RU2025690C1 - Impact testing unit - Google Patents

Abstract

FIELD: materials testing. SUBSTANCE: unit has platform 3 with tested item 4 fixed on it and striker 7. The striker and platform are speeded up in opposite directions. Speeding up is performed by springy accelerator made in the form of tensile members 11. One part of ends of the members is connected to the platform and striker, and the other part of ends is connected to tensile mechanism 14. The platform and striker are directly interlinked to each other through cables 9 bending around blocks 10, are installed on vertical sliders 2, 6 and are counterbalanced. The unit also has aids to move the platform and striker apart, and comprises a drive installed on base 1. The drive moves down the lower mass of two ones being collided. EFFECT: simple design and increased accuracy when repeating the preset shape of impact pulse. 2 dwg

Description

 The invention relates to testing equipment, namely to shock stands with two colliding platforms, and can be used to test products for the effects of large shock accelerations in a single impact.

 Known mechanisms for testing for impact acceleration, based on the design of which the interaction of the cam with a pusher associated with the table to accommodate the test products.

 The smooth lifting of the pusher and the table, followed by a break from the cam, creates a shock or multiple strokes affecting the test items. In this case, when the pusher is disengaged from the cam, the table with the products falls on the fixed massive part of the mechanism - the anvil.

 Closest to the technical nature of the proposed is a stand for impact testing of products by ed. St. USSR N 1373105, class G 01 M 7/00, 1983. This device is a stand for testing products for the effects of multiple impacts in the oncoming movement of the colliding masses. It contains a table for fixing the test products, connected with the anvil-striker through two cables enveloping the blocks. In this case, both cables bend around the eccentric necks of the drive shaft connected to the drive through an overrunning clutch, and each cable is attached to the rod of the pneumatic cylinder - an elastic element for accelerating the table and the striker. The eccentric necks of the drive shaft act as a cam in the group of listed mechanisms.

 The disadvantage of this device is the design complexity and low accuracy of reproduction of a given shape of a single shock pulse reproduced by the device. The latter is due to the presence of a constant connection between the setup table and the striker with the drive and parts of the tensioner, a large number of inertial and damping structural elements that distort the shape of the pulse.

 The aim of the invention is to simplify the design and increase the accuracy of reproduction of a given shape of a shock pulse.

 This is achieved by the fact that in the stand for testing products for impact, the platform (table) with the product is directly connected by the ropes and mutually balanced, the drive is installed with the ability to move the lower mass downward, and the elastic accelerator is made in the form of tensile elements, one ends of which are connected with a platform (table) and brisk, and others with a tension mechanism.

 In FIG. 1 shows the described stand for testing products on impact; in FIG. 2 is a section AA in FIG. 1.

 The stand contains a base 1 with guides fixed on it 2, a platform (table) mounted on the guides 3 for securing the test product 4, a shock pulse shaper 5, additional guides 6, a striker 7 mounted on them with a load 8 fixed on it, balancing the platform (table ) with the product. The platform 3 and the strikers 7 are connected by a cable 9 through blocks 10, while the elastic elements - accelerators 11 are connected at one end 12 to the platform 3 and through the cables 11 to the striker 7, and the other end 13 to the tension mechanism 14, and the breeding mechanism and the subsequent release platform and striker (not shown) interacts with striker 7.

 The stand works as follows.

 Using the tension mechanism 14 in the accelerators 11 creates a pre-tension force. It is transmitted to the striker 7 (by means of a cable block 9-10), pressing the latter to the platform 3. A test object 4 is mounted on the platform 3. In this case, the force from the mass of the object 4 transmitted by the cable block 9-10 to the striker 7 additionally presses the striker 7 against platform 3. After this, the load 8 is secured to the striker 7, balancing the object 4, while pressing the striker 7 to the platform 3 is again carried out only due to the pre-tensioning force of the accelerators 11. Using the dilution mechanism (not shown), the striker 7 moves down, while platform 3 with the help of a cable transmission 9-10 moves upward, stretching the accelerators 11. After reaching the required dilution value, the striker 7 is disconnected from the dilution mechanism, under the action of accelerators 11, the platform 3 and the striker 7 move towards each other before impact through the shock pulse shaper 5. Last converts impact energy into a shock pulse of the desired shape, duration and acceleration.

Claims (1)

 STAND FOR TESTING PRODUCTS FOR SHOCK, containing a base, vertical guides located on it, mounted on guides with the ability to move in opposite directions impacted masses - a platform for installing the test product and strikers, flexible connection of the platform with the striker, made by means of cables enveloping the blocks, elastic the platform and striker accelerator and means for breeding the platform and striker and their subsequent release, including a drive installed on the basis, characterized in that, with intact To simplify the design and improve the accuracy of reproducing a given shape of the shock pulse, the platform with the products and the firing pin are directly connected by cables and mutually balancing, the drive is installed with the ability to move the lower mass down, and the elastic accelerator is made in the form of tensile elements, one ends of which are connected to the platform and briskly, and others with a tension mechanism.

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