Five-degree-of-freedom probe clamping device for pneumatic probe calibration

Abstract

The invention discloses a five-degree-of-freedom probe clamping device for pneumatic probe calibration. The five-degree-of-freedom probe clamping device comprises an X-direction displacement mechanism, a yaw mechanism, a Z-direction displacement mechanism, a Y-direction displacement mechanism and a pitching mechanism, wherein the yaw mechanism is fixed on the X-direction displacement mechanism and realizes yaw through matching of an arc rack and a gear which are positioned on a horizontal plane; the Z-direction displacement mechanism is fixed on the radius of the arc rack of the yaw mechanism; the Y-direction displacement mechanism is fixed on the Z-direction displacement mechanism and is perpendicular to the Z-direction displacement mechanism; the pitching mechanism is fixed to the Y-direction displacement mechanism and achieves pitching through cooperation of an arc rack and a gear which are located on the vertical plane; the pitching mechanism is provided with a clamping component; the probe is fixed on the clamping component. The X-direction displacement mechanism, the yaw mechanism, the Z-direction displacement mechanism, the Y-direction displacement mechanism and the pitching mechanism are respectively adjusted or adjusted in a combined mode to change the calibration position of the probe. The five-degree-of-freedom probe clamping device is complete in function, convenient to operate and capable of achieving firm clamping and five-degree-of-freedom movement of the probe.

Description

technical field [0001] The invention belongs to the technical field of wind tunnel tests, and in particular relates to a five-degree-of-freedom probe clamping device for calibrating pneumatic probes. Background technique [0002] During the calibration process of the pneumatic probe, a probe clamping device is usually used to clamp the calibrated probe and adjust the calibration position and attitude. [0003] Most of the probe clamping devices currently in use only have the ability to automatically adjust the attitude of pitch and yaw two degrees of freedom. For probes with different pole lengths and heights, it is necessary to adjust the depth and height The direction of the calibration position is adjusted so that the sensing part of the probe is placed in the center of the nozzle outlet. Since the probe holding device only has the ability to adjust the attitude of the pitch and yaw two degrees of freedom, the whole or the probe holding device has to be adjusted. Part of...

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Problems solved by technology

[0003] Most of the probe clamping devices currently in use only have the ability to automatically adjust the attitude of pitch and yaw two degrees of freedom. For probes with different pole lengths and heights, it is necessary to adjust the depth and height The direction of the calibration position is adjusted so that the sensing part of the probe is placed in the center of the nozzle outlet. Since the probe holding device only has the ability to adjust the attitude of the pitch and yaw two degrees of freedom, the whole or the probe holding device has to be adjusted. Part of the position adjustment is achieved by changing the bolt fixing position, the operation process is very cumbersome and inconvenient

[0004] At the same time, since there is no automatic adjustment function of the calibration position in the de

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