SU142159A1 - Aerodynamic Scales - Google Patents

Description

Known aerodynamic weights using an unequal rocker carrying a test model located at its end and a balancing device whose support ends have a tape support with a coaxially placed elastic separator in the form of a bellows, have insufficient measurement accuracy and are not suitable for remotely balancing a weight ball .

In the proposed weights, the balancing device is in the form of a sealed cylinder mounted on the yoke and connected with a pipe to the inner cavity of the bellows, the bottom of which can be moved to change the volume of the bellows and adjust the amount of liquid in the balloon according to the measured force, which allows to produce remote balancing beam balance.

FIG. 1 shows the proposed aerodynamic scales; in fig. 2 - balancing device.

The scales are suspended on hinges to the base 1 of the unequal shoulder of the rocker arm 2, on the long arm of which in the flange 3 the experimental object is fastened so that the reaction force of the plasma jet to be measured has a vertical direction. In the static state, the rocker is balanced by the counterweights 5 moved along screws 6. The balance is monitored by an optical indicator consisting of illuminator 7, a mirror mounted on the lever mechanism 9, and a scale 10. To compensate for the rigidity of the elastic supports of the rocker arm and the elastic hinge of the mirror of the optical indicator a spring is provided, // creating, with deflection of the rocker arm, a moment opposite to the sign of my m.

communications They are mounted on the plate 12, which at the same time acts as a crinkle of the high chamber 13.

The balancing device contains a sealed bilon J4 mounted on the rocker arm 2, which is connected by pipelines 5 and 16 to the inner 5-AMA-cavity of the bellows 17 filled with liquid and placed on the dispenser 18. Microphone 19 is connected with the bellows, which helps. The first bellows / 7 can be compressed (expanded) and supply (or divert) a known amount of liquid to the cylinder 14, ensuring that the rocker arm 2 is brought to a state of equilibrium.

To bring the balance to zero before starting the measurement, there is a threaded sleeve 20 that mixes the bellows / 7 while maintaining the zero position of the micrometer 19. A thermometer 21 is installed in the cylinder 14 to make corrections related to the change in the density of the liquid when its temperature changes. , which can be directly observed through the window of the vacuum chamber. In the balancing system, the magnitude of the measured force is expressed in units of the micrometer scale of the dispenser 75. The balance is calibrated by loading the rocker arms with the control weights on the arm corresponding to the point of application of the object.

In order to change the limits of the balance, it is necessary to move the cylinder 14 along the rocker arms, thus changing the point of application of the balancing liquid column. In order to eliminate the movement of the fluid and to increase the accuracy of measurement, the communication of the cylinder M with the dispenser 18 is realized through the elastic node 22.

The proposed scales can be widely used to study plasma thrusters with high accuracy.

Subject invention

Aerodynamic scales using a balance arm carrying a test model located at its end, and a balancing device having a tape support, coaxially with which an elastic bellow separator is attached, which is balanced in order to balance balance beam elements. sealed cylinder mounted on the yoke and connected by pipeline with the inner cavity of the bellows, the bottom of which can be mixed to change the volume of the bellows and p -regulation amount of liquid in the cylinder were measured respectively emomu force.