KR102407173B1 - Sound field test system and Sound field test method using the same - Google Patents

Abstract

The present invention relates to a sound field inspection system, and more particularly, to a sound field inspection system in which the position and angle of a sound generating unit are adjusted.
The present invention, one or more sound generating unit 100 located in the pre-set test set positions (E1 ~ E6) from the position to be inspected (P) where the subject is located; A support unit 200 for supporting the sound generating unit 100 so that the test setting positions E1 to E6 of the sound generating unit 100 can be adjusted with respect to the test target of the examinee located at the inspected position P. Including, wherein the support unit 200, the sound generating unit ( Disclosed is a sound field inspection system, characterized in that it includes an azimuth adjustment support 210 for supporting 100).

Description

Sound field test system and sound field test method using the same {Sound field test system and Sound field test method using the same}

The present invention relates to a sound field inspection system, and more particularly, to a sound field inspection system in which the position and angle of a sound generating unit are adjusted.

The sound field test refers to a hearing test using a sound field test speaker at a predetermined distance, for example, 1 m in a soundproof booth.

In particular, since January 2020, sound field examination has become mandatory when prescribing hearing aids, and the necessity and importance of sound field examination is increasing.

However, in the conventional sound field inspection system for sound field inspection, the position of the sound generating unit (speaker) with respect to the subject is fixed, so the correct sound field inspection cannot be performed according to the sitting height, head size, ear height, ear direction, etc. of the subject. there was

In order to supplement this problem, a sound field inspection system as in Patent Document 1 has been proposed, but there is still a problem in that it is difficult to implement various sound field inspections because there is a limit in adjusting the number, position and direction of speakers.

(Patent Document 1) KR 10-1991425 B1

It is an object of the present invention to provide a sound field inspection system capable of providing various sound field inspection environments for sound field inspection subjects in order to solve the above problems.

The present invention was created in order to achieve the object of the present invention as described above, the present invention, one or more sound generating units located in the pre-set test set positions (E1 ~ E6) from the test position (P) where the subject is located (100) and; It includes a support unit 200 for supporting the sound generating unit 100 so as to enable the adjustment of the test setting positions E1 to E6 of the sound generating unit 100 for the subject to be inspected at the position to be inspected (P). , the support unit 200 is an azimuth adjustment support for supporting the sound generating unit 100 to enable adjustment of the azimuth angle θ of the sound generating unit 100 with respect to the inspected position P with respect to the inspected position P as a center. Disclosed is a sound field inspection system comprising (210).

The support unit 200 corresponds to the vertical height (H1) of the test target of the examinee located at the position to be inspected (P) to enable the adjustment of the vertical height (H2) of the sound generating unit 100 (100). It may further include a vertical height adjustment support 220 for supporting the.

The azimuth adjustment support unit 210 moves the sound generation unit 100 to adjust the azimuth angle θ of the sound generation unit 100 with respect to the position P to be examined, the movement trajectory P1 of the sound generation unit 100 ) can be set on a horizontal plane.

The movement trajectory P1 may have a circular or arc shape.

The sound field inspection system, the sensor unit 310 for detecting the relative position of the sound generating unit 100 with respect to the inspection target of the examinee located at the examination location (P); a control unit 320 for controlling the sound generating unit 100 to be located at the test setting positions E1 to E6 based on the result detected by the sensor unit 310; may additionally include.

The inspection setting positions E1 to E6 may be determined by at least one of an azimuth angle θ and a vertical height H2 of the inspection target position P.

The support unit 200 is a sound for adjusting the posture of the sound generating unit 100 by changing the sound output directions (A1 to A6) of the sound generating unit 100 for the test target of the examinee located at the inspected position (P). An output direction adjustment unit 230 may be further included.

The sound output direction adjustment unit 230, at least one of a yaw angle (Y) with a yaw axis perpendicular to the horizontal plane as a rotation axis and a pitch angle (P′) with a pitch axis perpendicular to the sound output direction and yaw axis as a rotation axis By changing the angle of the sound output direction of the sound generating unit 100 can be adjusted.

The sound field inspection system, the sensor unit 310 for detecting the relative position of the sound generating unit 100 with respect to the inspection target of the examinee located at the examination location (P); a control unit 320 for controlling the position and posture of the sound generating unit 100 with respect to the test target detected by the sensor unit 310; may additionally include.

The controller 320 may control the posture of the sound generating unit 100 by changing at least one of the yaw angle Y and the pitching angle P′ by the sound output direction adjusting unit 230 .

The sound field inspection system according to the present invention may further include a soundproofing booth 20 for preventing the sound generated by the sound generating unit 100 from leaking to the outside during the sound field inspection.

The soundproof booth may be formed by a plurality of walls 21 .

The sound field inspection method using the sound field inspection system according to the present invention detects the relative position of the sound generating unit 100 with respect to the inspection target of the examinee located at the inspected position (P) and pre-setting the sound generating unit 100 an adjustment step of adjusting the position of the sound generating unit 100 with respect to the test target to be located at the set test setting positions (E1 to E6); a test step of generating a sound from the sound generating unit 100 and performing a sound field test after the adjusting step; The relative position of the sound generating unit 100 includes an azimuth (θ) of the sound generating unit 100 with respect to the inspected position (P) with respect to the inspected position (P), and the adjusting step includes: It may include an azimuth adjustment step of adjusting the azimuth angle θ of the sound generating unit 100 .

The relative position of the sound generating unit 100 includes a vertical height H2 of the sound generating unit 100 corresponding to the vertical height H1 of the subject to be examined located at the inspected position P, and , The adjusting step may include a vertical height adjustment step of adjusting the vertical height H2 of the sound generating unit 100 corresponding to the vertical height H1 of the subject to be examined located at the position P to be examined. can

The relative position of the sound generating unit 100 is at least any one of a yaw angle (Y) and a pitching angle (P ′) of the sound generating unit 100 with respect to the test target of the examinee located at the inspected position (P). Including one angle, the adjusting step includes a sound output direction adjusting step of adjusting at least one of the yaw angle (Y) and the pitching angle (P′) of the sound generating unit 100 . can do.

The sound field inspection system according to the present invention has the advantage of providing various sound field inspection environments for sound field inspection subjects by configuring a sound generating unit such as a speaker to be movable along a movement trajectory of a circle or arc shape.

In addition, the sound field inspection system according to the present invention provides a more accurate sound field inspection by optimizing the sound field inspection preset according to the relative position and relative posture of the subject by installing the sound generator so that the inspection setting position and the sound output direction can be adjusted. There are possible advantages to this.

That is, the sound field inspection system according to the present invention adjusts the inspection setting position and sound output direction of the sound generator in consideration of the sitting height, head size, ear height, ear direction, etc. There are advantages to being able to do it.

In addition, in the sound field inspection system according to the present invention, by installing the sound generating unit so that the inspection setting position and the sound output direction can be adjusted, it is possible to perform more various sound field inspections by changing the sound generating unit to the inspection setting position and the sound output direction. There is an advantage.

In addition, in the sound field inspection system according to the present invention, by installing the sound generating unit so that the inspection setting position and the sound output direction can be adjusted, the multi-directional sound generating unit can be installed, so that only the sound of a specific direction is selectively output in various listening environments There is an advantage of providing a sound field inspection system that can do this.

In addition, the sound field inspection system according to the present invention further includes a sensor unit and a control unit for detecting the relative position and posture of the sound generating unit with respect to the subject and controlling the relative position and posture of the sound generating unit with respect to the subject, It is possible to automatically adjust the inspection setting position and sound output direction according to the conditions, so there is an advantage that the sound field inspection can be performed conveniently and quickly.

In addition, the sound field inspection system according to the present invention has the advantage of minimizing space restrictions by fixing the sound generating unit to the upper part.

1 is a bottom view showing a sound field inspection system according to the present invention.
FIG. 2 is a cross-sectional view taken in the I-I direction of FIG. 1 .
3 is a conceptual diagram showing an embodiment of the vertical direction adjustment unit.
4 is a conceptual diagram showing an embodiment of the sound output direction adjusting unit.
5 is a cross-sectional view of a modified example of the azimuth adjustment support unit.

Hereinafter, a sound field inspection system according to the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1, the sound field inspection system according to the present invention includes one or more sound generating units 100 located in preset inspection setting positions E1 to E6 from the inspection position P where the examinee is located; To include a support unit 200 for supporting the sound generating unit 100 so as to enable the adjustment of the test setting positions E1 to E6 of the sound generating unit 100 for the test subject of the examinee located at the inspected position (P). can

The one or more sound generating units 100 are configured to be located in preset examination setting positions E1 to E6 from the examination position P where the examinee is located, and various configurations are possible.

Here, the position P is a reference position for specifying the relative position of the sound generating unit 100 with respect to the subject, and is defined as a virtual setting position where the subject is located.

The test setting positions (E1 to E6) are positions set in advance from the position to be inspected (P), for example, 1 m horizontally from the subject located at the position to be inspected (P), the position to be inspected (P). It can be defined as a position that is 45° left and right with respect to the front.

That is, the inspection setting positions E1 to E6 may be defined as relative positions set by the horizontal distance (W), height (H), azimuth, etc. according to the sound field inspection with respect to the position to be inspected (P), and the inspection setting The number of positions (E1 to E6) may vary depending on the type of sound field test.

On the other hand, the horizontal distance (W) is defined as the horizontal distance between the location to be inspected (P) and the sound generating unit 100, and can be determined according to the type and type of sound field inspection, and is horizontal considering that it is 1 m in a general sound field inspection. The distance W may be set to 1 m.

The height (H) is defined as a vertical height of the sound generating unit 100 with respect to the ground, and may be determined according to the physical condition of the examinee, in particular, the height of the ear of the examinee located at the examination position (P).

The set number of the inspection setting positions (E1 to E6) is at least one or more. It may consist of one or more depending on the sound field test.

On the other hand, the sound generating unit 100 may be installed with a number corresponding to the set number of the inspection setting positions (E1 to E6), and to be installed equal to or larger than the installation number of the inspection setting position (E1 to E6) desirable.

The sound generating unit 100 is a component for generating sound for sound field inspection, and is composed of a so-called speaker, and may be configured to generate a pure tone in a range of 250 Hz to 8 kHz.

Meanwhile, the sound generating unit 100 may be disposed at each test setting position E1 to E6 according to the set number of the test setting positions E1 to E6, and for this purpose, it is preferable to install a plurality of them.

In this case, when a plurality of sound generating units 100 are installed, each sound generating unit 100 may be selectively operated according to a sound field test.

For example, only the sound generating unit 100 in a direction selected by the user from among the plurality of sound generating units 100 may operate to provide only a sound in a specific direction to the examinee.

The support unit 200 supports the sound generating unit 100 to enable adjustment of the test setting positions E1 to E6 of the sound generating unit 100 for the test target of the examinee located at the test position P. As a configuration, various configurations are possible depending on the support structure of the sound generating unit 100 and the movable structure of the sound generating unit 100 .

In particular, the sound generating unit 100 needs to be adjusted to correspond to the examination target of the examinee located at the examination location P, and thus the support unit 200 is the body condition of the examinee without changing the position of the examinee. In order to compensate for the difference in , and to change the position of the sound generating unit 100 according to the type of sound field effect, an azimuth angle adjustment support unit 210 capable of changing the position of the sound generating unit 100 may be further included.

The azimuth angle adjustment support unit 210 is configured to support the sound generating unit 100 so that the azimuth angle θ of the sound generating unit 100 can be adjusted with respect to the test target of the examinee located at the position to be inspected (P). Various configurations are possible.

Here, the examination target of the examinee located at the examination location P may be defined as the physical location of the examinee for the sound field examination.

Specifically, the examination target of the examinee located at the examination location P may be defined as the location of the examinee's head, ears, and the like.

At this time, the inspection target of the examinee located at the position P is defined as the position of the position specifying means capable of automatically measuring the relative distance between the sound generating units 100 and the orientation angle, etc. so that automatic measurement is possible by a sensor, etc. can be

The location specifying means is a means for automatically measuring the relative distance between the sound generating units 100, the orientation angle, etc., Bluetooth, Zigbee, ultrasonic module, etc. are installed, body wearable helmet, headband, It may be a hearing aid, etc.

Here, the subject's ears are composed of two, and the plurality of sound generating units 100 may have a relative distance, a directivity angle, and the like, adjusted according to the position of each ear to be examined.

On the other hand, the azimuth angle adjustment support unit 210 is a configuration for adjusting the azimuth angle (θ) of the sound generating unit 100 with respect to the examination target of the examinee located at the examination location (P), and various configurations are available depending on the implementation structure. It is possible.

As an embodiment, the azimuth angle adjustment support unit 210 may form a circle or arc shape with the movement trajectory P1 of the sound generating unit 100 for adjusting the azimuth angle θ of the sound generating unit 100 and , a configuration for implementing the movement trajectory P1 of the sound generating unit 100 may be configured as a guide rail as shown in FIG. 1 or FIG. 3 .

The guide rail provides a movement trajectory P1 through which the sound generating unit 100 can move, so that the azimuth θ of the sound generating unit 100 can be adjusted through the movement of the sound generating unit 100 .

And the guide rail, various configurations are possible depending on the support structure of the sound generating unit 100, as shown in FIG. It may consist of rails.

In particular, the azimuth angle adjustment support unit 210, as shown in FIG. 2, is installed to be supported on the ceiling to minimize the space occupied by the sound field inspection system.

In this case, the sound generating unit 100 may be supported and installed by a support rod installed to be movable along the guide rail.

On the other hand, the azimuth adjustment support unit 210 having the above configuration, as shown in FIG. 2, moves the sound generating unit 100 along the movement trajectory P1 of the sound generating unit 100 to perform an optimized test. it is possible to perform

In this case, the sound generating unit 100 may be connected to any part of the azimuth adjustment support unit 210 , such as an outer peripheral surface, an inner peripheral surface, an upper surface, a lower surface, or a central part of the azimuth adjustment support part 210 , and may be moved.

The azimuth angle θ may be defined as a horizontal rotation position of each inspection setting position E1 to E6 with a vertical axis of rotation from the position P to be inspected.

And the azimuth (θ) of the inspection setting positions (E1 to E6) of each sound generating unit 100 may be determined according to the number of installation of the sound generating unit 100, and each inspection setting position (E1 to E6) is, etc. In the case of forming an interval, it may be defined as 360°/n (n is a natural number of 2 or more, the installation number of the sound generating unit 100 ).

Specifically, the test setting positions E1 to E6 of each sound generating unit 100 are, as shown in FIG. 1 , E1 is 0°, E2 is 60°, E3 is 120°, E4 is 180°, E5 may have an azimuth angle θ of 240° and E6 of 300°.

Or, as in each general sound field test, when a part of the sound generating unit 100 is located at 45° left and right with respect to the front and rear of the subject, the test setting positions E1 to E6 of each sound generating unit 100 ), E1 may have an azimuth angle θ of 0°, E2 45°, E3 135°, E4 180°, E5 225°, and E6 315°.

The movement trajectory P1 is a trajectory of the sound generating unit 100 moving according to the test setting positions E1 to E6, and may be set as a movement trajectory of the sound generating unit 100 on a horizontal plane.

In addition, the movement trajectory P1 may have any trajectory as long as it is a trajectory that can be formed on a plane, and may have various shapes. As an example, it may have a circular shape as shown in FIG. 1 , and may have an arc shape as shown in FIG. 5 .

On the other hand, the relative position of the sound generating unit 100, ie, the installation height, needs to be adjusted according to the physical characteristics of the examinee located at the position P, that is, the height.

Accordingly, the support unit 200 supports the sound generating unit 100 so that the vertical height H2 of the sound generating unit 100 can be adjusted in response to the vertical height H1 of the test target located at the position to be inspected (P). It may further include a vertical height adjustment support 220 that.

The vertical height adjustment support unit 220 corresponds to the vertical height H1 of the position to be inspected (P) to support the sound generating unit 100 so that the vertical height H2 of the sound generating unit 100 can be adjusted. Various configurations are possible as a configuration.

In particular, the vertical height adjustment support unit 220 is a relative position of the sound generating unit 100 according to the physical characteristics of the examinee located at the position P, that is, the height, that is, the examination target of the examinee located at the position to be inspected (P). Since the vertical height H1 of the sound generator 100 and the vertical height H2 of the sound generator 100 are adjusted to be equal to each other, it is possible to enable more accurate sound field inspection.

For example, as shown in FIG. 3 , the vertical height adjustment support unit 220 is the vertical height H1 of the subject's ear located at the position P to be examined and the sound output portion of the sound generating unit 100 is vertical. The sound generating unit 100 may be adjusted by ΔH in the vertical direction so that the heights H2 correspond to each other.

In addition, the vertical height adjustment support unit 220, the vertical movement of the sound generating unit 100 can be configured in various ways depending on the implementation form, it can have a variety of structures such as a rod structure, a bellows structure.

Here, the vertical height (H2) of the sound generating unit 100 and the vertical height (H1) of the inspection object located at the position P to be inspected are heights to be horizontal with each other, and mean a height from the same reference, , the ceiling or the azimuth adjustment unit 210 may be a reference.

On the other hand, even if the sound generating unit 100 and the test target (such as the ear) of the examinee located at the position P are horizontal to each other, the physical characteristics of the examinee, for example, the shape and position of the auricle, etc. are dealt with each other and the sound field It is desirable to perform the examination by reflecting these physical characteristics.

Accordingly, the support unit 200 changes the sound output direction (A1 to A6) of the sound generating unit 100 for the test target of the examinee located at the test position (P) to change the posture of the sound generating unit 100 It may further include a sound output direction adjustment unit 230 to adjust.

The sound output direction adjustment unit 230, by changing the sound output direction (A1 ~ A6) of the sound generating unit 100 with respect to the test target of the examinee located at the position to be inspected (P), the sound generating unit 100 posture As a configuration for adjusting the , any configuration is possible as long as it is a configuration capable of changing the sound output direction of the sound generating unit 100 .

Here, the posture of the sound generating unit 100 is a relative state of the sound output direction with respect to the test target of the examinee located at the position to be inspected, and the position to be inspected from the sound output portion of the sound generating unit 100 is (P). It can be defined as a direction deviation between the reference direction toward the test target of the examinee located in the , and the sound output direction.

In addition, the sound output direction adjusting unit 230 may be configured to control the posture of the sound generating unit 100 so that the sound output direction coincides with the reference direction.

For example, as shown in FIG. 4 , the sound output direction adjusting unit 230 has a yaw angle (Y) with a yaw axis perpendicular to the horizontal plane as a rotation axis, and a pitching axis perpendicular to the sound output direction and the yaw axis as a rotation axis. It may be configured to adjust the sound output direction of the sound generating unit 100 by changing at least one of the pitching angles P'.

Specifically, the sound output direction adjustment unit 230 changes the sound output direction of the sound generating unit 100 by changing at least one of a yaw angle (Y) and a pitching angle (P'), thereby generating a sound generating unit ( 100), by adjusting the sound output direction, it is possible to output the sound in the direction to be inspected located at the position P to be inspected, thereby enabling more precise sound field inspection.

For example, as shown in FIG. 4 , the sound output direction adjusting unit 230 is adjusted by a deviation above the yaw angle (Y) and/or the pitching angle (P′) from the existing position, so that the sound output from the sound output unit It is possible to ensure that the output direction accurately reaches the test target of the examinee located at the examination position (P).

On the other hand, the yaw angle (Y) is an angle with the yaw axis perpendicular to the horizontal plane as the rotation axis, and the pitch angle (P') is defined as an angle with the pitch axis perpendicular to the sound output direction and the yaw axis as the rotation axis. Any aspect is possible as long as the sound output direction of the sound generating unit 100 is rotated in a direction that eliminates the deviation from the reference direction toward the inspection object.

And the reference direction is defined as a direction from the sound output part of the sound generating unit 100 toward the examination target of the examinee located at the examination location P, and at the examination location P such as ears, head, helmet, hearing aid, etc. It may be determined according to the specificity of the subject to be examined.

On the other hand, in the sound field inspection system according to the present invention, the position and/or posture of the sound generating unit 100 can be automatically controlled. a sensor unit 310 for detecting the relative position of (100); a control unit 320 for controlling the position and/or posture of the sound generating unit 100 with respect to the test target detected by the sensor unit 310; may additionally include.

The sensor unit is a configuration for detecting the relative position of the sound generating unit 100 with respect to the examination target of the examinee located at the examination position P, and specifically, the horizontal distance of the sound generating unit 100 with respect to the examination object. Any configuration is possible as long as it can detect relative positions such as , height, and angle.

In particular, in the sensor unit 310 , the measuring principle of the sensor unit 310 may vary according to the specificity of an object to be tested, such as an examinee's ear, head, helmet, and hearing aid.

For example, the sensor unit 310 may be configured with one or more sensors for distance measurement and location specification, and various types of sensors such as a camera, an infrared sensor, and an ultrasonic sensor may be used.

The control unit 320 is a configuration for controlling the position and/or posture of the sound generating unit 100 with respect to the inspection target detected by the sensor unit 310, and various configurations are possible depending on the control contents.

Here, the control unit 320 is a circuit configuration for controlling the position and/or posture of the sound generator 100 rather than a physical configuration, and may be configured as a control circuit or the like.

And the position of the sound generating unit 100 is a horizontal distance (W) from the examination target of the examinee located at the examination position (P), the relative vertical height (W) of the examinee located at the examination position (P) to the examination object ( H), it may include a rotation angle (θ) in the horizontal direction of the test target of the examinee located at the examination position (P).

And the posture of the sound generating unit 100 is a directional deviation between the reference direction from the sound output part of the sound generating unit 100 toward the test target of the examinee located at the test position P, and the sound output direction, At least one of the yaw angle Y and the pitch angle P′ described above may be included.

Meanwhile, the sound field inspection system according to the present invention may further include a soundproofing booth 20 for preventing the sound generated by the sound generating unit 100 from leaking to the outside during the sound field inspection.

The soundproof booth 20 may be formed by a plurality of walls 21, and the sound field inspection system of the above-described structure is installed therein, and the size, shape and material thereof may vary.

For example, the soundproof booth 20 may have any shape used for the booth, such as a cuboid or a cube, and may have any size installed indoors or outdoors, and preferably has a horizontal and vertical length of 1±0.2 m. can be

In addition, the wall 210 of the soundproof booth 20 may include a plurality of suction materials, and may have walls of various materials such as sponge, gypsum, rubber, and wood.

Hereinafter, in the sound field inspection method according to the present invention, the sound generating unit 100 and the supporting unit 200, in particular the supporting unit 200, are the azimuth adjustment support unit 210 and the vertical height adjustment support unit 220 and the sound output direction adjustment unit 230. Disclosed is a sound field inspection method using a sound field inspection system comprising at least one of.

In particular, the sound field inspection method according to the present invention is suitable for convenient and precise sound field inspection by adjusting the position and posture of the sound generating unit 100 without changing the position and posture of the subject.

Specifically, the sound field inspection method according to the present invention detects the relative position of the sound generating unit 100 with respect to the test target of the examinee located at the inspected position P, and performs a preset inspection of the sound generating unit 100 an adjustment step of adjusting the position of the sound generating unit 100 with respect to the test target so as to be located at a set position (E1 to E6); After the adjusting step, the sound generating unit 100 may include a test step of generating a sound to perform a sound field test.

Here, the adjustment step detects the relative position of the sound generating unit 100 with respect to the test target of the examinee located at the inspected position (P) and sets the sound generating unit 100 to a preset inspection setting position (E1 to E6). As a step of adjusting the position of the sound generating unit 100 with respect to the inspection object to be located at

The relative position of the sound generating unit 100 is located at the azimuth θ of the sound generating unit 100 with respect to the inspected position P or the inspected position P around the inspected position P. Corresponding to the vertical height (H1) of the test subject of the examinee, the sound generating unit 100 for the test subject located at the vertical height (H2) of the sound generating unit 100 or the test position (P) of the It may be determined by at least one of the yaw angle (Y) and the pitch angle (P').

That is, the adjusting step corresponds to the azimuth angle adjusting step of adjusting the azimuth angle θ of the sound generating unit 100 and the vertical height H1 of the subject to be examined located at the location P to generate the sound. A vertical height adjustment step of adjusting the vertical height (H2) of the unit 100 and the sound of adjusting at least one of the yaw angle (Y) and the pitching angle (P') of the sound generating unit 100 It may include at least any one of the output direction adjustment step.

On the other hand, the relative position of the sound generating unit may be detected by the user and adjusted to the preset test setting positions E1 to E6, but it is detected by the sensor unit 310 and the control unit 320 and the sound generating unit 100 ) may be automatically adjusted to be set to a preset inspection setting position (E1 to E6) or to an inspection target direction (A1 to A6).

This is when the sensor unit 310 detects the relative position of the sound generating unit 100 with respect to the examination target of the examinee located at the examination position P, and the control unit 320 detects the examination object detected by the sensor unit 310 . It is adjusted by controlling the position or posture of the sound generating unit 100 with respect to the .

Specifically, in the automatic adjustment of at least one of the position and posture of the sound generating unit 100, the sensor unit 310 uses a camera, infrared rays, ultrasonic waves, etc. to detect the position and posture, and the result detected by the sensor unit 310 is transmitted to the control unit 320, and the control unit 320 uses a computer program such as a control circuit to locate the sound generating unit 100. The optimal inspection target position (E1 ~ E6) or inspection target direction (A1 ~ A6) that should be This may be performed by adjusting the sound generating unit 100 so that at least one of positioning and direction setting is performed.

On the other hand, in light of generally performing sound field tests before and after wearing a hearing aid, the adjustment step and the test step of the present invention may be repeated at least once.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea accompanying the fundamental are all included in the scope of the present invention.

100: sound generation unit 200: support unit
210: azimuth adjustment support part

Claims (15)

At least one sound generating unit 100 located in the pre-set test setting positions (E1 ~ E6) from the position to be inspected (P) where the subject is located;
A support unit 200 for supporting the sound generating unit 100 so that the test setting positions E1 to E6 of the sound generating unit 100 can be adjusted with respect to the test target of the examinee located at the inspected position P. includes,
The support 200,
An azimuth adjustment support unit 210 for supporting the sound generating unit 100 so that the azimuth angle θ of the sound generating unit 100 with respect to the inspected position P can be adjusted with respect to the inspected position P as a center. includes,
The support 200,
A sound output direction adjusting unit for adjusting the posture of the sound generating unit 100 by changing the sound output directions A1 to A6 of the sound generating unit 100 with respect to the test target of the examinee located at the inspected position P (230) further comprising,
The sound output direction adjustment unit 230,
At least one of a yaw angle (Y) with a yaw axis perpendicular to a horizontal plane as a rotation axis and a pitch angle (P′) with a pitch axis perpendicular to the sound output direction and the yaw axis as a rotation axis is changed to produce the sound. Adjusts the sound output direction of the generator 100,
sound field inspection system,
a sensor unit for detecting the relative position of the sound generating unit 100 with respect to the examination target of the examinee located at the examination location (P);
a control unit for controlling the position and posture of the sound generating unit 100 with respect to the test target detected by the sensor unit; In addition, it includes
The control unit, the sound field, characterized in that by changing at least one of the yaw angle (Y) and the pitching angle (P') by the sound output direction adjusting unit 230 to control the posture of the sound generating unit 100 inspection system. The method according to claim 1,
The support 200,
Corresponding to the vertical height (H1) of the test target of the examinee located at the position to be examined (P) to support the sound generating unit 100 so that the vertical height (H2) of the sound generating unit 100 can be adjusted. Sound field inspection system, characterized in that it further comprises a vertical height adjustment support (220). The method according to claim 1,
The azimuth angle adjustment support unit 210,
The movement trajectory P1 of the sound generating unit 100 is on a horizontal plane so that the sound generating unit 100 can be moved to adjust the azimuth θ of the sound generating unit 100 with respect to the position P to be inspected. Sound field inspection system, characterized in that set in. 4. The method according to claim 3,
The movement trajectory (P1) is a sound field inspection system, characterized in that it has a circular or arc shape. 5. The method according to any one of claims 1 to 4,
The control unit is
a control unit for controlling the sound generating unit 100 to be located at the test setting positions (E1 to E6) based on the result detected by the sensor unit; Sound field inspection system, characterized in that it further comprises. 6. The method of claim 5,
The test set position (E1 ~ E6) is a sound field inspection system, characterized in that determined by at least one of the azimuth (θ) and the vertical height (H2) of the inspection target position (P). delete delete delete delete 5. The method according to any one of claims 1 to 4,
The sound field inspection system, characterized in that it further comprises a soundproof booth (20) for preventing the sound generated by the sound generating unit (100) from leaking to the outside during the sound field inspection. 12. The method of claim 11,
The sound-proof booth, a sound field inspection system, characterized in that formed by a plurality of walls (21). a sensor unit for detecting the relative position of the sound generating unit 100 with respect to the examination target of the examinee located at the examination location (P); A sound field inspection method using the sound field inspection system according to claim 1, comprising a control unit for controlling the sound generating unit 100 to be located in the inspection setting positions (E1 to E6) based on the result detected by the sensor unit,
The sensor unit detects the relative position of the sound generating unit 100 with respect to the test target of the examinee located at the inspected position P, and sets the sound generating unit 100 to preset test setting positions (E1 to E6). an adjustment step of adjusting the position of the sound generating unit 100 with respect to the test target through the control unit so as to be located in the ;
a test step of generating a sound from the sound generating unit 100 after the adjusting step to perform a sound field test;
The relative position of the sound generating unit 100 includes an azimuth (θ) of the sound generating unit 100 with respect to the inspected position (P) with respect to the inspected position (P),
The adjusting step includes an azimuth angle adjusting step of adjusting the azimuth (θ) of the sound generating unit (100). 14. The method of claim 13,
The relative position of the sound generating unit 100 includes a vertical height H2 of the sound generating unit 100 corresponding to the vertical height H1 of the subject to be examined located at the inspected position P, and ,
The adjustment step is
A sound field comprising a vertical height adjustment step of adjusting the vertical height (H2) of the sound generating unit (100) corresponding to the vertical height (H1) of the test target of the examinee located at the test location (P) method of inspection. 15. The method according to any one of claims 13 to 14,
The relative position of the sound generating unit 100 is at least any one of a yaw angle (Y) and a pitching angle (P') of the sound generating unit 100 with respect to the test target of the examinee located at the test position (P). contains one angle,
The adjustment step is
and a sound output direction adjustment step of adjusting at least one of the yaw angle (Y) and the pitching angle (P') of the sound generator (100).

Images