PL218448B1 - Device for vibroacoustic measurements, especially in an anechoic chamber - Google Patents

Description

The subject of the invention is a device for vibroacoustic measurements, especially in an anechoic chamber.

Acoustic measurements require the positioning of the measuring microphone at several dozen or several hundred points in the measurement space. In vibroacoustic measurements, methods of positioning a microphone with a manually positioned tripod are known. The microphone is moved to a new position by the operator after taking a measurement at a specific point in space. After the measurement is completed, the tests must be interrupted due to the need to move the tripod in such a way that the microphone is at the next point in the measuring space. Manual positioning of the microphone is a long-term process and does not ensure the achievement of a precise and repeatable measurement position. It is also impossible to carry out measurements on the move.

The aim of the invention was to enable precise and quick positioning of the microphone in the measuring space, and the technical task to be solved was the construction of a device for positioning the microphone in the measuring space.

The device for vibroacoustic measurements, especially in an anechoic chamber, according to the invention, comprises a rotating table coaxial with the symmetry axis of the device, attached to the bottom of the anechoic chamber, and a microphone measuring positioning mechanism, consisting of a right support and a left support, adjustable in height, fixed to the bottom anechoic chamber. A right-hand rotary drive and a left-hand rotary drive are placed on the supports, with a common horizontal axis of rotation, defined by the axes of symmetry of the rotary drives, preferably passing through the center of the rotary table. The drives are connected by a half-ring and a linear positioning module is mounted on the half-ring, preferably halfway along its length. A tubular boom is attached to the slider of this module, at the end of which there is a microphone measuring holder with a microphone attached. The axes of symmetry of the microphone and the boom coincide preferably with the vertical axis of symmetry of the table, when the value of the angle α of the angular position of the half-ring with respect to the table plane reaches the maximum.

The advantage of the invention is the possibility of automatic, precise and quick positioning of the microphone in the measuring space, especially on the surface of the hemispherical shape. It is also possible to carry out measurements on the move.

The subject of the invention is shown in the drawing in which Fig. 1 shows the device for vibroacoustic measurements in an anechoic chamber in front view, and Fig. 2 in oblique view.

The device for vibroacoustic measurements in an anechoic chamber, in an exemplary embodiment of the invention, consists of a rotary table 6 attached to the bottom of the anechoic chamber, and a microphone measuring positioning mechanism 9. The microphone positioning mechanism 9 consists of two supports 4, 5, right support 4 and a left support 5 with variable, adjustable height, attached to the bottom of the anechoic chamber. Each support 4, 5 rests the rotary drives 2, 3, the right drive 2 and the left drive 3 with a common horizontal axis of rotation. The drives 2, 3 move synchronously and are connected by a half-ring 1. The horizontal axis of rotation of the half-ring 1, defined by the axes of the rotating drives 2, 3, passes conveniently through the center of the rotating table 6. Half-ring 1 is conveniently halfway along its length. linear positioning module 7. A tubular boom 8 is attached to the module 7 slider, at the end of which there is a measuring microphone 9 holder with a microphone 9. The axis of the microphone 9 and the boom 8 aligns suitably with the vertical axis of rotation of the table 6, when the value of the angle α of the angular position of the half-ring 1 with respect to the plane table 6 reaches its maximum. Changing the length of the boom 8 or changing the position of the slider of the linear positioning module 7 changes the size of the radius R of the measuring half-sphere 10. Changing the height of the supports 4, 5 changes the height of the suspension of the radius R of the measuring half-sphere 10. The movement of the rotary drives 2, 3 changes the angular position α of the half-ring 1 The device is intended for use in anechoic chambers. The device, thanks to the combination of the rotary motion of the table 6, with a vertical axis of rotation, and the rotary motion of the half-ring 1 with a horizontal axis of rotation, with the linear positioning module 7 attached, enables the generation of a measuring space in which a hemisphere 10 with a radius of R is located. It is possible to carry out measurements on the hemisphere 10, both in the case of scanning with the microphone 9 in the range α up to 90 ° and up to 180 ° the angle of rotation of the half-ring 1.

Claims (1)

A device for vibroacoustic measurements, especially in an anechoic chamber, characterized in that it comprises a rotating table (6) coaxial with the symmetry axis of the device, attached to the bottom of the anechoic chamber, and a microphone measurement positioning mechanism (9), consisting of a right support (4) and the left support (5), adjustable in height, attached to the bottom of the anechoic chamber, on which the right rotary drive (2) and the left rotary drive (3) are placed, with a common horizontal axis of rotation, defined by the axes of rotation of the drives (2, 3) ), preferably passing through the center of the rotary table (6), the drives (2, 3) are connected by a half-ring (1), and the half-ring (1), preferably halfway along its length, has a linear positioning module (7), and a tubular boom (8) is attached to the slider of this module (7), at the end of which there is a microphone measuring holder (9), with a microphone (9) attached, the axes of symmetry of the microphone (9) and the boom (8) ) preferably coincide with the vertical axis of symmetry of the table (6), when the value of the angle (a) of the angular position of the half-ring (1) with respect to the plane of the table (6) reaches the maximum