SU1258932A1 - Vibration roller - Google Patents

Description

The invention relates to construction equipment and is intended for the compaction of soils and asphalt concrete pavements.

The purpose of the invention is to increase work efficiency, improve the flatness of the coating and reduce energy intensity.

The drawing schematically shows the vibratory roller, section.

The vibratory roller consists of a roller 1 mounted on frame 2 by means of axis 3. On the frame by means of elastic elements 4, vibration exciter 5 is installed. Support plates 6 and 7 are attached to the frame and vibration exciter. with pins 10. A hydraulic circuit consists of a pump 11, a safety valve 12, a spool valve 13 and pipelines for injecting a working fluid into a hydraulic clamp. Accelerating resilient elements 14 are mounted on the frame of the drum. The hydraulic clamps 8 and the elastic elements 4 and 14 fit the mechanism for moving the vibration exciter.

Vibrokatok works as follows.

In the working position, when the roller is moving, the working fluid enters the upper cavity of the hydraulic clips 8, the piston 9 moves to the lower position. The vibration exciter 5 is pressed against the base plate 6 to the frame and is integral with the frame 2 and the roller 1. The vibration from the vibration exciter is completely transmitted to the drum. When the roller stops, when reversing or changing gears, the distributor 13 switches, the lower and upper cavities of the hydraulic cylinder are connected to each other, and the accelerator elastic elements 14 throw the exciter 5 upward from the frame. Between plates 6 and 7, a gap appears larger than the oscillation range, as a result of which the vibration exciter oscillates on elastic elements whose stiffness is low and the vibration is practically not transmitted to the drum.

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The stiffness of the elements 4 is taken

C, (0.01, ..., 0,1) mw2, where m. - the mass of the vibration exciter;

5 W - oscillation frequency.

Here, the transmission coefficient of vibration to the frame is from 1 to This stiffness range is optimal, since, if

About 0.01 mw (the springs are very soft), the stability of the vibration exciter on the frame deteriorates and galloping may occur. With a stiffness of C of 0.1 mw, the vibration rate on the drum increases sharply and the flatness of the coating deteriorates.

Accelerator stiffness

C (0.05, ..., 0.4) mq / f,

20 where f is the maximum compression of elements; q is the acceleration of free fall.

Such rigidity provides the optimal time for the vibration of the exciter from the drum. It is between 0.3 and 0.1 s. Lower stiffness leads to the fact that the vibration exciter, when releasing the hydraulic clamp, rises slowly and several strokes of the driver against the frame occur. This reduces the durability of the bearings and the deterioration of the evenness of the coating. Greater rigidity leads to the need

Increasing hydraulic clamping force, which increases the cost of hydraulic power when vibration is activated.

Vibration switch application

Q in the form of a vibration exciter movement mechanism significantly increases the efficiency of vibratory rollers. A quick shutdown of the vibration from the drum will help improve the level

, compacted coating. In addition, with each short stop there is no need to turn off the vibration exciter, and it is enough just to release the hydraulic clamps. This increases the durability of the drive and the vibration exciter and reduces power consumption, since a considerable amount of power is expended on acceleration of the vibration exciter.

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with,

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Editor P. Cossey

Order 5095/30.

Circulation 514 Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Compiled by G. Popov

Tehred L. Serdyukova Proofreader Patay

Claims (1)

(5/0 VIBRATOR, containing a roller mounted on the frame by means of an axis, a vibration exciter, the casing of which is mounted on the frame on elastic elements, characterized in that, in order to improve work efficiency, improve the evenness of the coating and reduce energy consumption, the vibratory roller is equipped with a vibration exciter moving mechanism made in the form of a hydraulic clamp mounted on a frame, the rod of which is passed through the vibration exciter housing and located coaxially to elastic elements, the total rigidity C _{4 of} which is C = (0,01-0, Draw ² , where m is the mass of the vibration exciter; w is the frequency of oscillations and accelerating elastic elements whose rigidity is C ₂ = (0.05-0.4) mq / f, where f is the value of the maximum compression of the accelerating elastic elements; q is the acceleration of gravity.