SU989345A1 - Stand for testing articles for acceleration pulse influence - Google Patents

Description

'' The invention relates to testing equipment, namely, stands for testing products for the effects of an acceleration pulse.

A known test bench for products' on the impact of an acceleration pulse, containing a platform, with its rotation drive, a pendulum mounted on the periphery of the platform, the axis of rotation of which is parallel to the axis of rotation of the platform, a table fixed to the end of the pendulum for placing the test product on it, a pendulum lock with a mechanism for its release, and the latch is parallel to the plane of rotation of the platform, and the release mechanism of the latch and the latch are located on different sides', from the axis of rotation of the platform so that their the mass center of mass is shifted from the axis to the side of the mentioned mechanism [1 3.

The disadvantage of this stand is that the release of the pendulum with an unsteady mode of rotation of the platform is difficult due to the presence of tangential loads from platform acceleration, as well as the fact that the maximum value of the angular velocity of the “shape” boards in the steady state is limited by the condition of self-fixation under the action of centrifugal force.

The closest in technical essence to the proposed one is a stand for testing products for the action of an acceleration pulse, containing a platform with a drive for its rotation, a pendulum mounted on the periphery of the platform 10, the axis of rotation of which is parallel to the axis of rotation of the platform, a table fixed on the end of the pendulum to place the test product on it ,. a latch inserted into the pendulum nest and mounted perpendicular15 to the plane of rotation of the platform, and a mechanism for releasing the latch. The latch is made in the form of a spring-loaded finger G23.

In this stand, the pendulum cannot ²⁰ be self-released under the action of centrifugal force, since the latch is perpendicular to the plane of its action, however, the presence of this force, as well as the force from the linear platform acceleration25 requires an increase in the required power of the mechanism to release the latch.

The purpose of the invention is to reduce the required power, a mechanism for mastering the latch.

This goal is achieved in that the test bench for products under the influence of an acceleration pulse, comprising a platform with a drive for its rotation, a pendulum mounted on the periphery of the platform, the axis of rotation of which is parallel to the axis of rotation of the platform, a table fixed to the end of the pendulum to place the test product on it, a latch, introduced into the pendulum nest and mounted perpendicular to the plane of rotation of the platform, and the mechanism for releasing the latch, is equipped with a device for turning the latch, made in the form of Torsion dining, one end of which is fixed on the platform, and the other - on the retainer and the retainer is formed with a tapered working portion that is inserted into a pendulum eccentrically.

The release of the latch carries out post-zonal rolling control by superimposing rotational stitch movements, i.e. in the cycle of the clamp with the sliding pendulum, the coefficient of friction is significantly lower than the coefficient of sliding friction. Thus, to remove the clamp, a small force is required, which is created by the torsion spring, as well as by the pendulum itself, unbalanced by the rotating clamp.

Figure 1 shows the proposed stand; figure 2 - figure 1.

The stand contains, by the water of its rotation, the section A-A- on the platform 1 a (not shown), mounted on the periphery of the platform 1 pendulum 2, the axis of rotation 3 of which is parallel to the axis of rotation 4 of the platform 1, mounted on the end of the pendulum 2 table 5 for placement on it test item b, the latch 7 inserted into the socket 8 of the pendulum 2 and mounted perpendicular to the plane of rotation of the platform 1, the mechanism for releasing the latch 7, made in the form of a lever 9 mounted on the latch 7, which rests on the armature 10 of the electromagnet 11. The stand also contains the rotation feature 7, made in the form of a torsion spring 12, one end of which is fixed on the platform 1, and the other end is fixed on the latch 7. The latch 7 has a conical working part 13 and is mounted in the socket 8 of the pendulum 2 eccentrically, i.e. the center B of the socket 8 of the pendulum 2 does not coincide with the center B of the working part 13 of the latch 7 (figure 2)

The working part 13 of the latch 7 touches the socket 8 of the pendulum 2 in a straight line limited by points G and D.

. The stand works as follows.

When accelerating the platform 1, at the moment it reaches a predetermined speed, a voltage is applied to the electromagnet 11, the anchor 10 of which releases the lever 9 with the lock 7. Under the action of the spring 12, the lock 7 rotates, while its conical working part 13 rolls around the socket 8 of the pendulum 2, deflecting it from its radial position. In the process of running in the retainer 7, its axial movement also takes place, which leads to the release of the pendulum 2 ". The axial movement of the latch 7 is carried out under the action of the vertical component of the load from the pendulum 2, seeking to make a flywheel movement.

The proposed stand allows you to reduce the required power of the mechanism to release the latch, ’as well as expand the range of reproduced acceleration pulses in the direction of their large amplitude values.

Claims (1)

The invention relates to testing equipment, namely, stands for testing products for the effects of an acceleration pulse. A stand for testing products on the impact of an acceleration pulse, containing a platform, with a drive for its rotation, is mounted on the periphery of the platform, the axis of rotation which is parallel to the axis of rotation of the platform, fixed on the end of the table for placing the test product on it. mechanism for its release, and the latch is located parallel to the plane of the platform's plate and the mechanism for releasing the latch and are located on different lines from the axis of rotation of the platform so that their common npt mass offset from the axis in the direction of said mecha ma tl D. A disadvantage of this stand is. the fact that the release of the tumbling at the unsteady rotation of the platform is difficult due to the presence of tangential loads from the acceleration of the platform, as well as the fact that the maximum value of the angular velocity of the platform at the steady state is limited by the condition of self-fixing under the action of centrifugal force. The closest in technical essence to the present invention is a stand for testing products on the impact of an acceleration pulse, containing a platform with a drive for its rotation, mounted on the periphery of the platform is an indicator, the axis of rotation of which is parallel to the axis of rotation of the platform, fixed on the end of the table to spread on it the test article, a retainer inserted into the socket of the tambourine and installed perpendicular to the plane of rotation of the platform, and a mechanism for releasing the retainer. The latch is made in the form of spring-loaded Pstsy 2 ;. In this stand, the attendant cannot be self-fixed under the action of centrifugal force, since the lock is located perpendicular to the plane of its action, however, the presence of this force, as well as the force from the linear acceleration of the platform, requires an increase in the required power of the mechanism to release the lock. The purpose of the invention is to reduce the required power, the mechanism for releasing the lock. The goal is achieved by the fact that the stand for testing products for an acceleration pulse, containing a platform with a drive for its rotation, is mounted on the periphery of the platform, the axis of rotation parallel to the axis of rotation of the platform, mounted on the end of the temple. the test article, the retainer inserted into the "socket of the tommier and installed perpendicular to the plane of rotation of the platform, and the mechanism for releasing the retainer, is equipped with a device for rotating the retainer, made EYV The torsion springs, one end of which is fixed to the platform and the other end to the retainer, and the retainer is made with a conical working part installed in the socket of the tambour eccentric. The removal of the lock is carried out by imposing rotational and translational movements, i.e. in the area of the contact of the retainer with the master, the sliding friction is replaced by the rolling friction whose coefficient is significantly less than the sliding friction coefficient. Thus, in order to remove the retainer, an insignificant force is required, which is created by the torsion spring, as well as by the bat itself, unbalanced by the rotating retainer. Figure 1 shows the proposed stand; figure 2 - section aa-a in figure 1. The stand contains a platform 1 with a drive for its rotation (not shown), mounted on the periphery of platform 1 is an antenna 2, the axis of rotation 3 of which is parallel to the axis 4 of rotation of platform 1, mounted on the end of the indicator 2 table 5 to accommodate the subject article b, a retainer 7 inserted into the socket 8 of the tandem 2 and installed perpendicular to the plane of rotation of the platform 1, a mechanism for releasing the retainer 7, made in the form of a lever 9 fixed to the retainer 7, which rests on the bore 10 of the electromagnet 11. The stand contains also adapted e for rotation 7 formed as a torsion spring 12, one end of which is fixed to the platform 1 and the other - to the retainer 7. The retainer 7 has a tapered working portion 13 and the slot 8 is set to 2 mA pendulum eccentrically, i.e. The center B of slot 8 of tandem 2 does not coincide with the center of the working part 13 of the retainer 7 (Fig. 2) The working part 13 of the retainer 7 touches the socket of the 8. tune 2 along the straight, bounded by the points Guide. The stand works as follows. when it reaches a predetermined speed, a voltage is applied to the electromagnet 11, the bark of which 10 releases the lever 9 with the latch 7. Under the action of the spring 12, the latch 7 rotates, while its taper working part 13 rolls around the socket 8 of the parallel 2, deviates from radial position. The axial movement of the fixer 7 is also carried out under the action of the vertical component of the load from the core 2, which tends to perform a swing movement. The proposed stand reduces the required power of the mechanism for release of a clamp, and also to expand a range of reproducible impulses of accelerations towards their large amplitude values. Claims for testing products for acceleration impulse, containing a platform with a drive other than rotation, mounted on the periphery of the platform, the axis of rotation KOTO is parallel to the axis of rotation of the plate of the form, fixed on the end of the table to place the test product on it t-shirt and mounted perpendicular to the plane of rotation of the platform, and a mechanism for releasing the lock, characterized in that, in order to reduce the power of the mechanism for releasing the lock, it equipped with a device for rotation of the retainer, made in the form of a torsion spring, one end of which is fixed on the platform, and the other end on the retainer, and the retainer is made with a conical working part installed in the socket of the tambourine eccentric. Sources of information taken into account during the examination 1. USSR author's certificate No. 504118, cl. C; 01 M 7/00, 1973. 2. Author's certificate of the USSR No. 590631, cl. Sz, 01 M 7/00, 1976 (prototype).