RU2419078C2 - Electromechanical vibration test stand - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: device is in form of a table which is movably interfaced with a base by guides which facilitate its vertical displacement. The guides of the table are in form of two identical four-link chains of parallelograms, whose planes are parallel to the axis of movement of the table. Similar links of the parallelograms are in form of flexible plates which are yieldable in the direction of movement of the table. The guides are fixed in pairs on the base of the vibration stand such that in the neutral middle position of the table, adjacent flexible links of the parallelograms lie in the horizontal parallel plane of the table. An electric motor with a cam mechanism rests on the table. Constant contact between the table and the cam mechanism is provided by recoil springs. The device also has an actuation and measurement unit, as well as a vibration sensor.

EFFECT: high reliability of test results, reduced equipment wearing.

2 cl, 2 dwg

Description

The invention relates to testing equipment, namely, to stands for testing products of various industries for vibration resistance and vibration resistance.

The test products are placed on a horizontal table, making a reciprocating movement in the vertical direction with a rigidly set amplitude under the action of an eccentric (crank) of the motor shaft.

Known vibration stands with an eccentric drive of oscillations of the working body-table, for example, Electromechanical vibration exciter (patent No. RU 2299770 C1).

A feature of the known constructions is that, as an element providing rigid vertical movement of the table, there is a rod rigidly connected to the table, movably coupled to the base of the vibrator and supported by an eccentric mechanism. A lubrication zone must be supplied to the rod-to-body interface zone, made with a certain clearance. Moreover, the presence of a gap in the interface does not exclude the possibility of unregulated table vibrations in the transverse (horizontal) direction commensurate with the given small vertical table movements, which negatively affects the reliability of the vibration resistance of the tested products. In addition, in moving joints, during intensive work, wear occurs and the possibility of scoring of rubbing surfaces is not excluded.

The design of the inventive vibration stand, which is more reliable and practically maintenance-free, is devoid of these shortcomings.

The invention consists in that:

1. The guides of the table are made in the form of two identical four-link parallelograms, the planes of which are parallel to the axis of movement of the table, while the links of the same name parallelogram parallel to the axis of movement of the table are made in the form of elastic pliable plates in the direction of movement of the table and pairwise mounted on the base of the vibrating table and on the table in this way that in the neutral middle position of the table adjacent elastic links of parallelograms are in a horizontal position parallel to the plane of the table.

2. The vibration bench according to claim 1, characterized in that the eccentric mechanism mounted on the motor shaft is configured to control the eccentricity and, accordingly, the amplitude of the table vibration.

The design of the inventive vibration bench is shown in the drawings: FIG. 1 (front view) and FIG. 2 (side view). The composition of the inventive vibration stand includes: base 1 with uprights 2, electric motor 3 with an eccentric sleeve 4 mounted on its shaft 4 with bearing 5, table 6, supported by bearing 5, elastic rods 7 (4 pcs.) Connecting table 6 with uprights 2 of the base 1, forming two parallel four-link (parallelogram), springs 8, providing constant contact of the table 6 with the bearing 5, vibration sensor 9, block 10 of the electric drive and measuring vibration parameters, communication lines 11 and 12 of block 10 with electric motor 3 and vibration sensor 9.

The described vibrating stand works as follows. The test product is fixed on the table 6, connected with the uprights 2 of the base 1, mounted on a massive foundation, elastic rods 7, providing the possibility of plane-parallel table movement in the vertical direction. Since table 6 is supported by an eccentric mechanism (4, 5) mounted on the shaft of electric motor 3 and is pressed against the eccentric by springs 8, when the shaft of the electric motor rotates, the table makes a reciprocating movement with amplitude (A) equal to the eccentricity of sleeve 4. Under test vibration acceleration is determined by the product, which is determined by a known physical dependence — the product of the square of the frequency ω and the amplitude of the vibration (ω ² · A).

The vibration parameters are displayed on the digital display of unit 10: vibration frequency, table acceleration, total operating time of vibration cycles.

The oscillation amplitude of the table is regulated by the readjustment of the eccentric mechanism.

The distinguishing features of the inventive vibrating stand described above and their positive effect are fully confirmed by the test results of the model of the test product manufactured by the applicant.

Claims (2)

1. Electromechanical test stand, comprising a base, a table movably coupled to the base with guides providing vertical movement of the table, an electric motor with an eccentric mechanism on which the table rests, return springs providing constant contact of the table with the eccentric mechanism, a drive and measurement unit, and a vibration sensor, characterized in that the table guides are made in the form of two identical four-link parallelograms whose planes are parallel to the axis of movement of the table, p At the same time, the parallelogram links of the same name are made in the form of elastic pliable plates in the direction of the table movement and fixed in pairs on the base of the vibrating stand and on the table in such a way that in the neutral middle position of the table the adjacent elastic parallelogram links are in a horizontal position parallel to the table plane. 2. The vibration bench according to claim 1, characterized in that the eccentric mechanism mounted on the motor shaft is configured to control the eccentricity and, accordingly, the amplitude of the table vibration.

Images