CN218481110U - Equipment for measuring optimal installation position and identification of earphone battery - Google Patents

Abstract

The utility model relates to a survey equipment of optimum mounted position of earphone battery and sign, including noise tester, display device, board, detection tool, battery rotary mechanism, probe telescopic machanism and marking mechanism, noise tester and display device pass through the data line connection, detection tool, battery rotary mechanism, probe telescopic machanism and marking mechanism install on the board, battery rotary mechanism includes lifting unit and rotating assembly, rotating assembly is connected and the suspension is in the detection tool top with lifting unit. The battery rotating mechanism grabs a battery placed by the detection jig and rotates a certain angle according to requirements, the probe telescoping mechanism detects the noise of each angle of the battery and transmits the noise to the noise tester, the noise tester generates a noise value to be displayed on the display device, and the detected lowest noise value is fed back to the marking mechanism to complete identification.

Description

Equipment for measuring optimal installation position and identification of earphone battery

Technical Field

The utility model relates to a check out test set field, concretely relates to survey equipment of optimum mounted position of earphone battery and sign.

Background

The existing earphone battery is structurally compact due to the adoption of a steel buckle battery, meanwhile, the space utilization rate of the product is higher, and the wiring is simple and firm, so that the earphone has better product shape design freedom under the condition of continuous voyage time.

The problem at present is that the steel button battery is assembled in the earphone without errors according to the original normal detection process, the angle of a winding core lug is not distinguished, the problem that the earphone noise value is different due to the fact that the angle positions formed by the positive and negative pole lugs of the steel button battery and the positive and negative nickel sheets of the earphone are different in size can occur, the feeling of a user is affected, in order to produce a high-quality earphone product, the optimal contact position of the steel button battery and the nickel sheets of the earphone needs to be selected and marked, the noise value of the installation position is guaranteed to be minimum, and therefore the product quality is improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an efficient, the error is little and can real time monitoring survey the equipment of the optimum mounted position of earphone battery and sign.

The utility model provides a survey equipment of optimum mounted position of earphone battery and sign, includes noise tester, board, detection tool, battery rotary mechanism, probe telescopic machanism and marking mechanism, the noise tester is placed by the board, detection tool, battery rotary mechanism, probe telescopic machanism and marking mechanism install on the board, battery rotary mechanism includes lifting unit and rotating assembly, rotating assembly is connected and the suspension is in the detection tool top with lifting unit.

In the above scheme, detection tool fixes on the board, lifting unit, probe telescopic machanism and marking mechanism and detection tool's adjacent setting, the last rotating assembly that installs of lifting unit, the battery has been placed to detection tool, battery rotary mechanism requires rotatory battery to certain angle according to setting up, the noise transmission of every angle of probe telescopic machanism detection battery is to the noise tester, the noise tester detects the noise numerical value of the different mounted positions of battery, feeds back the minimum noise value that detects out to marking mechanism, marking mechanism carries out the sign in the position that the battery corresponds, accomplishes detection and data feedback when the battery rotation angle, reduces the interference of factors such as test in-process time to reduce the error of test.

Further, the lifting assembly comprises a lifting driving piece and a mounting plate, the output end of the lifting driving piece is connected to the mounting plate, and the mounting plate can vertically move under the driving of the lifting driving piece.

In the scheme, the lifting driving piece pushes the mounting plate to move up and down, the mounting plate is connected with the rotating assembly, so that the rotating assembly can move up and down under the driving of the mounting plate, the rotating assembly is lifted to place a battery conveniently, and then the rotating assembly is lowered to a proper position to rotate the battery.

Further, the rotating assembly comprises a rotating driving piece, a transmission connecting plate and a rotating shaft, the rotating driving piece and the rotating shaft are installed on the transmission connecting plate, the rotating driving piece and the rotating shaft are connected through a synchronous belt, and a sucker is arranged on the rotating shaft.

In the above scheme, the rotary driving piece passes through the hold-in range and drives the rotation axis rotatory, the sucking disc is used for snatching the battery for the battery rotates according to the angle of demand, can detect the noise value of different angles.

Furthermore, limiters are arranged on two sides of the transmission connecting plate.

In the above scheme, transmission connecting plate vertical fixation is on the mounting panel, and the rotating assembly suspension is in detection tool top promptly, the mounting panel drives transmission connecting plate up-and-down motion, can realize rotating simultaneously at the in-process that the battery goes up and down for the error that detects is little, thereby the stopper can prevent to overshoot when the rotating assembly descends and avoid the rotating shaft tip striking battery.

Furthermore, the probe telescopic mechanism comprises a first mounting seat, a first driving part and a probe, wherein the first driving part is installed on the first mounting seat, the output end of the first driving part is connected with the probe, and the probe is arranged on the probe.

In the above scheme, first driving piece is fixed on first mount pad towards the slope of detection tool direction, first driving piece has the guide arm that can stretch out and draw back, the probe removes along with the flexible of guide arm for the probe contact battery negative pole of installation on the probe and the positive pole of detection tool, the probe detects out the noise value and transmits to the noise tester.

Further, the marking mechanism comprises a second mounting seat, a second driving piece, a marker pen and a jacking device, the second driving piece is mounted on the second mounting seat, the output end of the second driving piece is connected with the jacking device, and the marker pen is arranged in the jacking device in a penetrating mode.

In the scheme, the marking mechanism and the probe telescopic mechanism are installed oppositely, the marker pen penetrates through a hole position of the jacking device, the marker pen is locked on the jacking device through the screw rod, the position of the marker pen can be adjusted manually, the second driving piece drives the jacking device to move, and marking is achieved by the marker pen at the position of the battery when the marking mechanism receives the minimum noise value.

Further, the detection jig comprises a base and a positioning block, the positioning block is provided with a positioning groove for placing the battery, and the positioning block is fixed on the base.

In the above scheme, the battery is placed in the positioning groove of the detection jig, the anode of the battery is contacted with the detection jig, and the battery generates a noise value when current flows.

Furthermore, the number of the detection jig, the battery rotating mechanism, the probe telescoping mechanism and the marking mechanism is two and the detection jig, the battery rotating mechanism, the probe telescoping mechanism and the marking mechanism are symmetrically distributed on the machine table.

In the above scheme, equipment uses left and right ears binary channels to detect, and battery rotary mechanism snatchs electric core and rotates as required after equipment starts, probe telescopic machanism detects out the noise value of every angle, and the position of battery when marking mechanism marks minimum noise value can be put into the detection tool on right side and detect when detecting in the left side, can improve the efficiency that detects to the manpower is saved.

Furthermore, the equipment for measuring and marking the optimal installation position of the earphone battery further comprises a display device connected to the noise tester.

In the scheme, the display device is placed beside the machine table and connected with the noise tester through the data line, the noise value detected by the noise tester is displayed on the display device, the noise value is conveniently monitored in real time, and data can be extracted and analyzed.

The utility model discloses a survey equipment of optimum mounted position of earphone battery and sign has following beneficial effect at least:

first, the detection error is little, battery rotary mechanism includes lifting unit and rotating assembly, lifting unit is used for absorbing the battery and removes along vertical direction, the rotating assembly suspension is in the battery top for the angle of rotatory battery for the battery is accomplished rotatoryly when going up and down, and with data feedback to noise tester, thereby reduces the interference factor of test and reduces the error.

Secondly, efficient, detection tool, battery rotary mechanism, probe telescopic machanism and marking mechanism respectively two sets, can put into the detection tool on right side with the battery and detect when the left side detects to promote detection efficiency and save artifical

And thirdly, real-time monitoring is carried out, the noise value detected by the noise tester is displayed on a display device, the noise values of the battery at different rotation angles can be monitored in real time, and data can be extracted and analyzed at any time.

Drawings

Fig. 1 is a schematic diagram of an apparatus for measuring and marking an optimal installation position of a battery of an earphone according to an embodiment.

Fig. 2 is a perspective view of the detection jig in fig. 1.

Fig. 3 is a schematic view of the lifting assembly of fig. 1.

Fig. 4 is a schematic view of the rotating assembly of fig. 1.

Fig. 5 is a schematic view of the probe retracting mechanism in fig. 1.

Fig. 6 is a schematic view of the marking mechanism of fig. 1.

The reference numbers illustrate: 1. a noise tester; 2. a display device, 30 and a detection tool; 400. a battery rotating mechanism; 50. a probe retracting mechanism; 60. a marking mechanism; 7. a machine platform; 8. a battery; 31. a base; 32. positioning blocks; 410. a lifting assembly; 411. a fixed seat; 412. a lifting drive member; 413. a push block; 414. mounting a plate; 415. a linear guide rail; 420. a rotating assembly; 421. a rotary drive member; 422. a transmission connecting plate; 423. a rotating shaft; 424, a sucking disc; 425. a stopper; 426. a synchronous belt; 51. a probe; 52. a probe; 53. a first mounting seat; 54. a first driving member; 55. a first guide rod 61 and a jacking device; 62. a marking pen; 63. a second mounting seat; 64. a second driving member; 65. a second guide bar.

Detailed Description

The following describes the apparatus for measuring the optimal installation position and identification of the earphone battery according to the present invention in further detail with reference to the following embodiments and the accompanying drawings.

As shown in fig. 1, in a preferred embodiment, the utility model discloses an apparatus for testing optimum installation position and identification of earphone battery includes noise tester 1, board 7, detection tool 30, battery rotating mechanism 400, probe telescopic mechanism 50 and marking mechanism 60, noise tester 1 is placed by board 7, detection tool 30, battery rotating mechanism 400, probe telescopic mechanism 50 and marking mechanism 60 are installed on board 7, battery rotating mechanism 400 includes lifting unit 410 and rotating unit 420, rotating unit 420 is connected with lifting unit 410 and is suspended above detection tool 30. Detection tool 30 is fixed on board 7, lifting unit 410, probe telescopic machanism 50 and marking mechanism 60 set up with detection tool 30 is adjacent, the last rotating assembly 420 that installs of lifting unit 410, battery 8 has been placed to detection tool 30, put adjustment battery rotary mechanism 400 according to battery 8, the position of probe telescopic machanism 50 and marking mechanism 60, battery rotary mechanism 400 rotates battery 8 to certain angle according to the setting requirement, probe telescopic machanism 50 detects the noise transmission of every angle of battery 8 to noise tester 1, later carry out analysis feedback minimum noise numerical value to marking mechanism 60 with the noise value that detects, marking mechanism 60 carries out the sign in the position that battery 8 corresponds, accomplish detection and data feedback simultaneously of battery 8 rotation angle, reduce the interference of factors such as test in-process time, thereby reduce the error of testing and host computer 2 can realize real time monitoring data.

As shown in fig. 3, in some embodiments, the lifting assembly 410 includes a lifting drive 412 and a mounting plate 414, an output end of the lifting drive 412 is connected to the mounting plate 414, and the mounting plate 414 is vertically movable under the drive of the lifting drive 412. Lifting unit 410 still is equipped with fixing base 411, ejector pad 413 and linear guide 415, lifting driving piece 412 is installed at the top of fixing base 411 and the output is connected with ejector pad 413, linear guide 415 installs the side at fixing base 411, mounting panel 414 and linear guide 415 sliding connection, can drive ejector pad 413 up-and-down motion when lifting driving piece 412's output is flexible, ejector pad 413 promotes the mounting panel and slides on 414 linear guide 415, linear guide 415 roughness is little makes mounting panel 414 slide stably and the wearing and tearing are little, long service life, mounting panel 414 is connected with rotating unit 420, make rotating unit 420 carry out elevating movement under mounting panel 414's drive, it conveniently places the battery to rise rotating unit 420, later fall rotating unit 420 suitable position to battery 8 with rotating unit 420 again and rotate.

As shown in fig. 4, in some embodiments, the rotating assembly includes a rotating driving member 421, a transmission connecting plate 422, and a rotating shaft 423, the rotating driving member 421 and the rotating shaft 423 are mounted on the transmission connecting plate 422, the rotating driving member 421 and the rotating shaft 423 are connected by a timing belt 426, and the rotating shaft 423 is provided with a suction cup 424. Rotatory driving piece 421 drives rotation axis 423 rotation through hold-in range 426, and sucking disc 424 is used for snatching battery 8 for battery 8 rotates according to the angle of demand, can detect the noise value of different angles, and the precision height of rotatory driving piece 421 can realize that battery 8 is accurate rotatory.

As shown in fig. 4, in some embodiments, stops 425 are provided on both sides of the drive connection plate 422. Through the vertical fixation of transmission connecting plate 422 on mounting panel 414, rotating assembly 420 suspension is in detection tool 30 top, rotating assembly 420 is connected with lifting unit 410, the equipment starts the back, rotating assembly 420 moves suitable position under lifting unit 410's drive, absorb battery 8 through sucking disc 424, rotation axis 423 is according to setting up rotatory certain angle, the efficiency that detects has been improved simultaneously in rotation and lift, thereby stopper 425 can prevent overshoot when rotating assembly 420 descends and avoid rotation axis 423 tip striking battery 8.

As shown in fig. 5, in some embodiments, the probe retracting mechanism 50 includes a first mounting seat 53, a first driving member 54, and a probe, wherein the first driving member 54 is mounted on the first mounting seat 53, an output end of the first driving member 54 is connected to the probe 51, and the probe 51 is provided with a probe 52. First driving piece and first guide arm can be for taking the guide arm cylinder as shown in the figure, first driving piece 54 is fixed on first mount pad 53 towards the slope of detection tool 30 direction, first guide arm 55 that can stretch out and draw back has at the output of first driving piece 54, probe 51 moves along with the flexible of first guide arm 55 for the probe 52 contact battery 8 negative pole of installation on probe 51 and the positive pole of detection tool 30, probe 52 detects out the noise value and transmits to noise tester 1, can accomplish rotation and feedback when probe 52 contacts and reduce external interference.

As shown in fig. 6, in some embodiments, the marking mechanism 60 includes a second mounting seat 63, a second driving member 64, a marker pen, and a tightening device 61, the second driving member 64 is mounted on the second mounting seat 63, an output end of the second driving member 64 is connected to the tightening device 61, and the marker pen 62 is disposed through the tightening device 61. The marking mechanism 60 and the probe telescoping mechanism 50 are installed oppositely, the marking pen 62 penetrates through a hole of the tightening device 61, the marking pen 62 is locked on the tightening device 61 through a screw, the position of the marking pen 62 can be manually adjusted, when the system judges the position of the battery 8 when the minimum noise value is obtained, the rotating assembly 420 rotates the battery 8 to the set position of the marking pen 62, and the second driving piece 64 pushes the marking pen 62 to complete marking.

As shown in fig. 2, in some embodiments, the detection fixture 30 includes a base 31 and a positioning block 32, the positioning block 32 is provided with a positioning slot for placing the battery 8, and the positioning block 32 is fixed on the base 31. The detection jig 30 is used for placing the battery 8, the battery rotating mechanism 400, the probe retracting mechanism 50 and the marking mechanism 60 are aligned according to the detection jig 30, and the probe retracting mechanism 50 contacts with the negative electrode of the detection jig 30 and the positive electrode of the battery 8 to detect the noise value.

As shown in fig. 1, in some embodiments, two numbers of the inspection tools 30, the battery rotating mechanism 400, the probe retracting mechanism 50, and the marking mechanism 60 are symmetrically distributed on the machine. Equipment uses left and right ears binary channels to detect, battery rotary mechanism 400 snatchs electric core rotatory as required after equipment starts, probe telescopic machanism 50 detects out the noise value of every angle, the noise minimum that all rotation angles measured is judged out to the system behind the rotatory round, later rotating assembly 420 uses marking mechanism 60 to mark with battery 8 rotation to this position, can put into the detection tool 30 on right side with battery 8 when the left side detects and detect, can improve the efficiency that detects, and the manpower is saved.

In some embodiments, an apparatus for determining and identifying an optimal mounting position of a battery of an earphone, as shown in fig. 1, further comprises a display device connected to the noise tester. The display device is placed beside the machine table and connected with the noise tester through a data line, the noise value detected by the noise tester is displayed on the display device, the noise value is conveniently monitored in real time, and data can be extracted and analyzed.

The utility model relates to a survey equipment theory of operation and process of optimum mounted position of earphone battery and sign, place battery 8 on left side detection tool 30, the starting equipment gets into automatic test, the band guide pole cylinder 10 of probe telescopic machanism 50 stretches out, make probe 52 contact battery 8 negative pole and detection tool 30 positive pole, noise tester 1 detects out the noise value, rotating assembly 420 moves suitable position under lifting assembly 410's effect, sucking disc 424 absorbs battery 8 and requires rotatoryly according to the angle that sets up, every rotatory angle generates a noise value, noise tester 1 shows the record on display device 2 with the noise value, behind the rotatory round, battery 8's position when the system judges out the noise minimum, rotating assembly 420 accomplishes the mark with battery 8 rotatory to the position of marker pen 62 mark, put battery 8 into the detection tool 30 on right side when left mechanism motion, the mechanism on start right side tests, each mechanism puts back origin position after the test is accomplished.

In the description of the present invention, it is to be understood that the terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

While the invention has been described in conjunction with the specific embodiments set forth above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, it is intended to embrace all such alternatives, modifications, and variations that fall within the spirit and scope of the appended claims.

Claims (9)

1. An equipment for measuring and marking the optimal installation position of a battery of an earphone is characterized by comprising

The noise tester is used for testing the noise values of different installation positions of the battery;

a machine platform;

the detection jig is arranged on the machine table and used for placing the battery;

the battery rotating mechanism is arranged on the machine table and is adjacent to the detection jig, the battery rotating mechanism comprises a lifting assembly and a rotating assembly, the lifting assembly is used for driving the rotating assembly to vertically move, and the rotating assembly is suspended above the detection jig and used for rotating the battery;

the probe telescoping mechanism is arranged on the machine table and is adjacent to the detection jig, and the probe telescoping mechanism is connected with the noise tester;

and the marking mechanism is arranged on the machine table and adjacent to the detection jig and used for marking the installation position of the battery.

2. The apparatus of claim 1, wherein the lifting assembly comprises a lifting driving member and a mounting plate, the output end of the lifting driving member is connected to the mounting plate, and the mounting plate can move vertically under the driving of the lifting driving member.

3. The apparatus of claim 2, wherein the rotation assembly comprises a rotation driving member, a transmission connecting plate and a rotation shaft, the rotation driving member and the rotation shaft are mounted on the transmission connecting plate, the rotation driving member and the rotation shaft are connected through a synchronous belt, and a suction cup is disposed on the rotation shaft.

4. The device for detecting and marking the optimal installation position of the earphone battery as claimed in claim 3, wherein two sides of the transmission connecting plate are provided with stoppers.

5. The apparatus for detecting the optimal installation position and identification of the earphone battery as claimed in claim 1, wherein the probe retracting mechanism comprises a first installation seat, a first driving member and a probe, the first driving member is installed on the first installation seat, the output end of the first driving member is connected with the probe, and the probe is arranged on the probe.

6. The apparatus for detecting the optimal installation position and identification of the battery of the earphone as claimed in claim 1, wherein the marking mechanism comprises a second installation seat, a second driving member, a marking pen and a tightening device, the second driving member is installed on the second installation seat, the output end of the second driving member is connected with the tightening device, and the marking pen is arranged on the tightening device in a penetrating manner.

7. The device for detecting the optimal installation position and identification of the earphone battery as claimed in claim 1, wherein the detection jig comprises a base and a positioning block, the positioning block is provided with a positioning groove for placing the battery, and the positioning block is fixed on the base.

8. The apparatus according to claim 1, wherein the number of the detection tools, the battery rotating mechanism, the probe retracting mechanism and the marking mechanism is two and the detection tools, the battery rotating mechanism, the probe retracting mechanism and the marking mechanism are symmetrically distributed on the machine table.

9. The apparatus of claim 1, further comprising a display device connected to the noise tester.

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