KR19990054635A - Acoustic measuring device - Google Patents

Abstract

The present invention relates to an acoustic measuring apparatus,

To more easily and accurately measure the acoustic characteristics from the sounding body,

A transfer medium such as a belt is installed along a semicircular guide rod that is rotated by a drive motor within a predetermined angle range, and another driving motor is connected to the tip of the transfer medium, and then an acoustic measuring instrument is mounted on the transfer medium.

Description

Acoustic measuring device

The present invention relates to an acoustic measuring apparatus, and more particularly, to an apparatus capable of measuring the acoustic characteristics from a sounding body more simply and accurately.

Every moment of our daily lives we encounter a myriad of pronunciations, and the sound characteristics of each of them can sometimes act as noise to our human beings. Of course, in this case, various ways to reduce the noise will be examined. If the acoustic characteristics are beautiful music instead of noise, it is a matter of course to find a way to further improve this.

In any case, it is well known to go through the steps of measuring and analyzing the acoustic characteristics from the sounding body.

The specific acoustic measurement method or apparatus will be described with reference to FIGS. 1 and 2 as follows.

First, the sounding body 11 to be measured is placed in the rectangular box 21 of FIG. 1, and then a measurer is measured at several points constituting the box to measure the sound of the point. That is, only a certain point is to comprehensively determine the acoustic characteristics of the sounding body by measuring the sound of multiple points around the sounding body.

As another acoustic measurement method, the cuboid box surrounding the sounding body may be a hemispherical body 22 as shown in FIG. In the sense of measuring the sound at various points having the same straight line distance from the measurement target body, it is recognized as a more reasonable method than the case of using the rectangular box.

However, such a conventional acoustic measuring device has a problem that the method of use itself is inconvenient, and the measurement accuracy is also insufficient.

In other words, even if any of the rectangular or hemispherical box is used, it is not very easy to move the measuring instrument on the inner side of the box. In addition, in the case of comparing and analyzing acoustic characteristics of a plurality of sounding bodies, for example, the measuring point of each sounding body is slightly different for each sounding body, so that the reliability of the comparison result itself is inferior.

The present invention has been made in view of such a conventional problem, and an object of the present invention is to provide an acoustic measuring apparatus that can more easily and accurately measure acoustic characteristics from a sounding body.

1 is a perspective view showing a conventional box-type acoustic measurement device,

2 is a perspective view showing a conventional hemispherical acoustic measurement device,

3 is a partial cross-sectional view showing an acoustic measuring device according to an embodiment of the present invention.

Figure 4 is a partial cross-sectional view showing another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: Acoustic measuring device 2: Guide bar

3: guide rod drive motor 5: transfer medium drive motor

7: Mount 8: Measurer

The acoustic measurement device of the present invention for achieving this object is provided with a transfer medium (wire) along a semi-circular guide rod that is rotated within a certain angle range by a drive motor and connecting another drive motor to the tip of the transfer medium. Next, there is a feature of mounting an acoustic meter on the transfer medium.

EMBODIMENT OF THE INVENTION Hereinafter, the acoustic measuring apparatus of the Example of this invention is demonstrated in detail based on an accompanying drawing.

First, Figures 1 and 2 show the measuring device using the rectangular box 21 and the hemispherical box 22, respectively, not only the measurement work is cumbersome but also the lack of accuracy mentioned above.

Here, according to Fig. 3 showing the acoustic measuring device of the embodiment of the present invention, the acoustic measuring device 1 is connected to a semi-circular guide rod 2 formed at both ends of the axial support portion and one end of the guide rod 2; Guide rod drive motor (3), along the guide rod (2), both ends of the transfer medium (4) connected to the transfer medium drive motor (5) and the spring device (6), and constant on the transfer medium A mount 7 fixed to the point and moving together with the transfer medium 4, a measurer 8 fixed to the mount and directly measuring the sound from the sounding object 11 to be measured, and the guide rod driving motor 3 And a controller 9 for controlling the rotation of the transfer medium drive motor 5. The two drive motors 3 and 5 are general step motors, so that the measurer 8 can be accurately moved to the measurement target point. On the outer circumferential surface of the guide rod 2, an elongated groove (not shown) is formed along the longitudinal direction to accommodate the transfer medium 4. Instead of forming a long groove, the guide rod 2 itself may be in the form of a tube so that the transfer medium 4 passes through the hollow portion of the tube. Moreover, the said shaft support part is arrange | positioned in the state which can be rotated to the support stand 10, respectively.

That is, as the guide rod driving motor 3 rotates, the guide rod 2 draws a hemispherical trajectory, and when the transfer medium driving motor 5 rotates, the transfer medium 4 and a combination thereof are mounted. Base 7 is configured to move in the longitudinal direction along the guide rod (2).

It is preferable that the transfer medium 4 is a timing belt having regular irregularities on its inner circumference from the point of view of accurate measurer control.

However, a wire of fiber or synthetic resin may be used as long as a certain length is properly maintained. The present invention includes the case where this kind of transfer medium is applied.

Thus, when it is desired to measure the sound at a point located in a predetermined direction and distance from the sounding body 11, by operating the controller (9) by moving the guide rod (2) and the transfer medium (4) 8) can be accurately moved to the point to be measured.

Of course, the driving motor control by the controller 11 can be performed continuously. In other words, if only the information about the measuring point is input into the controller 9, the two driving motors 3 and 5 move by themselves, and the corresponding measurer 8 also measures the acoustic characteristics of each point. Of course, the measurement operation is so simple that it is incomparable with the conventional acoustic measurement device, and a high measurement accuracy is obtained.

On the other hand, Figure 4 is another embodiment of the acoustic measuring device of the present invention, instead of deleting the spring device shows a structure in which a small roller 12 is attached to the corresponding tip of the guide rod (2). In this case, the transfer medium 4 started from the transfer medium drive motor 5 winds around the roller 12 and leads to the drive motor 5 again. That is, even if the transfer medium drive motor 5 rotates in either the forward or reverse rotation, that is, the mount 7 and the measurer 8 are pulled toward or away from the transfer medium drive motor 5. In either case, the same type of position control is always performed.

While returning the mount 7 and the measurer 8 once moved to the transfer medium drive motor 5, it can be said to be an improvement over the embodiment of FIG. 3 in which the restoring force of the spring, not the motor, acts. . Of course, in any case, there is no problem in achieving the object of the present invention.

As described above, the acoustic measuring apparatus of the present invention has the effect of more easily and accurately measuring acoustic characteristics from various sounding bodies.

In view of the fact that the severity of environmental pollution and noise associated with industrial development is increasing day by day, the acoustic measuring device of the present invention is an industrially useful invention having a great meaning.

Claims (8)

Semi-circular guide rods 2 formed at both ends of the guide rods, guide rod drive motors 3 connected to one end of the guide rods 2, and are installed along the guide rods 2, and the tip ends thereof. A transfer medium 4 connected to the transfer medium drive motor 5 and the spring device 6, a mount 7 fixed to a fixed point on the transfer medium and moving together with the transfer medium 4, and the mount A controller (8) which is fixed to the measuring device (8) for directly measuring the sound from the sounding body (11) to be measured, and a controller (9) for controlling rotation of the guide rod drive motor (3) and the transfer medium drive motor (5). Acoustic measurement device comprising a. The acoustic measuring device according to claim 1, wherein an elongated groove is formed in the outer circumferential surface of the guide rod (2) to accommodate the transfer medium (4). The acoustic measuring device according to claim 1, wherein the guide rod (2) is in the form of a tube and the transfer medium (4) passes through the hollow part. The acoustic measuring device according to any one of claims 1 to 3, wherein the transfer medium (4) is a timing belt. Semi-circular guide rods (2) formed at both ends of the guide rods, guide rod drive motors (3) connected to one end of the guide rods (2), and transfer medium drive motors (5). Is installed along the transport medium (4) connected to the driving motor (5) and wound around the roller (12) at one end of the guide, and fixed to a fixed point on the transport medium and moved together with the transport medium (4). The rotation of the guide rod drive motor 3 and the transfer medium drive motor 5 and the measuring device 8 fixed to the table 7 and the mounting table to directly measure the sound from the sounding body 11 to be measured. Acoustic measurement device, characterized in that it comprises a controller (9). The acoustic measuring device according to claim 5, wherein an elongated groove is formed in the outer circumferential surface of the guide rod (2) to accommodate the transfer medium (4). 6. The acoustic measuring device according to claim 5, wherein the guide rod (2) is in the form of a tube and the transfer medium (4) passes through the hollow part. The acoustic measuring device according to any one of claims 5 to 7, wherein the transfer medium (4) is a timing belt.