SU878855A1 - Vibration tamper - Google Patents

Description

(54) VIBROTRAM

The invention relates to the field of construction and can be used in the compaction of soils or in the molding of products from concrete mixtures.

A vibrotamper is known, comprising a sealing plate with vertical guides, on which a spring-loaded frame with a vibration actuator is placed, with an anvil and a hammer, spring-loaded relative to the anvil 1, mounted on the sealing plate.

Closest to the invention of the known ones is a vibrotamper containing an anvil-shaped pilot plate, on the racks of which a curvature-driven shock-rod drive of the percussion mechanism with phase-displaced different-sized curvistines connected to the main and additional head rods is mounted, the first of which is connected to a hinge with a drummer placed in a guide connected to the additional shatun; 2.

The disadvantages of the known rammers are that the energy transfer to the material being compacted by the impactor when struck is carried out through an intermediate element - a sealing plate. Here, a part of the energy is absorbed by this intermediate element. Also known

in-tamping is not maneuverable when moving them across the material being compacted, since under shock effects the shock part separates from the plate, 5 does not carry it along, which makes the plate from bump-to-strike more and more penetrating into the ground, having increased resistance horizontal translation.

ten

The purpose of the invention is to increase work efficiency by reducing the dissipation of energy and ensuring ease of operation.

15 This is achieved by the fact that, in a vibrotamper, containing an anvil-sealing plate, on the struts of which a curved-thrust-driven drive of the percussion mechanism is mounted with

Phase 20 of the different crankshafts connected to the main and additional shatunas, the first of which is connected with a drummer, placed in the direction connected to the additional shatun, - the sealing plate is equipped with additional racks, and the guide is made in the form a flange that is spring-loaded to the slab, which is hingedly connected to the additional ilatun and has 30 versts;} ;; for extra racks, and

spring stiffness is proportional to the local mass of the sealing plate, and their mmkpmalnaya height is determined by the formula:

h Г2Ч- / 2 + 52

-/,---five. + bJ-r; i, e Go and / i are the quantities of its and smaller eccentres; C: Tzsz KjjiiBipships; / 2 n / 1 - the length of the connecting rod, CZ for ::. S with

Red: SKKPaM {with G2 And / i, respectively;

2 - height punch1 uk2; S is the distance between the center of the articulation of the hinged joint of the optional shuttle flange and the sealing flange; b - height of anvil; 7 - the length of the springs to the floor in a state of a compressed state.

The drawing shows the basic scheme of Bibrotamper.

In the housing 1 of the rammer is located the crankshaft drive of the percussion mechanism with the eccentric shaft 2 with the flywheel. Krivoschip 3, which has a larger eccentricity g, is connected to the main connecting rod 4 with a length of 2, at the free end of which the hammer 5, which has a height of 52, is hinged and a crank 6, which is lower than the crankshaft 3, is angled f, is connected to an additional connecting rod 7 of length /, at the free end of which a flange 8 is hinged at the Si distance from the surface of the working sealing plate, having a through hole covering the anvil 9 of height b, with which the impact “and. 8 can per relative to the sealing plate 10 but additional racks 1-1 attached to the plate 10, overcoming the resistance of the springs 12, pressing the flange to the working sealing plate 10. The height of the racks 11 and the spring 12 is calculated on the basis of h

 G2 + / 2 1 52Г1 / 1Si + 6 + 7, in which the shaft 2 and the iOLMKI of the machine as a whole do not occur. The guides for the housing 1 are the pillars 13, attached to the plate 10.

Vibrating rammer works as follows.

The torque from the engine is transmitted to the shaft 2, and from it through the crank-gang mechanism to plate 10 through flange 8 or drummer 5, on which case 1 is alternately supported. In this case, when drummer 5 does not touch anvil 9 and Plate 1-0 based on the material being compacted, the housing 1 moves relative to the plate 10, repelled by a crank-and-rod mechanism with eccentricity T, and if the vibrating rammer

is in flight, i.e., the working plate 10 is torn off from the material, then plate 10 moves relative to body 1 under the action of the same repulsive force, since plate 10 has much less weight than body 1 after contact of the impactor 5 with the anvil 9, due to the fact that the eccentricity G2 of Krivoschip 3 is more than the excitriticity TI of Krivoschip 6, as the Krivoshchip shaft is further rotated, the flange 8 will move around the guide plate 10 by the amount h, followed by

deformation-it iruzhin 1: 2. Since, irn this, the pressure force of the springs 12 on the flange 8 increases, when the striker 5 is torn away from the anvil 9, the plate 10 will be attracted by the force of the spreading springs 12 to

the housing 1, and since at this moment the housing moves upwards, this results in the separation of the plate 10 from the surface of the material being compacted. The parameters of vibrotamping are selected so that in

the time of the fall of the vibrotamper, the plate 10 was shifted relative to the body of the internal combustion engine under the action of a crank-rod mechanism with a maximum relative linear velocity, which occurs when

Angle position of the crank, close to 90 °. Then, after a certain angle of rotation of the shaft 2 on the plate, a blow is struck 5.

Thus, the described vibrotamper allows to increase the efficiency of material compaction due to the fact that the force effect on the compacted material is formed due to the impact of the plate and the additional impact of the impact mechanism through the plate.

Claims (2)

Invention Formula A tamper containing an anvil sealing plate, on the racks of which a crank-drive crank drive of the percussion mechanism is mounted with phase-displaced different-sized cranks connected to the main and additional connecting rods, the first of which is connected to a drummer placed in an extra shaft with a directional arm placed in an extra shaft connecting rod, and the first one is connected to a drum head placed in an extra spring rod, which is located in the direction of the additional connecting rod, the first of which is connected to the drummer in a directional adapter that is connected to an additional connecting rod, the first of which is connected to the drummer in place with the additional connecting rod, which is located in the direction of the additional connecting rod, the first of which is connected to the drummer in the direction of the additional connecting rod, which is connected to the additional connecting rod and the connecting rod with the connecting rod, the first connecting rod is connected to the drummer, which is located in the connected and additional connecting rod, the first of which is connected to the drum with the drum, which is attached to the main connecting rod and the connecting rod. , characterized in that, in order to increase efficiency by reducing energy dissipation and to ensure ease of operation, the pilot plate is equipped with an additional bubbled struts and the guide is in the form below: pruzhnneiiogo to the plate flange sharpirpo soedipeinogo with an additional connecting rod and having apertures for dopolpntelnyh struts, wherein spring rate is proportional to mass sealing plate, and their minimum height is determined by the formula: fi G2 + / 2 + 52-g, - / I-5, + 6 + 7 where Гз and Г - values of larger and smaller eccentricities of cranks; / 2 and / 1 are the lengths of the connecting rods connected with the nose: W1 and W2 and TI, respectively; 52 - drummer height; Si is the distance from the center of the articulated joint of the additional connecting rod with the flange to the sealing plate; b - the height of the anvil; Y - spring length - in full compressed state. Sources of information taken BQ attention in the examination: 1. USSR Copyright Certificate № 326069, cl. B 28 B 1/08, 1970. 2. USSR author's certificate number 323508,; cl. E 02 D 7/18, 1970.  ) /