KR101581020B1 - Jig for measuring acoustical characteristics of receiver - Google Patents

Abstract

The present invention relates to a jig for measuring sound characteristics of a receiver which converts an electronic signal into a sound signal. More particularly, the present invention relates to a jig for measuring sound characteristics of a receiver which is additionally installed in an artificial ear and provides a measurement space, relatively larger than a measurement space of the artificial ear, according to operation of an opening and closing valve, and thus enables a user to measure all sound characteristics including frequency response characteristics, distortion characteristics, and abnormal sound and so on with one artificial ear. According to the present invention, the jig for measuring sound characteristics of a receiver comprises: an ear piece which is installed in the artificial ear having a first measurement space, formed on an upper portion thereon to correspond to the inside of an ear of a human body, and a microphone installed in the first measurement space, is separably installed on an upper portion of the artificial ear to enclose the first measurement space, has a mount hole punched to mount the receiver on one side of an upper surface thereof, and has an opening and closing hole punched on the other side of the upper surface thereof; a casing which is installed to include the opening and closing hole on the upper surface of the artificial ear and has a second measurement space, which is relatively larger than the first measurement space and formed therein; a connection terminal which is installed on the inside of the casing and comes in contact with an input terminal of the receiver; and an opening valve which is connected to a first cylinder, installed in the casing and makes the first measurement space and the second measurement space communicate with each other or be separated from each other by opening or closing the opening and closing hole according to operation of the first cylinder.

Description

[0001] The present invention relates to a jig for measuring acoustical characteristics of a receiver,

The present invention relates to a jig for measuring an acoustic characteristic of a receiver that converts an electronic signal into an acoustic signal, and more particularly, to a jig provided with an artificial ear to provide a measurement space relatively larger than a measurement space of an artificial ear To a jig for measuring the acoustic characteristics of a receiver that enables measurement of both the frequency response characteristics of the receiver and the acoustic characteristics including the distortion characteristics and the abnormal sounds.

Generally, a receiver is a micro acoustic device which is installed in a mobile phone, an earphone, a headphone, a notebook, an MP3 player, etc. and converts an electric signal into an acoustic signal. Unlike a general speaker, Is a structure that reproduces sound waves with small output by giving mechanical vibration to the diaphragm.

These receivers are very sensitive acoustic devices that convert electrical signals to acoustic signals, so they can not be used if there are any problems with the output acoustic signals. Therefore, in order to identify defective products that have abnormalities in the sound signal after mass production, the receiver is designed to measure acoustic characteristics including frequency response, total harmonic distortion, and rub and buzz. .

When measuring the frequency response and the distortion characteristics of the receiver, a measurement space equivalent to the internal structure of the human ear is provided for measuring the sound in the same condition as the sound felt by the human according to the structure of the receiver, (Ear simulator) with a built-in microphone instead of a microphone.

On the other hand, the abnormal sound of the receiver occurs when the entire diaphragm does not move equally, or when the amplitude of the diaphragm excessively collides with the diaphragm, resulting in an abnormal sound.

However, when the artificial ear is used to measure the abnormal sound of the receiver, the diaphragm of the receiver does not move properly due to the internal pressure generated in the limited measurement space of the artificial ear, Since the sensitivity is very low, there is a limitation that the artificial ear can not properly measure the abnormal sound of the receiver.

In the case of measuring the abnormal sound of the receiver due to the limit of the artificial ear described above, it is possible to test whether an abnormal sound occurs by driving the receiver in a state where the expert is slightly away from the ear in the open space without using the artificial ear, The registered test box (Patent Registration No. 10-1163945) is used to check whether an abnormal sound occurs.

That is, since the test box is provided with a sufficient measurement space in a sealed state, the diaphragm of the receiver smoothly moves and the abnormal sound is generated properly, so that the abnormal sound detection sensitivity of the receiver can be measured as shown in FIG.

Therefore, in order to measure the frequency response characteristics, distortion characteristics, and anomalies of the receiver, it is necessary to use both the artificial ears and the test box to measure them. Therefore, the measurement operation is very troublesome and inconvenient and requires a long measurement time. There is a problem that the equipment cost also increases.

Korean Patent Registration No. 10-1163945, Jul. 6,

The present invention was invented to overcome the above-described problems, and it is an object of the present invention to provide a method and apparatus for measuring an acoustic characteristic including a frequency response characteristic, a distortion characteristic and an abnormal sound of a receiver by using an artificial ear, And it is an object of the present invention to provide a jig for measuring the acoustic characteristics of a receiver having a structure that can be reduced.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

In order to achieve the above object, a jig for measuring an acoustic characteristic of a receiver according to the present invention comprises a jig having a first measurement space corresponding to the inside of the ear of a human body at an upper portion thereof and an artificial ear provided with a microphone at an inner side of the first measurement space An earpiece detachably coupled to an upper portion of the artificial ear such that the first measurement space is closed, a seat hole through which the receiver is seated on one side of the upper surface, and an opening / closing hole formed on the other side of the upper surface; A casing enclosing the opening and closing hole on the upper side of the artificial ear and having a second measurement space formed therein, the second measurement space being relatively larger than the first measurement space; A connection terminal provided inside the casing and contacting the input terminal of the receiver; And an open / close valve connected to a first cylinder provided in the casing to open or close the open / close hole according to the operation of the first cylinder to communicate or isolate the first measurement space and the second measurement space .

Wherein the casing comprises: a base plate provided on the upper side of the artificial ear; And a soundproof cover detachably installed on the upper portion of the receiving plate to form the second measuring space between the receiving plate and the receiving plate.

And a sealing member installed on the upper surface of the support plate or along the lower surface of the soundproof cover to seal a gap between the support plate and the soundproof cover to seal the second measurement space.

And the soundproof lid is connected to a second cylinder fixedly supported on the external structure and is opened above the support plate according to the operation of the second cylinder.

And the connection terminal is built in a spring and is elastically contacted by the spring when the connection terminal contacts the input terminal of the receiver.

And the opening and closing valve and the sealing member are made of a silicon material.

According to the present invention, a casing for additionally providing a measurement space is provided on the upper part of the artificial ear, and the operation of the open / close valve for communicating or isolating the measurement space of the casing and the measurement space of the artificial ear, It is possible to measure both the response characteristics, the distortion characteristics, and the acoustic characteristics including the abnormal sound, thereby greatly reducing manpower, time and cost required for measuring the acoustic characteristics of the receiver.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exemplary view showing a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention. Fig.
2 is an exemplary view showing a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention.
3 is a graph showing detection sensitivity when measuring a frequency response of a receiver through a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention.
FIG. 4 is a graph showing detection sensitivity when measuring a distortion characteristic of a receiver through a jig for measuring an acoustic characteristic of a receiver according to a preferred embodiment of the present invention. FIG.
5 is a graph showing detection sensitivity when measuring an abnormal tone of a receiver through a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention.
FIG. 6 is a graph showing the detection sensitivity when measuring the abnormal tone of the receiver through the artificial ear. FIG.
FIG. 7 is a graph showing detection sensitivity when measuring an abnormal tone of a receiver through a test box; FIG.

The jig for measuring an acoustic characteristic of a receiver according to the present invention is additionally provided to an artificial ear so that an acoustic characteristic of a receiver can be measured through an ear simulator, And a signal measuring device for receiving a sound signal from a receiver through a microphone of an artificial ear while being outputting a driving signal to the receiver.

In particular, the jig for measuring the acoustic characteristics of the receiver according to the present invention can measure both the frequency response, the total harmonic distortion, and the abnormal sound (Rub and Buzz), which are the acoustic characteristics of the receiver, .

This feature provides a measurement space that is relatively larger than the measurement space of the artificial ear according to the operation of the opening / closing valve, so that the abnormal sound of the receiver, which requires a relatively wide measurement space as well as the frequency response and distortion characteristics of the receiver, This is achieved by a measurable structure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a jig for measuring an acoustic characteristic of a receiver according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exemplary view showing a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention, FIG. 2 is an exemplary view illustrating a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention, FIG. 3 is a graph showing detection sensitivity when measuring a frequency response of a receiver through a jig for measuring an acoustic characteristic of a receiver according to a preferred embodiment of the present invention. FIG. 4 is a graph illustrating sensitivity of the receiver for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention. FIG. 5 is a graph showing detection sensitivity when measuring an anomalous sound of a receiver through a jig for measuring acoustic characteristics of a receiver according to a preferred embodiment of the present invention. FIG. 5 is a graph showing detection sensitivity in measuring distortion characteristics of a receiver through a jig.

1 and 2, the jig 100 for measuring acoustic characteristics of a receiver according to the preferred embodiment of the present invention includes an ear piece 20, a casing 30, a connection terminal 40, and an on / off valve 50, As shown in FIG.

First, the earpiece 20 is detachably mounted on the artificial ear 10 so that a receiver R for measuring acoustic characteristics is seated on one side of the upper surface, and the other side of the casing 30 2 measurement space 33 and the first measurement space 11 of the artificial ear 10 are communicated with each other.

To this end, the ear piece 20 has a shape that can be coupled to the upper part of the artificial ear 10, and a seating hole 21 in which the receiver R is seated is formed at one side of the upper face, It is preferable that the open / close hole 22 for communicating the measurement space 33 with the first measurement space 11 of the artificial ear 10 is formed in a pierced manner.

Here, the receiver R is a target to measure acoustic characteristics. The receiver R generates a small output acoustic signal by vibrating the diaphragm (not shown) according to an electric signal input from the outside. The receiver R includes a pair of input terminals (T) is exposed to the outside and the diaphragm is installed inside.

The artificial ear 10 has a structure corresponding to the ear structure of the human body and has a first measurement space 11 corresponding to the inner ear of the human body at the upper portion and a microphone 11 (12). In this case, the first measurement space 11 is formed in an open top shape, so that the sealed state is maintained by the ear piece 20 when the ear piece 20 is installed on the ear 10.

Therefore, in order to measure the acoustic characteristics of the receiver R, the ear piece 20 is installed on the upper part of the artificial ear 10 so that the first measurement space 11 is closed and the seating hole 21 of the ear piece 20 is closed. The input terminal T of the receiver R is connected to the computer 70 so as to receive a sound signal of the receiver R while outputting a driving signal to the receiver R in a state in which the receiver R is seated on the receiver R, And the microphone 12 of the artificial ear 10 may be connected to the input terminal 62 of the signal measuring instrument 60. In this case,

Next, the casing 30 is provided on the upper side of the artificial ear 10 to provide a second measurement space 33, which is relatively larger than the first measurement space 11 of the artificial ear 10.

That is, the casing 30 has a first measurement space 11 (see FIG. 11) of the artificial ear 10 so as to measure an anomaly that can not be measured when the measurement space of the receiver R is insufficient, ) And a second measurement space (33) larger than the first measurement space (33).

For this purpose, the casing 30 is provided with an opening / closing hole 22 on the upper side of the artificial ear 10 and is provided with a second measurement (hereinafter, referred to as a second measurement) relatively larger than the first measurement space 11 of the artificial ear 10 It is preferable that a space 33 is formed.

The casing 30 includes a support plate 31 provided on the upper side of the artificial ear 10 and a second measurement space 33 provided between the support plate 31 and the support plate 31 removably mounted on the support plate 31. [ And a soundproof cover 32 for forming a soundproof cover.

That is, the casing 30 separates the soundproof lid 32 covering the floor plate 31 so that the receiver R can be seated in the seating hole 21 of the earpiece 20, 31 and a sound-proof cover 32. The sound-

The second cylinder 35 fixed to the external structure 34 is connected to the upper end of the soundproof lid 32 so that the soundproof lid 32 is moved upward of the receiving plate 31 according to the operation of the second cylinder 35 Can be automatically opened and closed.

However, the soundproof cover 32 is covered on the upper surface of the support plate 31 or the lower surface of the soundproof cover 32 so that no external noise is introduced into the second measurement space 33 while the soundproof cover 32 is covered with the support plate 31. [ It is preferable that a sealing member 36 for closing and sealing the gap between the soundproof cover 32 and the soundproof cover 32 is provided.

The sealing member 36 is preferably made of a silicone material or the like that exhibits excellent adhesion so that external noise can be reliably blocked by tightly covering a gap between the receiving plate 31 and the soundproof cover 32.

The connection terminal 40 is disposed inside the casing 30 to connect the input terminal T of the receiver R to the output terminal 61 of the signal measuring device 60. [

The connection terminal 40 is vertically disposed inside the soundproof cover 32 so as to be in contact with the input terminal of the receiver R placed in the seating hole 21 of the earpiece 20 when the soundproof cover 32 is closed And it is preferably provided at the end of the installed supporting body 41.

At this time, the connection terminal 40 is desirably constructed to have a length sufficient to allow a clearance contact with the input terminal T of the receiver R when the soundproof cover 32 is closed. The end of the connection terminal 40 may be provided with a spring (not shown) having a connection terminal tip (not shown) so as to protrude downward so as to reliably contact the input terminal () of the receiver R .

Finally, the on-off valve 50 is installed on the casing 30 to open and close the opening / closing holes of the ear piece 20. [

That is, when measuring the frequency response characteristics and the distortion characteristics of the acoustic characteristics of the receiver R placed in the seating hole 21 of the earpiece 20, the opening and closing valve 50 Closing the hole 22 of the earpiece 20 to measure the abnormal sound requiring only the first measurement space 11 of the artificial ear 10 and requiring a sufficient measurement space, 10 and the second measurement space 33 of the casing 30 at the same time.

In other words, the opening / closing valve 50 is provided in the first measurement space 11 of the artificial ear 10 and the second measurement space 11 of the casing 30 so that the abnormal sound of the receiver R can be measured even through the artificial ear 10. [ Thereby ensuring a sufficient measurement space for measuring the abnormal sound.

The opening and closing valve 50 is connected to the end of the first cylinder 51 provided in the casing 30 and has a shape corresponding to the opening and closing hole 22 of the earpiece 20, It is preferable that the opening and closing hole 22 can be opened or closed while vertically rising or falling depending on the operation.

However, it is preferable that the opening / closing valve 50 is made of a silicone material or the like having excellent adhesion so that the opening / closing valve 50 can be closed in a state of being closed securely when the opening / closing hole 22 of the earpiece 20 is closed.

Therefore, by measuring the frequency response characteristics and the distortion characteristics of the receiver R while using only the first measurement space 11 of the ear piece 20 by closing the opening / closing valve 50, The measurement results of FIGS. 3 and 4 in which the detection sensitivity appears can be obtained.

When the open / close valve 50 is opened to measure the abnormal sound of the receiver R while simultaneously using the first measurement space 11 and the second measurement space 33 of the earpiece 20, a conventional test box is used The measurement result shown in Fig. 5 in which the detection sensitivity equivalent to that obtained by measuring the abnormal sound of the receiver R (Fig. 6) is obtained.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

100: Jig for measurement of acoustic characteristics of receiver
10: artificial ear
11: first measuring space
12: microphone
20: Earpiece
21: Seated hole
22: opening / closing hole
30: casing
31:
32: Soundproof cover
33: second measurement space
34: External structure
35: second cylinder
36: sealing member
40: Connection terminal
41: Support
50: opening / closing valve
51: first cylinder
60: Signal Meter
61: Output terminal
62: Input terminal
70: Computer
R: Receiver
T: Input terminal

Claims (6)

A first measurement space corresponding to the inside of the ear of the human body is formed on the upper part and an artificial ear provided with a microphone on the inside of the first measurement space,
Wherein the first measurement space is detachably coupled to an upper portion of the artificial ear so that the first measurement space is hermetically sealed, a seating hole in which a receiver is seated on one side of the upper surface is perforated, and an opening and closing hole is formed in the other side of the upper surface;
A casing enclosing the opening and closing hole on the upper side of the artificial ear and having a second measurement space formed therein, the second measurement space being relatively larger than the first measurement space;
A connection terminal provided inside the casing and contacting the input terminal of the receiver; And
And an opening / closing valve connected to the first cylinder provided in the casing and opening / closing the opening / closing hole according to the operation of the first cylinder to open or close the first measuring space or the second measuring space. A jig for measuring the acoustic characteristics of the receiver. The method according to claim 1,
The casing
A base plate provided above the artificial ear; And
And a soundproof cover detachably installed on an upper portion of the receiving plate to form the second measuring space between the receiving plate and the receiving plate. 3. The method of claim 2,
And a sealing member for sealing the second measurement space by covering a gap between the support plate and the soundproof cover, the seal member being installed on the upper surface of the support plate or along the lower surface of the soundproof lid to seal the second measurement space. Jig for measuring characteristics. The method according to claim 2 or 3,
The sound-
Wherein the jig is connected to a second cylinder fixedly supported on the outer structure and opened upwardly of the receiving plate according to the operation of the second cylinder. The method according to claim 1,
The connection terminal
Wherein a spring is built in the inside of the jig and is elastically contacted by the spring when coming into contact with the input terminal of the receiver. The method of claim 3,
The opening / closing valve and the sealing member
Wherein the jig is made of a silicon material.

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