentricity A. torogo crank I h - excess HakOBaiibH first main slider relative to the anvil, the firing pin; h.- the excess of the second anvil relative to the anvil of the main creeper-drummer. FIG. 1 schematically shows the vibrotamper, a view along the shaft crank; in fig. 2 - the same, side view of the crank shaft; in fig. 3 is a section A-A in FIG. 2; FIG. 4 is a plot of the movement of the striking part. FIG. 5 is a plot of the velocity of the striking part. Vybrotrambovkg |. It consists of a housing 1, in which a shaft 2 with a flywheel 3 and cranks 4 are installed, the first 5 and second 6 are mounted in bearings. The connecting rods 7 are hinged to the cranks 7. The first 8 and 9 are hinged on the cranks. second 10 extra. The anvils 11, 12 and 13 of the main 8, the first 9 and the second 10 additional slide shockers, respectively, are located under the slider-strikers, respectively. The body 1 is pivotally connected to the uprights 14, which are rigidly fastened to the shaft 15. FIG. Figure 4 shows a diagram of the movement of the shock part of the vibrating rammer relative to the impacting divers when each of them touches the limiter, where r, d and d are the radii of the main, first and second cranks, respectively; excess of the anvil of the first additional slider against the anvil of the main slider-drummer; And - the excess of the second additional slider-drummer relative to the anvil of the main drummer; H - phase shift between cranks; a, a, a, are the imaginary trajectories of the body with respect to each of the slider-strikers in the event that each of them touches the limiter; And the trajectory of the body relative to the sliders of the strikers alternately touching the limiter, Г ,, Г2, The phase position of the crank shaft, during which the interaction with the anvil of the main, first and second additional sliders of the shock, respectively, 0; 02 and 05 - the axes of symmetry of the trajectories a, a2 and a, respectively. FIG. 5 shows the graphs of the speed of the impact part relative to the work. Due to the adopted design decisions of the magnitude of the shift angle in phase H, the radii of the cranks of heights, the helix body will be reciprocated by reciprocating motion of the eibrotrambovki with variable amplitude. the strikes carried out by the corresponding shock-sliders occur at that moment (T, Cj, t) t when their velocities with respect to the hull are maximum. FIG. 4 this is shown by a solid thick line. As can be seen from this graph, a change in the shift. In phase V, within the range of f 40-50 from one side, the efficiency does not decrease (the speed of the slider-impactor remains almost unchanged, which makes it possible to assign in practice, when designing, phase angles in specified range.

Vibrating rammer works as follows.

The rotational movement of the shaft 2 is transformed into a reciprocating, blunt movement of the housing 1 relative to the shaft 15 with the help of a crank mechanism. At the same time, the impacting sliders 8-10 alternately strike the corresponding anvil m 11-13 and the shock vibration generated in this way impact is transmitted through work 15

compacted material. Due to p, the adopted shift in phase f, ratios of the radii of Go, r, and of the crooked curve 4-6, heights of the anvil 11 13 (hp, h, hjj.) Is provided by the shock interaction of the sliders-strikers - 10 with pegs 15 at such phase crank positions, in which, firstly, slider-strikers have a maximum speed, and secondly, stable vibrating rammers operation modes are provided.

Excited steady frequency impact mode contributes to a longer impact on the ground,

and consequently, a more affective process of plastic deformation.

Claims (1)

Vibrating rammer, containing a rammer, a housing with a crank mechanism located in it with a flywheel, a main and an additional crank, sliders, the main one of which is pivotally mounted on the end of the corresponding slide, so that that in order to increase efficiency in work by expanding the range of stable modes, as well as increasing the energy of impacts, it is equipped with a third slider-drummer and anvils in the number of sliders-drummers, and the lengths of all the connecting rods and the heights of all of them, respectively of the cranks made equal, the angles of displacement of the cranks are 40-50 °, and the radii of the cranks and the excess of the additional anvils relative to the main one are determined from the relation ^r ₁ “2r °, r ₂ = 2r _t ^h -T ^r 0 ' ^h 2 = ^Zr o' where the magnitude of the eccentricity of the main crank, the magnitude of the eccentricity of the first crank; the magnitude of the eccentricity of the second crank; excess of the first anvil relative to the anvil of the main slider-drummer; h - excess of the second anvil relative to the anvil of the main slider-drummer. SU .1020479> : 1020479