CN212238244U - Microphone automatic feeding double-assembly-line detection equipment - Google Patents

Abstract

The utility model provides a microphone automatic feeding double-flow line detection equipment, which comprises a feeding box body, a testing system, an automatic feeding and discharging system, a material conveying manipulator structure and a feeding manipulator structure, wherein the two testing box bodies are connected at two ends of the same side surface of the feeding box body and are in a U-shaped layout structure, the testing system is used for testing a microphone module, the automatic feeding system is used for automatically feeding the microphone module, the material conveying manipulator structure is used for transporting the microphone module, and the material conveying manipulator structure is used for transporting the microphone module. Convenient to use, with low costs, the practicality is strong moreover, and efficiency of software testing is high.

Description

Microphone automatic feeding double-assembly-line detection equipment

Technical Field

The utility model relates to a test equipment field, in particular to microphone automatic feeding double-flow waterline check out test set.

Background

With the development of industry, the demand of each manufacturing industry for nonstandard automation equipment is increasing continuously; nonstandard automation equipment has become important auxiliary equipment in many trades nowadays, current microphone test equipment all is single test equipment, correspond to every work station or process, and do not play the reduction in the aspect of personnel, need whole box or whole dish of product go to test next work station after having tested the multi-disc product, and next work station will wait for last work station to finish the test just can continue this work station test equally, lead to the waste of the time of material loading and unloading and the waste of latency between the work station, efficiency of software testing is lower.

Therefore, it is necessary to provide a device for detecting microphone automatic feeding and double flow lines to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a microphone automatic feeding double-flow waterline check out test set, it is through setting up two test systems of automatic feeding system butt joint to there are the efficiency of software testing low more in the microphone automatic feeding double-flow waterline check out test set among the solution prior art, and the not reasonable problem inadequately of distribution of each part.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a microphone automatic feeding double-assembly line check out test set for detect microphone module, it includes:

a feeding box body;

the two test box bodies are connected to two ends of the same side face of the upper material box body and are in a U-shaped layout structure;

the testing system is arranged in the testing box body and comprises a first testing subsystem, a film tearing system and a second testing subsystem, wherein the first testing subsystem and the second testing subsystem are arranged on two sides of the film tearing system, the first testing subsystem is used for testing a sound source of the microphone module, the second testing subsystem is used for conducting and testing the sound source of the microphone module, and the film tearing system is used for removing the back adhesive of the microphone module;

the automatic feeding system is arranged in the feeding box body and is used for automatically feeding the microphone module;

the material conveying manipulator structure is arranged in the test box body, is close to the test system and is used for conveying the microphone module;

and the feeding manipulator structure is arranged in the feeding box body and used for transporting the microphone module.

Microphone automatic feeding double-flow waterline check out test set in, be provided with the transfer station on the material loading box, two the transfer station sets up respectively and is being close to two test box one side, the transfer station includes transfer jar, transfer guide rail and transfer platform, the transfer jar is connected the transfer guide rail, the transfer platform sets up on the transfer guide rail, the transfer jar is used for driving the direction removal of transfer platform along the transfer guide rail in, the transfer platform is used for the transfer microphone module to follow automatic feeding system arrives test system.

Microphone automatic feeding double-flow waterline check out test set in, first test subsystem includes:

a first turntable board;

the first test platforms are arranged on the first turntable plate, the two first test platforms are arranged in a central symmetry mode by taking the rotating central point of the first turntable plate as a symmetry point, and the first test platforms are used for placing a microphone module;

the first testing device is arranged above the first testing platform and used for testing the sound source of the microphone module;

the second testing subsystem includes:

a second turntable plate;

the second test platforms are arranged on the second turntable plates, the two second test platforms are arranged in a central symmetry mode by taking the rotating central point of the second turntable plate as a symmetry point, and the second test platforms are used for placing the microphone modules;

and the second testing device is arranged above the second testing platform and used for conducting conduction and sound source testing on the microphone module.

Microphone automatic feeding double flow waterline check out test set in, the dyestripping system includes:

a film tearing rotary plate;

the film tearing test platforms are arranged on the film tearing rotary plate, the two film tearing test platforms are arranged in a centrosymmetric manner by taking the rotating central point of the film tearing rotary plate as a symmetric point, and the film tearing test platforms are used for placing a microphone module;

and the film tearing testing device is arranged above the second testing platform and used for moving out the back glue of the microphone module.

In the automatic microphone feeding double-assembly line detection equipment of the utility model, the axes of the first turntable plate, the second turntable plate and the film tearing turntable plate are on the same straight line;

taking an area of the first turntable plate opposite to the first testing device as a first testing area, taking a rotating central point of the first turntable plate as a symmetrical point, and taking a symmetrical area of the first testing area as a first feeding area;

taking the area of the film tearing rotary plate opposite to the film tearing test device as a film tearing test area, taking the rotation central point of the film tearing rotary plate as a symmetry point, and taking the symmetry area of the film tearing test area as a film tearing feeding area;

taking an area of the second turntable plate opposite to the second testing device as a second testing area, taking a rotation central point of the second turntable plate as a symmetrical point, and taking a symmetrical area of the second testing area as a second feeding area;

the first feeding area, the film tearing test area and the second feeding area are arranged on the same side of a straight line formed by connecting the axle centers of the first rotary plate, the second rotary plate and the film tearing rotary plate.

In the automatic microphone feeding double-assembly-line detection device, the material conveying manipulator structure comprises a feeding manipulator, a first transfer manipulator, a second transfer manipulator and a discharging manipulator, wherein the feeding manipulator is positioned between the transfer station and the first testing subsystem and is used for conveying a microphone module of the transfer station to the first testing subsystem for testing;

the first transfer manipulator is arranged between the first testing subsystem and the film tearing system and used for transporting the microphone module tested by the first testing subsystem to the film tearing system for operation;

the second switching manipulator is arranged between the film tearing system and the second testing subsystem and used for transporting the microphone module which is operated by the film tearing system to the second testing subsystem for testing;

and the blanking manipulator is arranged on one side of the second testing subsystem and used for transporting the microphone module tested by the second testing subsystem.

Microphone automatic feeding double flow waterline check out test set in, automatic feeding system is including the module of prepareeing material, flange module and charging tray, the module of prepareeing material is including the elevating platform of prepareeing material that is used for placing the charging tray, the flange module is including the flange elevating platform who is used for placing the charging tray, the elevating direction of prepareeing material elevating platform and flange elevating platform is vertical direction.

Microphone automatic feeding double-flow waterline check out test set in, automatic feeding system is including changeing the material module, it sets up to change the material module the module of prepareeing material with flange module top for the empty charging tray that will prepare material on the module transports the flange module.

Microphone automatic feeding double-flow waterline check out test set in, material loading manipulator structure include:

the fixing seat is arranged in the feeding box body;

the first mechanical arm is rotatably arranged on the fixed seat;

the second mechanical arm is rotatably connected to the first mechanical arm;

and the clamp is connected to the second mechanical arm and used for clamping the electronic product.

Microphone automatic feeding double-flow waterline check out test set in, it includes to go up the workbin:

the supporting legs are arranged at the four corners of the bottom of the upper material box body and used for supporting;

the roller is arranged at the bottom of the upper feeding box body and close to the supporting feet and used for moving the upper feeding box body;

the control panel is arranged on the side wall of the feeding box body and is used for controlling equipment to operate;

and the locking type switch door is arranged on the side wall of the feeding box body and is used for observation and collection and release of the microphone module on the feeding plate.

The utility model discloses compare in prior art, its beneficial effect is: the utility model discloses a microphone automatic feeding double-flow waterline check out test set can realize the audio test of a plurality of frequency points of product, and can differentiate the product at the sound source difference stability of different frequency points and automatic save test data and differentiate whether qualified product, avoids a series of quality problems to can not influence electronic equipment's speech quality, low cost realizes production application on a large scale, convenient to use, and is with low costs, and the practicality is strong moreover, and efficiency of software testing is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is the structural schematic diagram of the feeding box body and the testing box body of the automatic microphone feeding double-flow-line detection device of the present invention.

Fig. 2, fig. 3, and fig. 4 are schematic diagrams of the internal structure of the box of the automatic microphone feeding double-flow line detection device of the present invention.

Fig. 5 is the utility model discloses a microphone automatic feeding double-flow line check out test set's test system and fortune material manipulator structure's schematic structure diagram.

Fig. 6 is a schematic structural diagram of a turntable plate of a film tearing system of the automatic microphone feeding double-flow-line detection device of the present invention.

The automatic feeding system comprises a feeding box body, a testing box body, a 3 testing system, a 4 automatic feeding system, a 5 material conveying manipulator structure, a 6 material feeding manipulator structure, a 7 transfer station, a 11 supporting foot, a 12 control panel, a 13 locking switch door, a 31 first testing subsystem, a 32 film tearing system, a 33 second testing subsystem, a 41 material preparing module, a 42 tray connecting module, a 43 switching module, a 51 feeding manipulator, a 52 first switching manipulator, a 53 second switching manipulator, a 54 blanking manipulator, a 61 fixing seat, a 62 first manipulator, a 63 second manipulator, a 64, a clamp, a 71 transfer cylinder, a 72, a transfer guide rail, a 73 transfer platform, a 311 first testing device, a 312 first tray plate, a 313, a first testing platform, a 321, a film tearing testing device, a 322, a film tearing tray plate, a 323, a transfer guide rail, a 73, a transfer platform, a 311, a first testing device, a 322, a film tearing tray plate, a 323, Tear film test platform 331, second testing arrangement, 332, second carousel board, 333, second test platform.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the directional terms, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and the directional terms are used for illustration and understanding, but not for limiting the present invention.

The terms "first," "second," and the like in the terms of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, nor should they be construed as limiting in any way.

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.

The existing microphone testing equipment is single testing equipment, corresponds to each work station or work procedure, and does not reduce personnel, a box or a whole tray of products needs to be tested at the next work station after a plurality of products are tested, and the next work station can continue the test of the work station after the previous work station finishes the test, so that the time waste of feeding and discharging and the time waste between work stations are caused, and the testing efficiency is low.

Following do the utility model provides a pair of microphone automatic feeding double-flow-line check out test set's that can solve above technical problem preferred embodiment.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, wherein fig. 1 is the utility model discloses a structural schematic diagram of the feed box body and the test box body of microphone automatic feeding double-flow line check out test set, fig. 2, fig. 3, fig. 4 are the utility model discloses a box internal structure schematic diagram of microphone automatic feeding double-flow line check out test set, fig. 5 is the utility model discloses a structural schematic diagram of test system and fortune material manipulator structure of microphone automatic feeding double-flow line check out test set, fig. 6 is the utility model discloses a structural schematic diagram of carousel board of microphone automatic feeding double-flow line check out test set's dyestripping system.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The utility model provides a microphone automatic feeding double-flow line check out test set for detect microphone module, it includes material loading box 1, test box 2, test system 3, automatic feeding system 4, fortune material manipulator structure 5 and material loading manipulator structure 6, the utility model discloses a microphone automatic feeding double-flow line check out test set can realize the audio test of a plurality of frequency points of product, and can differentiate the sound source difference stability of product at different frequency points and automatic save test data and differentiate whether qualified product, avoids a series of quality problems to as for can not influence electronic equipment's speech quality, low cost realizes production and application on a large scale, convenient to use, and is with low costs, and the practicality is strong moreover, and efficiency of software testing is high.

Referring to fig. 1, the feeding box body 1 comprises supporting legs 11, rollers, a control panel 12, a computer host and a lock switch door 13, wherein the supporting legs 11 are arranged at four corners of the bottom of the feeding box body 1 and used for supporting, the rollers are arranged at positions, close to the supporting legs 11, of the bottom of the feeding box body 1 and used for moving the feeding box body 1, the heights of the supporting legs 11 can be adjusted, and the rollers are enabled to be in contact with the ground by adjusting the heights of the supporting legs 11 so as to conveniently move the feeding box body 1; the control panel 12 is arranged on the side wall of the feeding box body 1 and is used for controlling the equipment to operate; the locking type switch door 13 is arranged on the side wall of the feeding box body 1 and used for observing and collecting and releasing the microphone module on the material tray. Two test box 2 are connected at the both ends of the same side of material loading box 1, and material loading box 1 and test box 2 generally are U-shaped layout structure.

Referring to fig. 2, the feeding box body 1 is provided with a transfer station 7, the two transfer stations 7 are respectively arranged on one side close to the two test box bodies 2, the transfer station 7 comprises a transfer electric cylinder 71, a transfer guide rail 72 and a transfer platform 73, the transfer electric cylinder 71 is connected with the transfer guide rail 72, the transfer platform 73 is arranged on the transfer guide rail 72, the transfer electric cylinder 71 is used for driving the transfer platform 72 to move along the guide direction of the transfer guide rail 72, and the transfer platform 73 is used for transferring the microphone modules from the automatic feeding system 4 to the test system 3.

Referring to fig. 2, 4 and 6, the testing system 3 is disposed in the testing box 2 and includes a first testing subsystem 31, a tear film system 32 and a second testing subsystem 33, the first testing subsystem 31 and the second testing subsystem 33 are disposed on two sides of the tear film system 32, the first testing subsystem 31 is used for testing sound sources of the microphone module, the second testing subsystem 33 is used for conducting and testing sound sources of the microphone module, and the tear film system 32 is used for removing the back adhesive of the microphone module.

The first testing subsystem 31 comprises a first turntable board 312, first testing platforms 313 and first testing devices 311, wherein the first testing platforms 313 are arranged on the first turntable board 312, the two first testing platforms 313 are arranged in a central symmetry mode by taking the rotation center point of the first turntable board 312 as a symmetry point, and the first testing platforms 313 are used for placing microphone modules; the first testing device 311 is disposed above the first testing platform 313 for performing a sound source test on the microphone module.

The second testing subsystem 33 comprises a second turntable plate 332, a second testing platform 333 and a second testing device 331, the second testing platform 333 is arranged on the second turntable plate 332, the two second testing platforms 333 are arranged in a central symmetry manner by taking the rotation central point of the second turntable plate 332 as a symmetry point, and the second testing platform 333 is used for placing a microphone module; the second testing device 331 is disposed above the second testing platform 333 and is used for conducting and conducting sound source tests on the microphone module.

The film tearing system 32 comprises a film tearing rotary disc plate 322, a film tearing test platform 323 and a film tearing test device 321; the film tearing test platforms 323 are arranged on the film tearing rotary plate 322, the two film tearing test platforms 323 are arranged in a central symmetry mode by taking the rotation central point of the film tearing rotary plate 322 as a symmetry point, and the film tearing test platforms 323 are used for placing a microphone module; the tear film testing device 321 is disposed above the second testing platform 323 for removing the adhesive on the back of the microphone module.

The axes of the first rotating disc plate 312, the second rotating disc plate 332 and the film tearing rotating disc plate 322 are on the same straight line; taking the area of the first turntable plate 312 opposite to the first testing device 311 as a first testing area, taking the rotation center point of the first turntable plate 312 as a symmetry point, and taking the symmetry area of the first testing area as a first feeding area; taking the area of the film tearing rotary plate 322 opposite to the film tearing test device 321 as a film tearing test area, taking the rotation central point of the film tearing rotary plate 322 as a symmetry point, and taking the symmetry area of the film tearing test area as a film tearing feeding area; an area of the second turntable plate 332 opposite to the second testing device 331 is taken as a second testing area, a rotation central point of the second turntable plate 332 is taken as a symmetry point, and a symmetry area of the second testing area is taken as a second feeding area; the first feeding area, the film tearing test area and the second feeding area are arranged on the same side of a straight line formed by connecting the axle centers of the first rotating disc plate 312, the second rotating disc plate 332 and the film tearing rotating disc plate 322, when the test of the first test subsystem 31 is completed, the microphone module which is tested by the material transporting manipulator structure is transported to the film tearing feeding area of the film tearing system 32, and when the operation of the film tearing system 32 is completed, the microphone module is transported to the second feeding area of the second test subsystem 33 by the material transporting manipulator.

Referring to fig. 2 and 4, an automatic feeding system 4 is disposed in the feeding box 1 for automatic feeding of the microphone module; the automatic feeding system 4 comprises a material preparing module 41, a material receiving disc module 42, a switching module 43 and a material disc, the material preparing module 41 comprises a material preparing lifting platform for placing the material disc, the material receiving disc module 42 comprises a material receiving disc lifting platform for placing the material disc, and the material preparing lifting platform and the material receiving disc lifting platform are in a vertical direction. The material transferring module 43 is arranged on the top of the material preparing module and the material receiving module, and is used for transporting empty material trays on the material preparing module 41 to the material receiving module 42.

Referring to fig. 3 and 5, a material handling manipulator structure 5 is provided inside the test box 2, close to the test system 3, for transporting the microphone modules; the material transporting manipulator structure 5 comprises a feeding manipulator 51, a first transfer manipulator 52, a second transfer manipulator 53 and a discharging manipulator 54, wherein the feeding manipulator 51 is located between the transfer station 7 and the first testing subsystem 31 and is used for transporting the microphone module of the transfer station 7 to the first testing subsystem 31 for testing.

The first transfer manipulator 52 is arranged between the first testing subsystem 31 and the film tearing system 32 and is used for transporting the microphone module tested by the first testing subsystem 31 to the film tearing system 32 for operation; the second switching manipulator is arranged 53 between the film tearing system 32 and the second testing subsystem 33 and is used for transporting the microphone module which is operated by the film tearing system 32 to the second testing subsystem 33 for testing; the blanking manipulator 54 is disposed at one side of the second testing subsystem 33, and is used for transporting the microphone module tested by the second testing subsystem 33.

Referring to fig. 2 and 3, a loading robot structure 6 is provided in the loading housing 1 for transporting the microphone module. The feeding manipulator structure 6 comprises a fixed seat 61, a first mechanical arm 62, a second mechanical arm 63 and a clamp 64, wherein the fixed seat 61 is arranged in the feeding box body 1; one end of the first mechanical arm 62 is rotatably disposed on the fixing base 61, the other end of the first mechanical arm is rotatably connected to the second mechanical arm 63, and the clamp 64 is connected to the second mechanical arm 63 and used for clamping the electronic product.

The utility model discloses a theory of operation: feed preparation lift platform transports the charging tray of adorning the microphone module 41 topmost, material loading manipulator structure 6 transports the microphone module in the charging tray to transfer station 7, material loading manipulator 51 transports the first material loading district of first test subsystem 31 with the microphone module of transfer station 7, carry out product ID through scanning bar code or two-dimensional code and gather, first carousel board 312 is rotatory 180, first test subsystem 31 begins the test, the simulation sound production ware switches on the product with the test module, the microphone begins to receive the sound after switching on, first test subsystem 31 test module can feed back the sound source signal of the different frequency points of microphone.

After the first testing subsystem 31 completes the testing, the first transferring manipulator 52 transports the microphone module on the first testing subsystem 31 to the film tearing material loading area of the film tearing system 32, and the film tearing system 32 moves out the back adhesive of the microphone module.

After the operation of the film tearing system 32 is completed, the second switching manipulator 53 transports the microphone module on the film tearing system 32 to the second feeding area of the second testing subsystem 33, the second testing subsystem 33 conducts and sound source tests the microphone module, connects the microphone module, and conducts each connection point of the microphone module to test the conduction performance of the microphone module. The microphone module is conducted by the analog sounder and the test module, sound collection is started after the microphone is conducted, and the test module can feed back sound source signals of different frequency points of the microphone.

The unloading manipulator 54 unloads the microphone membrane block after the test is finished in a distinguishing manner, and after the microphone modules of the material tray at the upper end of the material preparation module 41 are all transported, the switching module 43 transports the empty material tray on the material preparation module 41 to the material receiving module 42, and the material receiving lifting platform transports the empty material tray away.

Thus, the working process of the automatic microphone feeding and double-pipeline detection equipment of the preferred embodiment is completed.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. The utility model provides a microphone automatic feeding double-assembly line check out test set for detect microphone module, its characterized in that includes:

a feeding box body;

the two test box bodies are connected to two ends of the same side face of the upper material box body and are in a U-shaped layout structure;

the testing system is arranged in the testing box body and comprises a first testing subsystem, a film tearing system and a second testing subsystem, wherein the first testing subsystem and the second testing subsystem are arranged on two sides of the film tearing system, the first testing subsystem is used for testing a sound source of the microphone module, the second testing subsystem is used for conducting and testing the sound source of the microphone module, and the film tearing system is used for removing the back adhesive of the microphone module;

the automatic feeding system is arranged in the feeding box body and is used for automatically feeding the microphone module;

the material conveying manipulator structure is arranged in the test box body, is close to the test system and is used for conveying the microphone module;

and the feeding manipulator structure is arranged in the feeding box body and used for transporting the microphone module.

2. The automatic microphone feeding and double-assembly-line detection device as claimed in claim 1, wherein a transfer station is disposed on the feeding box, the two transfer stations are disposed on a side close to the two testing boxes, respectively, the transfer station includes a transfer cylinder, a transfer guide rail and a transfer platform, the transfer cylinder is connected to the transfer guide rail, the transfer platform is disposed on the transfer guide rail, the transfer cylinder is used for driving the transfer platform to move along a guiding direction of the transfer guide rail, and the transfer platform is used for transferring the microphone module from the automatic feeding system to the testing system.

3. The microphone auto-feed dual-flow-line detection apparatus of claim 1, wherein the first testing subsystem comprises:

a first turntable board;

the first test platforms are arranged on the first turntable plate, the two first test platforms are arranged in a central symmetry mode by taking the rotating central point of the first turntable plate as a symmetry point, and the first test platforms are used for placing a microphone module;

the first testing device is arranged above the first testing platform and used for testing the sound source of the microphone module;

the second testing subsystem includes:

a second turntable plate;

the second test platforms are arranged on the second turntable plates, the two second test platforms are arranged in a central symmetry mode by taking the rotating central point of the second turntable plate as a symmetry point, and the second test platforms are used for placing the microphone modules;

and the second testing device is arranged above the second testing platform and used for conducting conduction and sound source testing on the microphone module.

4. The microphone auto-feed dual-flow-line detection apparatus of claim 3, wherein the tear film system comprises:

a film tearing rotary plate;

the film tearing test platforms are arranged on the film tearing rotary plate, the two film tearing test platforms are arranged in a centrosymmetric manner by taking the rotating central point of the film tearing rotary plate as a symmetric point, and the film tearing test platforms are used for placing a microphone module;

and the film tearing testing device is arranged above the second testing platform and used for moving out the back glue of the microphone module.

5. The automatic microphone feeding and double-assembly-line detection equipment as claimed in claim 4, wherein the axes of the first turntable plate, the second turntable plate and the membrane tearing turntable plate are on the same straight line;

taking an area of the first turntable plate opposite to the first testing device as a first testing area, taking a rotating central point of the first turntable plate as a symmetrical point, and taking a symmetrical area of the first testing area as a first feeding area;

taking the area of the film tearing rotary plate opposite to the film tearing test device as a film tearing test area, taking the rotation central point of the film tearing rotary plate as a symmetry point, and taking the symmetry area of the film tearing test area as a film tearing feeding area;

taking an area of the second turntable plate opposite to the second testing device as a second testing area, taking a rotation central point of the second turntable plate as a symmetrical point, and taking a symmetrical area of the second testing area as a second feeding area;

the first feeding area, the film tearing test area and the second feeding area are arranged on the same side of a straight line formed by connecting the axle centers of the first rotary plate, the second rotary plate and the film tearing rotary plate.

6. The automatic microphone feeding double-assembly-line detection device as claimed in claim 2, wherein the material conveying manipulator structure comprises a feeding manipulator, a first transfer manipulator, a second transfer manipulator and a discharging manipulator, the feeding manipulator is located between the transfer station and the first test subsystem and used for conveying a microphone module of the transfer station to the first test subsystem for testing;

the first transfer manipulator is arranged between the first testing subsystem and the film tearing system and used for transporting the microphone module tested by the first testing subsystem to the film tearing system for operation;

the second switching manipulator is arranged between the film tearing system and the second testing subsystem and used for transporting the microphone module which is operated by the film tearing system to the second testing subsystem for testing;

and the blanking manipulator is arranged on one side of the second testing subsystem and used for transporting the microphone module tested by the second testing subsystem.

7. The microphone automatic feeding double-assembly-line detection equipment as claimed in claim 1, wherein the automatic feeding system comprises a material preparation module, a material receiving module and a material tray, the material preparation module comprises a material preparation lifting platform for placing the material tray, the material receiving module comprises a material receiving lifting platform for placing the material tray, and the lifting directions of the material preparation lifting platform and the material receiving lifting platform are vertical.

8. The microphone automatic-feeding double-assembly-line detection equipment as claimed in claim 7, wherein the automatic feeding system comprises a material transferring module, and the material transferring module is arranged on the top of the material preparing module and the material receiving module and used for transporting empty trays on the material preparing module to the material receiving module.

9. The microphone automatic-feeding double-assembly-line detection device as claimed in claim 1, wherein the feeding manipulator structure comprises:

the fixing seat is arranged in the feeding box body;

the first mechanical arm is rotatably arranged on the fixed seat;

the second mechanical arm is rotatably connected to the first mechanical arm;

and the clamp is connected to the second mechanical arm and used for clamping the electronic product.

10. The microphone auto-feed dual-flow-line detection apparatus of claim 1, wherein the feed tank body comprises:

the supporting legs are arranged at the four corners of the bottom of the upper material box body and used for supporting;

the roller is arranged at the bottom of the upper feeding box body and close to the supporting feet and used for moving the upper feeding box body;

the control panel is arranged on the side wall of the feeding box body and is used for controlling equipment to operate;

and the locking type switch door is arranged on the side wall of the feeding box body and is used for observation and collection and release of the microphone module on the feeding plate.

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