SU807101A1 - Impact testing stand - Google Patents

Description

one

The invention relates to a test technique, namely to hit test stands.

A shock test bench is known, comprising a fixed base, an anvil rigidly fixed thereto, a movable platform, a vertex, tick guide platforms, a braking device, an electromagnetic lock, an engaging and unlatching platforms with guides 1.

However, the rigid fastening of the on-kovalny on a fixed base leads to the transmission of unwanted vibrations to the platform, which reduces the accuracy of the stand,

The closest to the proposed technical entity is a shock test bench containing a fixed base, a movable platform for fastening the test product, an anvil, platform guides connected to the base by an elastic suspension, a braking device located between the platform and the anvil, a device for moving the platform along guides, platform locking mechanism and control unit for this mechanism 2.

However, the platform and the anvil of the stand have common vertical guides, which leads to the transmission to the platform of unwanted anvil oscillations, which reduce the accuracy of the tests. 1 addition, the lack of a device that provides the possibility of periodic adjustment: the parallelism of the shock planes

platforms and anvils, and devices that automatically prevent shocks in case of distortions of these planes, reduces the reliability and service life of the stand.

The purpose of the invention is to show the accuracy and reliability of the tests.

This is achieved by the fact that., The stand is equipped with an adjustment mechanism for the position of the anvil, consisting of three.

adjustable supports, each of which contains a frame mounted on the base, a threaded sleeve rigidly fixed to the frame, a movable stop, a nut, screwed into it

on the sleeve, two plates, which form electrical contacts with the ends of the stop, which are included in the circuit of the control block of the locking mechanism, and a spring that presses the stop against the plates, the plates are rigidly connected through

The electrically insulating gaskets are one with a nut, the other with an anvil and the connection of the elastic suspension with the anvil is articulated.

Fig, 1 shows a stand, a general view; in fig. 2 - anvil adjustment mechanism.

The bench contains a fixed base 1 / platform 2, to the upper bone of which the test article is fastened (not shown), an anvil 3 connected to the base 1 by an elastic suspension. The elastic suspension consists of pneumatic accumulators (not shown) of the hydraulic cylinders 4 and the rods 5. The connection of the rods 5 and the anvil 3 is articulated. Platform 2 moves along guiding device consisting of hydraulic cylinders 7 and rods 8. A braking device 9 is located between platform 2 and anvil 3, which serves to create different shock modes: accelerations. The mechanism 10 for locking the platform is mounted in platform 2 and contains cylinder shoes (not shown in the drawing), pressed against the guides with compressed air. The compressed air is supplied by the command of the control unit (not shown in the drawing). The position of the tilt 3 is adjusted by the anvil position adjustment mechanism, which consists of three equal adjustable supports, each of which contains 1 frame mounted on the base. 11, a threaded sleeve 12 rigidly fixed on the frame 11, a movable stop 13 placed therein, a nut 14 screwed onto the sleeve 12, two plates 15 and 16 forming electrical contacts with the ends of the stop Electrical contacts are included in the circuit of the platform locking mechanism control unit. The plates 15 and 16 are rigidly connected through electrically insulating gaskets 17 and 18, the plate 15 to the nut 14, the plate 16 to the pin 19 of the anvil 3. The stop 13 presses against the plates 15 and 16 by the spring 20, which represents the rubber-cord pneumatic ball. The spring 20 is connected to the cracker 21, which is rigidly attached to the frame 11. The parallelism of the shock planes of the platform 2 and the anvil 3 is accomplished by turning the anvil 3, produced by means of the adjusting nuts 14.

In the case of a change in the previously established position of the anvil 3 before striking any one of the carried .1 pairs of electrical contacts (contacts between, stops 13 and plates 15 and 16). opens and blocks the discharge of the platform, automatically prevents blows and possible breakdowns of the shock stand, g

due to distortions of the shock planes.

In order to accelerate platform 2, when it hits anvil 3, springs 22 are used.

The stand works as follows.

A device for moving the platform 2 along the guides b is turned on and lifts it to the required height. In this case, the spring 22 is expanded. Turn on mechanism 10

the locking of the platform, which locks the platform 2 on the guides 6, the rods 8 in this case descend to the extreme position. In this position, the 5 stand is ready for testing.

For the production of a blow, the locking mechanism 10 is turned off, and the platform Ma 2 with the test article fixed on it accelerates and collides with the anvil 3 through the braking device 9, causing its elastic compression. The elastic forces of the compressed braking device 9 cause the platform 2 to pull away from the anvil 3. When rebounding, the locking mechanism 10 is activated, which locks the platform 2 on the guide b and prevents the platform 2 from hitting the anvil 3 again.

Elimination of anvil mating

3 with the direction to Zimi b platform 2 improves the accuracy of the stand, as there is no transmission. onto platform 2 through guides

b unwanted oscillations of the anvil 3 caused by a blow.

The use of the anvil position adjustment mechanism in the stand provides adjustment of the parallelism of the shock planes of the platform 2 and the anvil 3 and, if they are non-parallel, blocks the discharge circuit of the platform 2, thereby preventing possible failures and increasing the reliability and service life of the stand.

Claims (2)

1. US patent 2955456, cl. 73-12, I960. 2. Catalog of the firm MKSSh. Shock test benches of the type Ztras, 1967, p. 144-151 (prototype. Type).