RU2072947C1 - Device for measurement of lateral aerodynamic characteristics of gliding- type parachute in wind tunnel - Google Patents

Abstract

FIELD: aeronautical engineering; measurement of aerodynamic forces and moments acting on canopy of gliding-type parachute. SUBSTANCE: device has inclined bearing beams and strain gauge balances (at least 4 balances) mounted in pairs on longitudinal beams; strain gauge balances are provided with cross-members to which shorter lengths of parachute lines are secured. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to aeronautical engineering and is intended for measuring aerodynamic forces and moments acting on the dome of a gliding parachute during an experiment in a wind tunnel.

 A device is known for measuring the aerodynamic forces and moments acting on a canopy parachute model, the main element of which is a holder mounted on the base of a stand on which tensile weights and a beam are mounted, carrying rigid parachute ribs on which the canopy of the canopy canopy is stretched ([1] Fig. 8 )

 The disadvantage of this device is that it does not allow you to explore the parachute in its natural state, when the shape of the parachute is determined by the interaction of the flow of the wind tunnel and the soft tissues of the dome together with the sling system.

The closest technical solution is a device for maintaining the dome in the stream and measuring aerodynamic forces and moments [1] (Fig. 28, 30). This device contains a holder, a frame for attaching slings and a tensile weight. A parachute is attached to the holder. The disadvantages of this device are the following:
forced turns of the dome are carried out by concentrated impacts of the holder, which distorts the shape of the parachute; forces and moments are measured by weights located below the base of the stand holder, which greatly increases the errors in determining the moments relative to the point of reduction located in the vicinity of the dome of the planning parachute (which must be used when calculating the dynamics of the parachute system based on data from a pipe experiment); scales measuring forces and moments perceive weight and forces from blowing support devices, which impairs the accuracy of measurements.

 The technical problem is to not interfere with the natural shape of the dome, eliminate side forces and moments acting on the tensile weights, and increase the accuracy of determining the aerodynamic characteristics.

 Improving the accuracy of measurements is achieved by the fact that in the device for measuring the lateral aerodynamic characteristics of the gliding parachute in the wind tunnel, containing inclined support beams and tensile weights, at least four ten-balance weights are installed in pairs on the longitudinal beams, and traverses are attached to the tensile weights, to which short segments of the parachute slings are attached .

 The drawing shows a diagram of the device.

 The device contains two inclined support beams 1, on the upper part of which longitudinal beams 2 are fixed, at the ends of which there are ten scales 3 supporting the traverse 4. To the traverses 4 with the help of short sling ties 5 (or in another way) the lower edge of the ribs of the dome of the planning parachute is attached 6, the power slings of which are mounted on the lower part of the support beams 1 using the device 7.

 The device operates as follows.

 After the parachute is inserted into the stream and exited to the balancing angle of attack, the support beams 1 are moved so that the traverses 4 are as close as possible to the lower edge of the parachute ribs. Mounting the parachute to the traverse 4 allows you to fix the parachute in the balancing position and, by moving the support beams 1, set the angle of attack and sliding of the parachute dome; the forces and moments measured by the tensile weights 3 when the angle of attack and slip deviate from the balancing values are summed up taking into account the geometric characteristics of the supporting device. In this case, the role of errors in recalculating the measurement data to the reduction point located in the vicinity of the dome is significantly reduced, and the shaping is carried out due to power lines. This is especially significant when measuring moments of roll and yaw.

Claims (1)

 A device for measuring the lateral aerodynamic characteristics of a gliding parachute in a wind tunnel, containing a holder, inclined support beams, a node for attaching slings and a tensile weight, characterized in that it is provided with longitudinal beams and traverses with short segments of slings attached to the traverses, and between longitudinal beams and traverses no less than four ten-weight scales are installed in pairs.