CN112165679B - Earphone testing device and equipment - Google Patents
Earphone testing device and equipment Download PDFInfo
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- CN112165679B CN112165679B CN202011033058.8A CN202011033058A CN112165679B CN 112165679 B CN112165679 B CN 112165679B CN 202011033058 A CN202011033058 A CN 202011033058A CN 112165679 B CN112165679 B CN 112165679B
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- 238000012360 testing method Methods 0.000 title claims abstract description 79
- 230000017525 heat dissipation Effects 0.000 claims description 29
- 238000001125 extrusion Methods 0.000 claims 7
- 238000012423 maintenance Methods 0.000 abstract description 7
- 238000003825 pressing Methods 0.000 description 28
- 230000000903 blocking effect Effects 0.000 description 11
- 238000000034 method Methods 0.000 description 8
- 230000008878 coupling Effects 0.000 description 3
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 238000011056 performance test Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000009467 reduction Effects 0.000 description 2
- 230000005236 sound signal Effects 0.000 description 2
- 230000008859 change Effects 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000002955 isolation Methods 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R29/00—Monitoring arrangements; Testing arrangements
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Abstract
The application provides an earphone testing device and equipment. The earphone testing device comprises a base and a shell assembly; the shell assembly comprises a first shell, a second shell, a shell connecting shaft and a driving piece, wherein the first shell is connected with the base, the first shell is also connected with the shell connecting shaft, and the second shell is rotationally connected with the shell connecting shaft; the driving piece includes driving motor, drive telescopic link and slide bar, and driving motor is connected with first shell, and driving motor's output is connected with drive telescopic link, and drive telescopic link still with sliding rod connection, the arc spout has been seted up to the second shell, the slide bar slides and sets up in the arc spout. Through setting up the arc spout on the second shell for the slide bar slides in the arc spout, driving motor's output only controls the flexible of drive telescopic link, has simplified driving motor's drive mode, has reduced driving motor's structural complexity, thereby has reduced driving motor's the maintenance degree of difficulty, and then has reduced earphone testing arrangement's test cost.
Description
Technical Field
The invention relates to the technical field of earphones, in particular to an earphone testing device and equipment.
Background
With the rise of mobile phones, tablets and various portable electronic devices with video and audio playing functions, more and more consultation and information are received by people in large quantities, for example, when waiting for buses and subways, various audio and video are obtained by wearing earphones, and in most cases, people tend to use the earphones to communicate telephone voice, so that the individual privacy can be protected, and other people in public places can not be influenced. In public places, because of more noise outside, the required audio signal can be acquired by using an earphone with an active noise reduction function.
For noise reduction type earphones, the condition of a test result determines the good rate of the earphones in the last test stage of the production process. When the earphone is subjected to acoustic testing, the traditional acoustic testing machine needs to open two closed shells through the air cylinder, and the two shells are opened and closed in a rotating mode so as to place or take out the earphone.
However, the cylinder used by the traditional acoustic testing machine is composed of two parts, one of which is a telescopic cylinder and the other is a rotary cylinder, and the structure of the cylinder is complex, the maintenance difficulty is high, so that the manufacturing cost of the acoustic testing machine of the earphone is high, and the testing cost of the earphone is high.
Disclosure of Invention
The invention aims to overcome the defects in the prior art and provides an earphone testing device and equipment for reducing the complexity of a driving mechanism.
The purpose of the invention is realized by the following technical scheme:
an earphone testing device comprising: a base and a housing assembly; the base is provided with an operation inclined plane, and a first button and a second button are arranged on the operation inclined plane; the shell assembly comprises a first shell, a second shell, a shell connecting shaft and a driving piece, the first shell is connected with the base, the first shell is further connected with the shell connecting shaft, the second shell is rotatably connected with the shell connecting shaft, the first shell is provided with a first opening, the second shell is provided with a second opening, the opening direction of the first opening is opposite to the opening direction of the second opening, an earphone accommodating space is formed in the first shell and the second shell, and the earphone accommodating space is used for accommodating an earphone to be tested; the driving piece includes driving motor, drive telescopic link and slide bar, driving motor with first shell is connected, driving motor's output with drive telescopic link connects, driving motor still respectively with first button and the second button is connected, is used for the drive telescopic link stretch out with return and contract back, drive telescopic link still with sliding rod connection, the arc spout has been seted up to the second shell, the slide bar slide set up in the arc spout.
In one embodiment, the driving telescopic rod comprises a plurality of telescopic sub-rods connected in sequence, and each telescopic sub-rod is used for adjusting the distance between the driving motor and the sliding rod.
In one embodiment, a plurality of the telescopic sub-rods are sleeved in sequence.
In one embodiment, the housing assembly further comprises a shielding layer through which the driving motor is connected with the first housing.
In one embodiment, the housing assembly further comprises a heat dissipation layer, the heat dissipation layer is connected with the first housing and the second housing, and a surface of the heat dissipation layer facing away from the first housing is further connected with the driving motor.
In one embodiment, the heat dissipation layer is provided with heat dissipation holes.
In one embodiment, the driving member further includes a first positioning pin, the sliding rod is provided with a first positioning hole, and the first positioning pin is inserted into the first positioning hole and connected to the second housing.
In one embodiment, the second housing defines a plurality of positioning slots communicating with the arc-shaped sliding slot, the positioning slots are uniformly distributed in the arc-shaped sliding slot, and the first positioning pin is respectively inserted into the first positioning hole and one of the positioning slots.
In one embodiment, the driving member further includes a second positioning pin, the sliding rod further defines a second positioning hole, and the second positioning pin is inserted into the second positioning hole and connected to the first positioning pin.
An earphone test device comprises an operating platform and the earphone test device of any one of the embodiments, wherein one surface of the base, which is far away from the first shell, is connected with the operating platform.
Compared with the prior art, the invention has at least the following advantages:
through set up the arc spout on the second shell, make the slide bar slide in the arc spout, thereby make the slide bar along the extending direction motion that is on a parallel with the arc spout on the second shell, the orbit that slides of slide bar on the second shell is the arc promptly, and driving motor's output only controls the flexible of drive telescopic link, make drive telescopic link carry out concertina movement, need not to rotate, thereby make driving motor be telescopic motor, and then make driving motor's driving method single, driving motor's driving method has been simplified, driving motor's structural complexity has been reduced, thereby driving motor's the maintenance degree of difficulty has been reduced, and then earphone testing arrangement's test cost has been reduced.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.
FIG. 1 is a schematic diagram of an embodiment of an earphone testing apparatus;
fig. 2 is an enlarged schematic view of the earphone testing device shown in fig. 1 at a 1;
fig. 3 is a schematic view of another view angle of the testing apparatus of the earphone shown in fig. 1.
Detailed Description
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
The invention relates to an earphone testing device. In one embodiment, the headset testing device includes a base and a housing assembly. The base has an operating ramp. The operation inclined plane is provided with a first button and a second button. The housing assembly includes a first housing, a second housing, a housing connecting shaft, and a driving member. The first shell is connected with the base, and the first shell is further connected with the shell connecting shaft. The second shell is connected with the shell connecting shaft in a rotating mode. The first housing has a first opening. The second housing has a second opening. The opening direction of the first opening is opposite to that of the second opening, an earphone accommodating space is formed in the first shell and the second shell, and the earphone accommodating space is used for accommodating an earphone to be tested. The driving piece comprises a driving motor, a driving telescopic rod and a sliding rod. The driving motor is connected with the first shell. The output end of the driving motor is connected with the driving telescopic rod. The driving motor is further connected with the first button and the second button respectively and used for driving the telescopic driving rod to extend out and retract. The driving telescopic rod is further connected with the sliding rod. The second shell is provided with an arc-shaped sliding groove. The sliding rod is arranged in the arc-shaped sliding groove in a sliding mode. Through set up the arc spout on the second shell, make the slide bar slide in the arc spout, thereby make the slide bar along the extending direction motion that is on a parallel with the arc spout on the second shell, the orbit that slides of slide bar on the second shell is the arc promptly, and driving motor's output only controls the flexible of drive telescopic link, make drive telescopic link carry out concertina movement, need not to rotate, thereby make driving motor be telescopic motor, and then make driving motor's driving method single, driving motor's driving method has been simplified, driving motor's structural complexity has been reduced, thereby driving motor's the maintenance degree of difficulty has been reduced, and then earphone testing arrangement's test cost has been reduced.
Please refer to fig. 1, which is a schematic perspective view of an earphone testing apparatus according to an embodiment of the present invention.
The headset testing device 10 of an embodiment includes a base 100 and a housing assembly 200. The base 100 has an operation slope. The operation ramp is provided with a first button 110 and a second button 120. The housing assembly 200 includes a first housing 210, a second housing 220, a housing coupling shaft 230, and a driver 240. The first housing 210 is coupled to the base 100, and the first housing 210 is further coupled to the housing coupling shaft 230. The second housing 220 is rotatably coupled to the housing coupling shaft 230. The first housing 210 has a first opening. The second housing 220 has a second opening. The opening direction of the first opening is opposite to the opening direction of the second opening, an earphone accommodating space is formed inside the first shell 210 and inside the second shell 220, and the earphone accommodating space is used for placing an earphone to be tested. The driving member 240 includes a driving motor 242, a driving telescopic rod 244 and a sliding rod 246. The driving motor 242 is connected to the first housing 210. The output end of the driving motor 242 is connected to the driving telescopic rod 244. The driving motor 242 is further connected to the first button 110 and the second button 120, respectively, for driving the extension and retraction of the driving telescopic rod 244. Referring to fig. 2, the driving rod 244 is further connected to the sliding rod 246. The second housing 220 defines an arc-shaped sliding slot 222. The sliding rod 246 is slidably disposed in the arc-shaped sliding slot 222.
In this embodiment, the arc-shaped chute 222 is disposed on the second housing 220, so that the sliding rod 246 slides in the arc-shaped chute 222, and the sliding rod 246 moves on the second housing 220 along the extending direction parallel to the arc-shaped chute 222, that is, the sliding track of the sliding rod 246 on the second housing 220 is arc-shaped, and the output end of the driving motor 242 only controls the extension and retraction of the driving telescopic rod 244, so that the driving telescopic rod 244 performs telescopic movement without rotating, so that the driving motor 242 is a telescopic motor, and further the driving manner of the driving motor 242 is single, which simplifies the driving manner of the driving motor 242, and reduces the structural complexity of the driving motor 242, thereby reducing the maintenance difficulty of the driving motor 242, and further reducing the testing cost of the earphone testing device.
In one embodiment, referring to fig. 1 and fig. 2, the telescopic driving rod 244 includes a plurality of telescopic sub-rods 2442 connected in sequence, and each telescopic sub-rod 2442 is used for adjusting the distance between the driving motor 242 and the sliding rod 246. In this embodiment, the plurality of telescopic sub-rods 2442 connected in sequence provide a length-adjustable function, and the driving telescopic rod 244 adjusts the distance between the sliding rod 246 and the bracket of the driving motor 242 through the telescopic distance between the telescopic sub-rods 2442, so that the sliding rod 246 moves in the arc-shaped sliding groove 222 through the change of the position relationship between the sliding rod 246 and the driving motor 242, thereby driving the second housing 220 to be far away from or close to the first housing 210, and facilitating the opening and closing of the earphone accommodating space of the earphone testing device. In other embodiments, the plurality of telescopic sub-rods 2442 are sequentially sleeved, that is, two adjacent telescopic sub-rods 2442 are connected in a sleeved manner, that is, a sleeved hole is formed in the telescopic sub-rod 2442 with a larger diameter in the two adjacent telescopic sub-rods 2442, the other telescopic sub-rod 2442 with a smaller diameter is accommodated in the sleeved hole, and the distance between the sliding rod 246 and the driving motor 242 is changed by adjusting the overlapping length of the two adjacent telescopic sub-rods 2442, so that the second housing 220 can be opened and closed conveniently.
In one embodiment, the housing assembly further comprises a shielding layer through which the driving motor is connected with the first housing. In this embodiment, the earphone to be tested is placed in the earphone accommodating space, wherein the earphone testing device is used for carrying out acoustic testing on the earphone, and isolation and shielding are needed to be carried out on external sound signals. Because the external interference sound source of the earphone testing device mainly comes from the driving motor, when the earphone performance test is carried out, the shielding layer isolates the sound emitted by the driving motor outside the earphone accommodating space, the probability of external interference sound waves entering the earphone accommodating space is reduced, and the accuracy of the test result of the earphone testing device is improved.
In one embodiment, the housing assembly further comprises a heat dissipation layer, the heat dissipation layer is connected with the first housing and the second housing, and a surface of the heat dissipation layer facing away from the first housing is further connected with the driving motor. In this embodiment, since the driving motor is a main power unit, and is connected to an external power supply, the external power supply provides electric energy for the operation of the driving motor and the testing component in the testing device for the earphones, and when the driving motor operates, heat generated by the telescopic work of the driving motor is conducted to the first housing and the second housing, so that the temperature of the first housing and the second housing is increased, and the temperature in the accommodating space for the earphones is increased, which may cause deviation in performance testing of the earphones. In order to further improve the accuracy of the testing result of the earphone, heat dissipation layers are arranged on the surfaces of the first shell and the second shell, so that heat generated by the driving motor is dissipated through the heat dissipation layers. Under the structure of the large area of the heat dissipation layer, namely the heat dissipation area of the heat dissipation layer is large, the contact area between the heat dissipation layer and the air is increased, so that the heat exchange rate of the heat dissipation layer and the air is increased, the heat dissipation effect of the driving motor is improved, the probability of overhigh temperature in the earphone accommodating space is reduced, and the accuracy of the earphone test result is further improved. In other embodiments, the heat dissipation layer is provided with heat dissipation holes, and the heat dissipation area of the heat dissipation layer is further increased by providing the heat dissipation holes on the heat dissipation layer, so that the heat dissipation effect of the heat dissipation layer is improved.
In one embodiment, referring to fig. 1 and fig. 2, the driving member 240 further includes a first positioning pin 248, the sliding rod 246 defines a first positioning hole 2462, and the first positioning pin 248 is disposed through the first positioning hole 2462 and connected to the second housing 220. In this embodiment, the first positioning pin 248 is used to position the slide bar 246 on the second housing 220, i.e., the first positioning pin 248 positions the slide bar 246 in the arc chute 222. When the slide bar 246 slides in the arc-shaped sliding groove 222, the first positioning pin 248 is not connected with the second housing 220, and when the slide bar 246 moves to a designated position of the arc-shaped sliding groove 222, the first positioning pin 248 is further extended into the first positioning hole 2462, so that the first positioning pin 248 is connected with the bottom of the arc-shaped sliding groove 222, that is, the first positioning pin 248 is connected with the second housing 220, so that the slide bar 246 is fixed at the designated position, and the positioning of the slide bar 246 is realized.
Further, referring to fig. 2, the second housing 220 is provided with a plurality of positioning slots 224 communicated with the arc-shaped sliding slot 222, the plurality of positioning slots 224 are uniformly distributed in the arc-shaped sliding slot 222, and the first positioning pin 248 is respectively inserted into the first positioning hole 2462 and one of the positioning slots 224. To facilitate positioning of the slide bar 246 at different positions, a plurality of positioning slots 224 are in communication with the arc-shaped sliding slot 222, and when the slide bar 246 moves to one of the positioning slots 224, the first positioning pin 248 passes through the first positioning hole 2462 and protrudes into the positioning slot 224, such that the end of the first positioning pin 248 is received in the positioning slot 224. In this way, the first positioning pin 248 is inserted into the first positioning hole 2462 and the positioning slot 224, so as to improve the stability of the sliding rod 246 in the arc-shaped sliding slot 222.
Furthermore, referring to fig. 2, the driving member 240 further includes a second positioning pin 241, the sliding rod 246 further has a second positioning hole 2464, and the second positioning pin 241 is inserted into the second positioning hole 2464 and connected to the first positioning pin 248. In this embodiment, the second positioning hole 2464 is opened on the sliding rod 246, the sliding rod 246 slides in the arc-shaped sliding groove 222, and after the position of the sliding rod 246 is fixed, in order to improve the connection stability between the sliding rod 246 and the first positioning pin 248, the second positioning pin 241 is inserted into the second positioning hole 2464, so that the connection between the sliding rod 246 and the first positioning pin 248 is more stable, the swing amplitude between the sliding rod 246 and the first positioning pin 248 is reduced, and the connection stability between the sliding rod 246 and the first positioning pin 248 is improved.
It can be understood that, the first casing 210 and the second casing 220 of the testing device for earphones are rotatably connected with each other, an earphone accommodating space is formed between the first casing 210 and the second casing 220, and the earphone accommodating space is used for placing a testing device for testing various performances of earphones, so that the testing of various performances of earphones is facilitated. Wherein the driving member 240 rotates the second housing 220 relative to the first housing 210 by moving itself, so as to close or open the earphone accommodating space by rotating the second housing 220, and the control of said actuating member 240, by means of two buttons provided on the base 100, namely, the first button 110 and the second button 120, wherein the first button 110 is a close button that controls the first housing 210 and the second housing 220 to be closed, the second button 120 is an open button for controlling the opening of the first housing 210 and the second housing 220, the close button and the open button are both disposed on the base 100, and both the close button and the open button are connected to the driving member 240, for driving the driving member 240 to move the second housing 220 toward or away from the first housing 210. However, in an actual testing process, the body of the operator may easily touch the close button or the open button by mistake, for example, when the earphone is placed in the earphone accommodating space, the body of the tester needs to be tilted forward, and at this time, the tester easily touches the close button, and starts the driving member 240, so that the second housing 220 starts to be closed, that is, the second housing 220 rotates toward the first housing 210, if the arm is not timely pulled out from the earphone accommodating space, the arm is easily pinched by the second housing 220, and the life safety of the operator is threatened; for another example, in the process of performing an earphone test, the second housing 220 and the first housing 210 are in a closed state, and at this time, an operator easily touches the opening button by mistake, so that the second housing 220 starts to open, that is, the second housing 220 rotates in a direction away from the first housing 210, and for the self-safety protection reason of the machine, the earphone test apparatus will automatically interrupt the test, so that the earphone test is forcibly interrupted, the test time of the earphone is increased, and the efficiency of the earphone test is reduced.
In order to reduce the possibility of the second housing 220 rotating incorrectly, referring to fig. 1 and 3 together, the testing device 10 further includes a button protection assembly 400, wherein the button protection assembly 400 includes a first protection member 410, a second protection member 420 and a pressing member 430; the first protection member 410 includes a first slider 412, a first elastic rod 414, and a first baffle 416, the second protection member 420 includes a second slider 422, a second elastic rod 424, and a second baffle 426, the first slider 412 is disposed opposite to the second slider 422, the first slider 412 has a first sliding inclined surface 4122, the first sliding inclined surface 4122 is disposed obliquely toward the second slider 422, the second slider 422 has a second sliding inclined surface 4222, the second sliding inclined surface 4222 is disposed obliquely toward the first slider 412, the first slider 412 and the second slider 422 are both slidably disposed on the base 100, the first baffle 416 is connected to a side of the first slider 412 away from the second slider 422 through the first elastic rod 414, the first slider 412 has a first through hole 4124, the first button 110 is disposed in the first through hole 4124, the second baffle 426 is connected with one side of the second sliding block 422, which is away from the first sliding block 412, through the second elastic rod 424, the second sliding block 422 is provided with a second through hole 4224, the second button 120 corresponds to the second through hole 4224, and the second button 120 is located between the second sliding block 422 and the second baffle 426; the pressing member 430 includes a first connecting rod 432, a second connecting rod 434, and a pressing plate 436, the first connecting rod 432 is connected to the second housing 220, the first connecting rod 432 is further connected to the pressing plate 436 through the second connecting rod 434, the pressing plate 436 has a first pressing inclined surface 4362 and a second pressing inclined surface 4364, the first pressing inclined surface 4362 is used to press the first sliding inclined surface 4122, and the second pressing inclined surface 4364 is used to press the second sliding inclined surface 4222. In this embodiment, the pressing member 430 moves following the second housing 220, that is, when the driving member 240 is opened, the pressing member 430 moves together with the second housing 220. For example, when the second housing 220 rotates towards the first housing 210, the pressing member 430 moves towards the first slider 412 and the second slider 422, when the pressing plate 436 presses the first slider 412 and the second slider 422, the first pressing inclined surface 4362 abuts against the first sliding inclined surface 4122, the second pressing inclined surface 4364 abuts against the second sliding inclined surface 4222, under the combined connection of the first elastic rod 414 and the first baffle 416, and the combined connection of the second elastic rod 424 and the second baffle 426, the lengths of the first elastic rod 414 and the second elastic rod 424 gradually decrease, that is, the first elastic rod 414 and the second elastic rod 424 gradually contract, so that the first slider 412 and the second slider 422 move away from the pressing plate 436, and the first slider 412 moves away from the first button 110, the second slider 422 is close to the second button 120, so that the first button 110 leaves the first through hole 4124 and is located outside the first slider 412, and the second button 120 enters the second through hole 4224 and is located inside the second slider 422. In this way, when the second housing 220 and the first housing 210 are closed, that is, the earphone testing device performs the earphone performance test, the second button 120 is protected by the second slider 422, so that the probability that the operator touches the second button 120 by mistake is reduced, and the probability that the test is interrupted when the earphone testing device performs the test because the second housing 220 is opened is reduced. Furthermore, after the testing of the earphone testing device is finished, the operator can press the second button 120 by inserting a finger or an operation into the second through hole 4224, so that the earphone testing device is opened, i.e. the driving member 240 drives the second housing 220 to rotate in a direction away from the first housing 210. In this embodiment, a projection of the first pressing inclined plane 4362 on the base 100 is offset from a projection of the close button and a projection of the open button on the base 100, that is, there is no overlapping area between the projection of the first pressing inclined plane 4362 on the base 100 and the projection of the close button on the base 100, and there is no overlapping area between the projection of the first pressing inclined plane 4362 on the base 100 and the projection of the open button on the base 100.
For another example, when the second housing 220 rotates towards the direction away from the first housing 210, the pressing member 430 moves towards the direction away from the first slider 412 and the second slider 422, when the pressing plate 436 disengages from the first slider 412 and the second slider 422, the first pressing inclined surface 4362 disengages from the first sliding inclined surface 4122, the second pressing inclined surface 4364 disengages from the second sliding inclined surface 4222, the combined connection of the first elastic rod 414 and the first baffle 416, and the combined connection of the second elastic rod 424 and the second baffle 426, that is, the lengths of the first elastic rod 414 and the second elastic rod 424 gradually increase to the natural length, that is, the first elastic rod 414 and the second elastic rod 424 gradually extend, so that the first slider 412 and the second slider 422 move towards each other, so that the first slider 412 is close to the first button 110, the second slider 422 is far away from the second button 120, and the first button 110 re-enters the first through hole 4124 and is located in the first slider 412, and the second button 120 is far away from the second through hole 4224 and is located outside the second slider 422. In this way, when the second housing 220 is separated from the first housing 210, that is, after the earphone performance test of the earphone testing device is finished, the first button 110 is protected by the first slider 412, so that the probability that the operator touches the first button 110 by mistake is reduced, the probability that the operator touches the first button 110 by mistake when taking out the earphone in the first housing 210 is reduced, and the probability that the operator is injured by the second housing 220 is reduced. Moreover, when the testing device for earphones needs to perform a test, an operator may press the first button 110 by inserting a finger or an operation into the first through hole 4124, so that the testing device for earphones is closed, that is, the driving member 240 drives the second housing 220 to rotate toward the first housing 210.
Further, in order to facilitate the first sliding block 412 and the second sliding block 422 to slide on the base 100, please refer to fig. 1 and fig. 3 together, the base 100 is provided with two guide rail grooves 130 parallel to each other; the first slider 412 includes a first body 4126 and two first sub-sliders 4128, the first body 4126 is connected to the two first sub-sliders 4128, the two first sub-sliders 4128 are slidably disposed in the two guide rail grooves 130, at least one of the two first sub-sliders 4128 is connected to the first elastic rod 414, and the first through hole 4124 is formed in the first body 4126 and the two first sub-sliders 4128; the second slider 422 includes a second body 4226 and two second sub-sliders 4228, the second body 4226 is respectively connected with the two second sub-sliders 4228, the two second sub-sliders 4228 are respectively slidably disposed in the two guide rail grooves 130, at least one of the two second sub-sliders 4228 is connected with the second elastic rod 424, and the second through hole 4224 is formed between the second body 4226 and the two second sub-sliders 4228. In this embodiment, the first slider 412 and the second slider 422 both slide in the guide rail groove 130, and the guide rail groove limits the sliding directions of the first slider 412 and the second slider 422, so as to ensure that the moving directions of the first slider 412 and the second slider 422 are in the same direction, thereby improving the sliding stability of the first slider 412 and the second slider 422.
Still further, in order to facilitate maintenance of the first slider 412 and the second slider 422, please refer to fig. 1 and fig. 3, the first protection component 410 further includes a first rotating shaft 411 and a first rotating plate 413, the first rotating shaft 411 is connected to the first baffle 416, the first rotating plate 413 is provided with a first rotating hole, the first rotating shaft 411 is disposed in the first rotating hole, and the first rotating plate 413 is detachably connected to the first slider 412 through the first elastic rod 414; the second protection member 420 further includes a second rotating shaft 421 and a second rotating plate 423, the second rotating shaft 421 is connected to the second blocking plate 426, the second rotating plate 423 is provided with a second rotating hole, the second rotating shaft 421 is inserted into the second rotating hole, and the second rotating plate 423 is detachably connected to the second sliding block 422 through the second elastic rod 424. In this embodiment, the first blocking plate 416 is aligned with the first through hole 4124, and the second blocking plate 426 is aligned with the second through hole 4224, i.e. the first blocking plate 416 is aligned with the first through hole 4124, and the second blocking plate 426 is aligned with the second through hole 4224. Thus, when it is necessary to detach the first slider 412 and the second slider 422 from the base 100, by releasing the connection of the first elastic bar 414 with the first slider 412 and the connection of the second elastic bar 424 with the second slider 422, and rotating the first rotating plate 413 and the second rotating plate 423, the first rotating plate 413 is aligned with the first blocking plate 416, the second rotating plate 423 is aligned with the second blocking plate 426, that is, the side edge of the first rotating plate 413 is parallel to the side edge of the first blocking plate 416, the side edge of the second rotating plate 423 is parallel to the side edge of the second blocking plate 426, so that the first slider 412 passes through the first blocking plate 416 and the first rotating plate 413 through the first through hole 4124, and the second slider 422 passes through the second blocking plate 426 and the second rotating plate 423 through the second through hole 4224, the first sliding block 412 and the second sliding block 422 are convenient to detach from the base 100, so that the first sliding block 412 and the second sliding block 422 are convenient to detach and maintain.
Further, the first connecting rod 432 has a telescopic function, so that the distance between the pressing plate 436 and the second housing 220 is changed, thereby facilitating adjustment of the position of the pressing plate 436, and thus facilitating adjustment of the position of pressing the first slider 412 and the second slider 422, even when the position of pressing the first sliding slope 4122 and the second sliding slope 4222 is adjusted, reducing the chance of touching the second button 120 or the first button 110 during pressing.
The application also provides earphone test equipment, including operation platform and any one above-mentioned embodiment earphone testing arrangement, the base deviates from the one side of first shell with operation platform connects. In this embodiment, the headset testing device includes a base and a housing assembly. The base has an operating ramp. The operation inclined plane is provided with a first button and a second button. The housing assembly includes a first housing, a second housing, a housing connecting shaft, and a driving member. The first shell is connected with the base, and the first shell is further connected with the shell connecting shaft. The second shell is connected with the shell connecting shaft in a rotating mode. The first housing has a first opening. The second housing has a second opening. The opening direction of the first opening is opposite to that of the second opening, an earphone accommodating space is formed in the first shell and the second shell, and the earphone accommodating space is used for accommodating an earphone to be tested. The driving piece comprises a driving motor, a driving telescopic rod and a sliding rod. The driving motor is connected with the first shell. The output end of the driving motor is connected with the driving telescopic rod. The driving motor is further connected with the first button and the second button respectively and used for driving the telescopic driving rod to extend out and retract. The driving telescopic rod is further connected with the sliding rod. The second shell is provided with an arc-shaped sliding groove. The sliding rod is arranged in the arc-shaped sliding groove in a sliding mode. Through set up the arc spout on the second shell, make the slide bar slide in the arc spout, thereby make the slide bar along the extending direction motion that is on a parallel with the arc spout on the second shell, the orbit that slides of slide bar on the second shell is the arc promptly, and driving motor's output only controls the flexible of drive telescopic link, make drive telescopic link carry out concertina movement, need not to rotate, thereby make driving motor be telescopic motor, and then make driving motor's driving method single, driving motor's driving method has been simplified, driving motor's structural complexity has been reduced, thereby driving motor's the maintenance degree of difficulty has been reduced, and then earphone testing arrangement's test cost has been reduced.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. An earphone testing device, comprising:
the button comprises a base, a first button and a second button, wherein the base is provided with an operation inclined plane;
the earphone comprises a base, a shell assembly and a first shell, wherein the shell assembly comprises a first shell, a second shell, a shell connecting shaft and a driving piece, the first shell is connected with the base, the first shell is further connected with the shell connecting shaft, the second shell is rotatably connected with the shell connecting shaft, the first shell is provided with a first opening, the second shell is provided with a second opening, the opening direction of the first opening is opposite to the opening direction of the second opening, an earphone accommodating space is formed inside the first shell and inside the second shell, and the earphone accommodating space is used for accommodating an earphone to be tested;
the driving piece comprises a driving motor, a driving telescopic rod and a sliding rod, the driving motor is connected with the first shell, the output end of the driving motor is connected with the driving telescopic rod, the driving motor is also connected with the first button and the second button respectively and used for driving the driving telescopic rod to extend and retract, the driving telescopic rod is also connected with the sliding rod, an arc-shaped sliding groove is formed in the second shell, and the sliding rod is arranged in the arc-shaped sliding groove in a sliding manner;
a button protection assembly including a first protection member, a second protection member, and an extrusion member; the first protection piece comprises a first sliding block, a first elastic rod and a first baffle plate, the second protection piece comprises a second sliding block, a second elastic rod and a second baffle plate, the first sliding block and the second sliding block are oppositely arranged, the first sliding block is provided with a first sliding inclined surface, the first sliding inclined surface is obliquely arranged towards the second sliding block, the second sliding block is provided with a second sliding inclined surface, the second sliding inclined surface is obliquely arranged towards the first sliding block, the first sliding block and the second sliding block are both arranged on the base in a sliding mode, the first baffle plate is connected with one side, away from the second sliding block, of the first sliding block through the first elastic rod, the first sliding block is provided with a first through hole, the first button is arranged in the first through hole, and the second baffle plate is connected with one side, away from the first sliding block, of the second sliding block through the second elastic rod, the second slider is provided with a second through hole, the second button corresponds to the second through hole, and the second button is positioned between the second slider and the second baffle; the extruded article includes head rod, second connecting rod and stripper plate, the head rod with the second shell is connected, the head rod still passes through the second connecting rod with the stripper plate is connected, the stripper plate has first extrusion inclined plane and second extrusion inclined plane, first extrusion inclined plane is used for the extrusion first slip inclined plane, second extrusion inclined plane is used for the extrusion the second slip inclined plane.
2. The testing device of claim 1, wherein the telescopic driving rod comprises a plurality of telescopic sub-rods connected in sequence, and each telescopic sub-rod is used for adjusting the distance between the driving motor and the sliding rod.
3. The apparatus according to claim 2, wherein a plurality of the telescopic sub-rods are sequentially sleeved.
4. The headphone testing device of claim 1 wherein the housing assembly further comprises a shield layer through which the drive motor is connected with the first housing.
5. The headset testing device of claim 1, wherein the housing assembly further comprises a heat dissipation layer, the heat dissipation layer being coupled to the first housing and the second housing, a face of the heat dissipation layer facing away from the first housing further being coupled to the drive motor.
6. The apparatus according to claim 5, wherein the heat dissipation layer has heat dissipation holes.
7. The testing device of claim 1, wherein the driving member further comprises a first positioning pin, the sliding rod defines a first positioning hole, and the first positioning pin is inserted into the first positioning hole and connected to the second housing.
8. The testing device of claim 7, wherein the second housing defines a plurality of positioning slots communicating with the arc-shaped sliding slot, the positioning slots are uniformly distributed in the arc-shaped sliding slot, and the first positioning pin is respectively inserted into the first positioning hole and one of the positioning slots.
9. The testing device of claim 7, wherein the driving member further comprises a second positioning pin, the sliding rod further defines a second positioning hole, and the second positioning pin is inserted into the second positioning hole and connected to the first positioning pin.
10. A headset testing device, characterized in that it comprises an operating platform and a headset testing apparatus according to any one of claims 1 to 9, the side of the base facing away from the first housing being connected to the operating platform.
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EP2637423A1 (en) * | 2012-03-06 | 2013-09-11 | Oticon A/S | A test device for a speaker module for a listening device |
CN206149506U (en) * | 2016-10-14 | 2017-05-03 | 深圳市马太智能科技有限公司 | Full automatic checkout device of duplex position earphone |
CN111601225B (en) * | 2020-05-11 | 2021-09-03 | 江西立讯智造有限公司 | Bluetooth headset acoustics testing arrangement |
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CN106002198A (en) * | 2016-07-15 | 2016-10-12 | 广东欧珀移动通信有限公司 | Automatic buckling mechanism of shell |
CN107635174A (en) * | 2017-11-13 | 2018-01-26 | 上海贤广信息科技有限公司 | A kind of bluetooth earphone of automatically retractable, automatic lifting |
CN209182180U (en) * | 2018-12-03 | 2019-07-30 | 惠州市威隆展业实业有限公司 | Test machine is waved in a kind of earphone cable bending |
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Address after: 516000 Part of the second floor of Huili Powder Coating Company's factory building in Dongjiang Village, Chenjiang Street, Zhongkai High tech Zone, Huizhou City, Guangdong Province Patentee after: HUIZHOU KELIN ACOUSTICS CO.,LTD. Address before: 516123 Shangxing 3rd road, Shangnan village, Yuanzhou Town, BOLUO County, Huizhou City, Guangdong Province Patentee before: HUIZHOU KELIN ACOUSTICS CO.,LTD. |