KR101980852B1 - Hemispherical variable sound measuring device - Google Patents

Abstract

The present invention relates to sound measuring device to obtain acoustic information, and more particularly, to a hemispherical variable sound measuring device, which has an improved frame assembly such that a movable frame equipped with acoustic measurement equipment can be adjusted to an arbitrary angle position through a guide to obtain acoustic information for the directivity and frequency characteristics of various musical instruments as well as speakers. The sound measuring device allows the movable frame provided on a support frame and having the acoustic measurement equipment to obtain acoustic information while being changed in angle with respect to a sound source. The movable frame includes a semicircular movable member having a ring shape and having a plurality of microphones for acoustic measurement provided at predetermined intervals. Both ends of the movable member are connected to a rotary shaft connected to an output shaft of a motor, which is able to rotate forward as a driving unit, and thus the movable member moves on a virtual hemispherical surface while rotating from left to right with both ends thereof as the center thereof. Thus, accurate acoustic information can be easily obtained by arbitrarily adjusting the angle and position of measurement equipment.

Description

Hemispherical variable sound measuring device

The present invention relates to a sound measuring device for acquiring sound information, the movable frame is equipped with a sound measurement equipment to obtain the sound information about the directivity and frequency characteristics of various instruments as well as the speaker is adjusted to any angle position through the guide A hemispherical variable acoustic measurement device having a frame assembly as improved as possible.

In general, a device or instrument that emits sound, such as a speaker, has a unique radiation pattern for each frequency, and the radiation pattern has a great influence on the occurrence of reflections or echoes in a performance hall, and for the instrument, the microphone's position and It provides important information on the direction, which has a profound effect on the quality of the sound.

Conventionally, an example of such an acoustic measuring apparatus takes the form of a hemisphere in Korean Patent No. 10-1255103 (Registed Date April 10, 2013), and the noise source placed on the horizontal floor is located in the inner center of the apparatus. Measuring the power of the sound generated from the noise source, taking the form of a ring of a constant diameter and the ring member in contact with the bottom and the noise source in the center and the lower end of the ring member fixed to the ring member A frame assembly including a plurality of supports curved toward the vertical top of the center of the circle and having a predetermined curvature, and a hub disk positioned at an upper end of the support and fixing an upper end of the support; A pointer for indicating a center point of the ring member by irradiating light vertically downward while being fixed to the hub disk; A plurality of microphones fixed to the respective supports so as to be adjustable in position and receiving noise generated from the noise source; Disclosed is a noise source sound power measuring apparatus, comprising a computer connected to each of the microphones and determining a power of sound generated from a corresponding noise source based on the sound pressure received from the microphone.

However, in the conventional patent technology, it is difficult not only to freely adjust the position of the microphone for measuring the noise to an arbitrary angle position, but also to adjust the height of the center point of the hemisphere, so that the effective response is difficult when the height of the measuring sound source is high. It is difficult to obtain more accurate acoustic information, and the structure of the support frame assembly is complicated, resulting in an increase in manufacturing cost.

Korean Patent Registration No. 10-1255103 (Registration date April 10, 2013)

An object of the present invention, in order to solve the above problems with the conventional acoustic measuring device, by moving the movable frame provided with a plurality of measuring equipment such as a microphone on a virtual semi-spherical surface improved frame to enable free positioning of the measuring equipment It is to provide a hemispherical variable acoustic measurement device having an assembly.

In order to achieve the above object, the hemispherical variable acoustic measuring device according to the present invention, the movable measuring device is installed in the support frame and equipped with the acoustic measuring device, the acoustic measuring device to obtain the acoustic information while changing the angle with respect to the sound source The movable frame includes a semicircular ring-shaped movable member provided with microphones for measuring a plurality of sounds at predetermined intervals, and both ends of the movable member are connected to a rotation shaft connected to an output shaft of a motor capable of forward and reverse rotation as a driving unit. The movable member is configured to be guided inside the ring-shaped guide member so as to move on the hemispherical surface while rotating left and right about both ends.

The guide member may have a guide groove formed on a bottom surface thereof, and a slide portion formed to protrude upward from an upper surface of the movable member may be disposed in the guide groove so that the movable member moves along the ring-shaped guide member.

The guide member is disposed to be orthogonal to the rotational direction of the movable member, the lower end of the ring-shaped circular lower portion is fixed to the edge of the support frame, and both sides are supported by the supporting member.

The movable member is provided with a fixing means for stably maintained at a predetermined angle position, the fixing means includes a tubular member provided with a curved surface irregularities formed on the inner side and provided on the lower end of the movable member, And a ball member that is elastically supported by a spring provided in a groove formed in the rotational shaft so as to elastically engage with the uneven portion formed on the inner side of the tubular member.

The frame assembly of the aberration type variable acoustic measurement device according to the present invention is a movable frame

It moves along the fixed frame but moreover on the hemispherical surface on the guide member. The angle and position of the measuring equipment can be freely adjusted to any position with respect to the noise source, so that more accurate sound information can be obtained easily in all directions. In addition, the movable frame installed with the measuring equipment can be rotated freely along the ring-shaped fixed frame of the semi-circle, thereby simplifying the structure, reducing the manufacturing cost and improving the operation reliability.

In addition, the sound measuring apparatus according to the present invention can provide the microphone installation position information in the venue to provide a realistic effect, such as listening to the performance sound at the venue when the viewer in the performance venue.

1 is a perspective view showing a schematic configuration of a frame assembly of a hemispherical variable acoustic measurement device according to the present invention.
2 is a front view of FIG. 1;
Figure 3 is a front view showing that the movable member is rotated to give a change in the microphone installation angle in FIG.
4 is a partially enlarged view showing an example of a connection structure in which the movable member is installed in the support frame.
Fig. 5 is a partial sectional view showing an example of a fixing structure for fixing the movable member in the rotated position.
6 is an exemplary view showing another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings showing an embodiment of a hemispherical variable acoustic measurement device according to the present invention will be described in more detail.

1 to 3, the hemispherical variable acoustic measurement apparatus according to the present invention is to support the movement of the support frame 1 and the movable frame 10, the drive unit 20 for driving the movable frame 10 and the movable frame. It includes a guide member 30 for guiding.

The support frame 1 includes a rectangular edge portion 2 and a plurality of vertical members 3 for supporting the edge portion.

The movable frame 10 includes a semi-circular ring-shaped movable member 11, and both ends of the movable member 11 include a rotation shaft 25 connected to an output shaft of the motor 20 capable of forward and reverse rotation as a driving unit. Connected, the movable member 11 may be rotated left and right about both ends by the driving of the motor. The motor is preferably a step motor so that the rotation angle can be arbitrarily set and rotated.

In addition, the movable member 11 is provided with microphones 12 as sound measuring equipment at predetermined intervals at predetermined intervals, so that the sound information can be simultaneously measured and compared at various heights. The sound generated from the sound generating device disposed in the virtual hemispherical space formed by the movable member 11 is converted into electric pulses, thereby obtaining information related to sound power by an analysis device not shown in the drawing. . As the acoustic measurement equipment, the plurality of microphones 12 are preferably installed to be changeable in position in the movable member 11 at predetermined predetermined intervals. To this end, the movable member 11 is preferably provided with a microphone installation point or a fixture at a predetermined interval in advance.

The movable member 11 is rotatably supported by being connected to the rotation shaft 25 connected to the output shaft of the motor 20 supported by the support member 21, but to maintain the rotation of the movable member 11 stably. The movable member 11 is preferably guided by the guide member 30 installed on the outside thereof.

The guide member 30 is disposed to be orthogonal to the rotational direction of the movable member 11. That is, it is arrange | positioned on the circumference of the direction orthogonal to the movable member 11 of the state arrange | positioned perpendicularly.

In addition, the guide member 30 has a lower end of the ring shape is disposed in the edge portion 2 of the support frame, the support member 31 is supported by both side portions stably. As shown in FIG. 4, the guide member 30 has a guide groove 34 formed in the longitudinal direction on the inner side thereof, such as a groove formed in the LM guide, and in the guide groove 34. The slide part 15 is formed to protrude upward from the upper surface of the movable member 11, so that when the movable member 11 rotates, as the slide portion 15 moves in the guide groove 34, the movable member ( 11) can be rotated stably along the guide member 30 to achieve the trajectory of the hemispherical surface.

In addition, it is preferable that a fixing means is provided so that the movable member 11 can be stably maintained at a predetermined angle position set in advance as shown in FIG. 3. The fixing means is provided with a tubular member (13) coupled to the rotating shaft (25) engaged with the output shaft of the motor at the lower end of the movable member (11), as shown in partial cross-sectional view in FIG. ) Is rotatably disposed on the rotating shaft 25 provided therein, the inner surface of the tubular member 13 is formed with a curved concave-convex portion 16, the concave-convex portion 16 is a spring (27) The ball member 28 has a structure in which the ball member 28 is disposed in the groove 29 formed in the rotational shaft 25 so as to be elastically engaged with each other. As a result, the movable member 11 has a lower end portion engaged with the concave-convex portion 16 of the tubular member 13 when the lower end of the movable member 11 rotates to be stably maintained at the rotational angle as shown in FIG. 3. It becomes possible.

As described above, the movable member 11 is rotated to form the trajectory of the hemispherical surface, and the sound is measured while installing different acoustic measuring equipment such as a plurality of microphones 12 installed in the guide member 30 at different heights. Since it is possible, the acoustic information can be accurately and easily obtained at various height positions and angles with respect to the sound generating position generated in the hemispherical space formed by the trajectory of the movable member 11.

When the sound information is relayed at the performance hall, the sound information may provide the microphone installation position information in the performance hall to provide a realistic effect such as listening to the performance sound at the performance hall. This sound information enables the construction of a video and sound transmission system integrated with a viewpoint, thereby reducing the cost of separately producing and transmitting images and sounds of different locations or viewpoints.

In addition, unlike the conventional passive viewing method, it is possible to simultaneously provide an optimal image and sound according to a parameter (space and viewpoint) designated by the user so that the user can actively enjoy content by selecting a location and a viewpoint. In addition, it implements 3D sound through 3D stereoscopic image and image selection and rendering of free-selection viewpoint, and enables the development of realistic media by developing realistic image and sound technology.

By acquiring such sound information, it can be applied to content that viewers want to see the desired point or location, such as stage performances, sports, games, etc., to enhance the sense of reality and reality, and allow the viewer to freely select the location and the point of view By allowing the video and sound of the viewer to be watched, it enables an active cultural life rather than the existing passive method.

Figure 6 is an exemplary view showing another embodiment of the present invention changes the structure to adjust the size of the hemisphere frame for measurement, that is, the diameter of the movable frame 10 is increased and decreased to be used to change the variable structure Can be.

For example, in the case of a general speaker, a hemisphere with a radius of 1 meter is used, and in the case of a large musical instrument or a large line array speaker, the movable frame 10, which is a measurement hemisphere, may be increased.

The variable structure may use a structure in which the movable frame 10 is divided into two and one side is inserted into the other, but the present invention is not limited to the variable structure of the movable frame 10.

The present invention can be used to provide a realistic sound information during the performance of the performance hall or game relay or content production in the stadium.

1: support frame 2: frame
3: vertical member 10: movable frame
11 movable member 12 microphone
13: tubular member 14: rotating shaft
15: slide portion 16: uneven portion
20: motor 27: spring
28: ball member 29: groove
30: guide member 34: guide groove

Claims (6)

In the acoustic measurement device installed in the support frame and the movable frame equipped with the acoustic measurement device to acquire the acoustic information while changing the angle with respect to the acoustic source,
The movable frame includes a semi-circular ring-shaped movable member in which a plurality of microphones for acoustic measurement are installed at predetermined intervals,
Both ends of the movable member are connected to a rotating shaft connected to the output shaft of the motor capable of forward and reverse rotation as a driving unit so that the movable member rotates from side to side about both ends to move on a virtual hemisphere, and further includes a ring-shaped guide member. Hemispherical variable acoustic measurement device, characterized in that made. delete The method of claim 1,
The guide member is formed with a guide groove on the bottom surface side, the guide groove is a slide portion formed to protrude upward from the upper surface of the movable member is arranged so that the movable member moves along the ring-shaped guide member Variable acoustic measuring device. The method of claim 1,
The guide member is disposed to be orthogonal to the rotational direction of the movable member, and the lower end is fixed to the edge of the support frame in the form of a ring-shaped circular lower portion, and both sides are supported by the supporting member. Hemispherical variable acoustic measuring device. The method of claim 1,
The movable member is provided with a fixing means to be stably maintained at a predetermined angular position, wherein the fixing means is provided with a tubular member and a tubular member provided with a curved concave-convex portion provided at a lower end of the movable member and formed on an inner surface thereof. And a ball member elastically supported by a spring provided in a groove formed in the rotational shaft to elastically engage with the uneven portion formed on the inner side. The method of claim 1,
Hemispherical variable acoustic measurement device, characterized in that the movable frame is increased and decreased in diameter.

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