CN218124934U - Bluetooth headset test equipment - Google Patents

Abstract

The utility model belongs to the earphone testing field, in particular to a Bluetooth earphone testing device, which comprises a support, a conveying mechanism, a carrier and an inclusion touch mechanism, wherein the conveying mechanism is arranged on the support, the carrier is used for bearing a Bluetooth earphone to be tested, the carrier is arranged on the conveying mechanism, and the conveying mechanism can convey the Bluetooth earphone to be tested on the carrier to a testing position from a loading position; the inclusion touch mechanism is arranged on the support and is provided with an inclusion piece capable of being opened and closed, and the inclusion piece is used for clamping the to-be-tested Bluetooth headset positioned at the test position and extruding the touch part of the to-be-tested Bluetooth headset. The Bluetooth headset testing equipment can unify the touch positions of the Bluetooth headset to be tested, reduce the false detection rate and improve the testing efficiency.

Description

Bluetooth headset test equipment

Technical Field

The utility model relates to an earphone test technical field especially relates to a bluetooth headset test equipment.

Background

With the increasing requirements of users on the functions of earphones, the traditional wired earphones cannot meet the requirements of users due to the inconvenience of carrying and using and the like. The emergence of True Wireless earphone (TWS) has satisfied the urgent need of users for the continuous improvement of earphone function. Various touch sensors are integrated on the TWS earphone, and in order to ensure that the touch function of the earphone can be normally used, whether the functions of the various touch sensors are normal or not needs to be tested in the production process of the earphone, and whether the design requirements can be met or not is judged.

The touch function test of the existing TWS earphone is realized by manually touching the earphone by a tester. However, the tester can not unify the touch positions of the earphones by manually touching the earphones for testing, the false detection rate is high, and the testing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a bluetooth headset test equipment for in solving current bluetooth headset touch function test, the touch position of earphone can not be unified to the mode that adopts artifical touch, leads to the problem that the misdetection rate is higher, efficiency of software testing is lower.

In order to achieve the above object, the utility model provides a bluetooth headset test equipment, this test equipment includes:

a support;

the conveying mechanism is arranged on the support;

the carrier is used for bearing the Bluetooth headset to be tested, the carrier is arranged on the conveying mechanism, and the conveying mechanism can convey the Bluetooth headset to be tested on the carrier to a testing position from a loading position; and

the inclusion touch mechanism is arranged on the support and is provided with an inclusion piece capable of being opened and closed, and the inclusion piece is used for clamping the to-be-tested Bluetooth headset located at the test position and extruding the touch part of the to-be-tested Bluetooth headset.

Optionally, inclusion touch mechanism still includes the drive module that opens and shuts, and the drive module that opens and shuts is fixed in on the support, and inclusion spare includes first inclusion body and second inclusion body, and first inclusion body and second inclusion body all install in the drive end of opening and shutting the drive module and can be closed relatively under the drive of opening and shutting the drive module with the centre gripping bluetooth headset that awaits measuring.

Optionally, the inclusion touch mechanism further comprises a pressure monitoring assembly, the pressure monitoring assembly comprises a pressure sensor and a display meter connected to the pressure sensor and used for displaying pressure values, and the pressure sensor is used for detecting the extrusion force between the inclusion piece and the bluetooth headset to be tested under the condition that the inclusion piece extrudes the touch part of the bluetooth headset to be tested.

Optionally, the number of the carriers and the number of the inclusion touch mechanisms are two, the two carriers are symmetrically arranged on the conveying mechanism, and the two inclusion touch mechanisms are symmetrically arranged on the support.

Optionally, conveying mechanism includes the sharp driver, open and shut driver and two carrier installing module, the sharp driver is fixed in on the support, the driver that opens and shuts is installed on the sharp driver, two carrier installing module are fixed in two drive ends that the driver opened and shut respectively, two carriers are installed respectively on two carrier installing module, the driver that opens and shuts can drive two carriers and switch between closing the state and opening the state, the sharp driver can drive the driver motion that opens and shuts, so that two carriers that are in the state of opening move to test position by material loading position.

Optionally, bluetooth headset test equipment still includes communication device, communication device includes two probe subassemblies and bluetooth communication module, two probe subassemblies install respectively in the both sides of material loading position and set up with two carriers one-to-one, each probe subassembly all includes the flexible driving piece that is fixed in the support and installs in the drive end of flexible driving piece and connect in bluetooth communication module's probe, the probe can move to the material loading position under the drive of flexible driving piece, and the touching electrode that charges that is located the bluetooth headset that awaits measuring on the carrier, so that bluetooth headset and bluetooth communication module that awaits measuring establish the bluetooth communication.

Optionally, each carrier all includes the pedestal and with pedestal articulated briquetting, the top of pedestal is provided with the position of placing that is used for placing the bluetooth headset that awaits measuring, the briquetting can rotate to the pressure for the pedestal and place on placing the bluetooth headset that awaits measuring on the position.

Optionally, bluetooth headset test equipment still includes to support the pressure mechanism, supports to press the mechanism and includes the support, set up on the support and lie in the lift driving piece of support top, be fixed in the keysets of the drive end of lift driving piece and be fixed in the pressure head on the keysets, and the pressure head can support under the drive of lift driving piece and press on the briquetting of two carriers that lie in the material loading position.

Optionally, bluetooth headset test equipment still includes hall detection mechanism, and hall detection mechanism is including installing the flexible driver on the keysets and being fixed in the magnet of flexible driver's drive end, supports when the pressure head and presses the condition on the briquetting, and magnet can be close to the bluetooth headset that awaits measuring under flexible driver's drive.

Optionally, the bluetooth headset test equipment further comprises a box body and a drawer, a rack is arranged inside the box body, the drawer is arranged on the rack in a sliding mode and can be pulled out from the inside of the box body, and the support is installed in the drawer.

The utility model provides a bluetooth headset test equipment's beneficial effect lies in: compared with the prior art, the utility model discloses a bluetooth headset test equipment is at test bluetooth headset's in-process, the bluetooth headset that will await measuring is placed on the carrier, the carrier can be with the mounted position of the bluetooth headset that awaits measuring getting off, the bluetooth headset that awaits measuring that will arrange in on the carrier through conveying mechanism is carried to test position by the material loading position, utilize inclusion piece centre gripping that can open and shut in the inclusion touch mechanism to await measuring bluetooth headset and extrude the touch portion of the bluetooth headset that awaits measuring, the touch position of the bluetooth headset that awaits measuring can be unified from this, the misdetection rate is reduced, and the test efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

fig. 1 is a schematic perspective view of a bluetooth headset testing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of the bluetooth headset testing apparatus shown in fig. 1 from another perspective;

fig. 3 is a schematic perspective view of two inclusion touch mechanisms of the testing apparatus for bluetooth headset according to an embodiment of the present invention;

fig. 4 is a schematic structural view illustrating two carriers of the bluetooth headset testing apparatus according to an embodiment of the present invention in a folded state;

fig. 5 is a schematic structural diagram of the bluetooth headset testing apparatus according to an embodiment of the present invention, wherein two carriers are in an open state;

fig. 6 is a schematic perspective view of a conveying mechanism of a testing apparatus for bluetooth earphones according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a testing apparatus for bluetooth headset with a communication device according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of the pressing mechanism and the hall detection mechanism according to an embodiment of the present invention;

fig. 9 is a schematic view of the pressing head of the embodiment of the present invention pressing against the pressing blocks of the two carriers at the loading position under the driving of the lifting driving member;

fig. 10 is a schematic perspective view of another testing apparatus for bluetooth headsets according to an embodiment of the invention;

fig. 11 is a schematic structural view of another perspective of the bluetooth headset testing apparatus shown in fig. 10;

fig. 12 is a schematic view illustrating that a drawer of the bluetooth headset testing apparatus (the box is not shown) having a box body and the drawer is drawn out from the box body according to an embodiment of the present invention;

fig. 13 is a schematic diagram illustrating a bluetooth headset testing apparatus according to an embodiment of the present invention, wherein a drawer of the bluetooth headset testing apparatus (the box is not shown) is inserted into the box;

fig. 14 is a schematic structural diagram of a drawer of a bluetooth headset testing apparatus according to an embodiment of the present invention.

Description of the main element symbols:

100. a support; 110. installing a panel; 120. butting the bottom plates; 130. a pillar;

200. a conveying mechanism; 210. a linear actuator; 220. an opening and closing driver; 230. a carrier mounting module; 231. mounting a plate; 232. positioning pins; 233. a clamping block; 240. an in-situ sensor;

300. a carrier; 310. a base body; 320. briquetting;

400. a touch mechanism is included; 410. an opening and closing driving module; 411. a first linear cylinder; 412. a second linear cylinder; 420. a wrapping member; 421. a first enclosure; 422. a second enclosure; 430. displaying a table;

500. a communication device; 510. a probe assembly; 511. a telescopic driving member; 512. a probe; 520. a Bluetooth communication module;

600. a pressing mechanism; 610. a support; 620. a lifting drive member; 630. an adapter plate; 640. a pressure head;

700. a Hall detection mechanism; 710. a telescopic driver; 720. a magnet;

800. a box body; 810. a frame; 820. a front display; 830. a rear display; 840. an input device; 850. an alarm light;

900. a drawer; 910. a fixing plate; 920. a sliding plate; 921. a positioning column; 930. the driving cylinder is driven to enter and exit; 940. a front plate;

1000. the bluetooth headset that awaits measuring.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The 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" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the 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.

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.

As described in the background, the touch function test of the existing bluetooth headset is implemented by a tester manually touching the headset. However, the tester can not unify the touch positions of the earphones by manually touching the earphones for testing, the false detection rate is high, and the testing efficiency is low.

In order to solve the above problem, an embodiment of the present invention provides a bluetooth headset testing apparatus, as shown in fig. 1, the bluetooth headset testing apparatus includes a support 100, a conveying mechanism 200, a carrier 300, and an inclusion touch mechanism 400, wherein the conveying mechanism 200 is disposed on the support 100; the carrier 300 is used for bearing the bluetooth headset 1000 to be tested, the carrier 300 is installed on the conveying mechanism 200, and the conveying mechanism 200 can convey the bluetooth headset 1000 to be tested on the carrier 300 to a testing position from a loading position; the inclusion touch mechanism 400 is arranged on the support 100, the inclusion touch mechanism 400 is provided with an inclusion piece 420 capable of being opened and closed, and the inclusion piece 420 is used for clamping the to-be-tested Bluetooth headset 1000 positioned at the test position and extruding the touch part of the to-be-tested Bluetooth headset 1000.

The embodiment of the utility model provides an in, this bluetooth headset test equipment is at the in-process of test bluetooth headset, bluetooth headset 1000 to be measured is placed on carrier 300, carrier 300 can get off the mounted position of bluetooth headset 1000 to be measured fixedly, the bluetooth headset 1000 to be measured on carrier 300 will be arranged in through conveying mechanism 200 is carried to the test position by last material level, utilize the encapsulation piece 420 centre gripping bluetooth headset 1000 to be measured on the encapsulation touch mechanism 400 and extrude the touch portion of bluetooth headset 1000 to be measured, compare in artifical manual touch test, the touch position of bluetooth headset 1000 to be measured can be unified to this equipment, reduce the misdetection rate, the efficiency of software testing has been promoted.

It should be noted that, the touch portion on the bluetooth headset 1000 to be tested is a portion on the bluetooth headset where the touch sensor is disposed, and since the touch sensor used on the TWS headset with pressure is a resistive touch sensor, the wrapping element 420 on the wrapping touch mechanism 400 is utilized to clamp the bluetooth headset 1000 to be tested and squeeze the touch portion of the bluetooth headset 1000 to be tested, so as to simulate the in-ear detection of the bluetooth headset during use.

In an embodiment, as shown in fig. 1 and fig. 3, the enclosure touch mechanism 400 further includes an opening/closing driving module 410, the opening/closing driving module 410 is fixed on the support 100, the enclosure member 420 includes a first enclosure body 421 and a second enclosure body 422, and the first enclosure body 421 and the second enclosure body 422 are both installed at the driving end of the opening/closing driving module 410 and can be relatively closed under the driving of the opening/closing driving module 410 to clamp the bluetooth headset 1000 to be tested.

Design into first enclosure 421 and second enclosure 422 two parts with enclosure 420, utilize the drive module 410 that opens and shuts to drive first enclosure 421 and second enclosure 422 closed relatively and realize the centre gripping and the extrusion to the bluetooth headset 1000 that awaits measuring for enclosure touch mechanism 400 simple structure.

Specifically, in this embodiment, the opening/closing driving module 410 adopts the first linear air cylinder 411 and the second linear air cylinder 412 to drive the first engaging body 421 and the second engaging body 422 to close or separate respectively to realize the opening and closing of the engaging body 420, and it is understood that, in other embodiments, the opening/closing driving module 410 may also adopt two hydraulic cylinders or two electric push rods or two linear sliding tables or one two-claw pneumatic finger and other driving mechanisms, as long as the first engaging body 421 and the second engaging body 422 are driven to close relatively to realize the clamping and squeezing of the bluetooth headset 1000 to be tested, which is not limited herein.

One side that is used for the centre gripping bluetooth headset 1000 that awaits measuring on the first complex 421 is provided with the first sunken with the bluetooth headset 1000 that awaits measuring's that corresponds centre gripping position adaptation, and one side that is used for the centre gripping bluetooth headset 1000 that awaits measuring on the second complex 422 is provided with the second sunken with the bluetooth headset 1000 that awaits measuring's that corresponds centre gripping position adaptation, from this design for the packing piece 420 can carry out firm centre gripping and apply even extrusion force to the bluetooth headset 1000 that awaits measuring.

Further, in order to avoid damage to the bluetooth headset 1000 to be tested in the testing process, at least the portions of the carrier 300, the first enclosure 421 and the second enclosure 422 contacting the bluetooth headset 1000 to be tested are made of a flexible material (such as rubber or silica gel).

In a specific embodiment, as shown in fig. 12, the enclosure touch mechanism 400 further includes a pressure monitoring component, the pressure monitoring component includes a pressure sensor and a display meter 430 connected to the pressure sensor and used for displaying a pressure value, the pressure sensor is used for detecting a pressing force between the enclosure piece 420 and the bluetooth headset 1000 to be tested when the enclosure piece 420 presses the touch portion of the bluetooth headset 1000 to be tested.

Detect and show the extrusion force of inclusion piece 420 to the bluetooth headset 1000 that awaits measuring under the condition of inclusion piece 420 extrusion touch portion through the pressure monitoring subassembly, the tester of being convenient for can know the size of extrusion force in real time, avoids too big or the undersize accuracy that influences the testing process of extrusion force.

In one embodiment, as shown in fig. 1 and 3-5, the number of the carriers 300 and the enclosure touch mechanisms 400 is two, two carriers 300 are symmetrically arranged on the conveying mechanism 200, and two enclosure touch mechanisms 400 are symmetrically arranged on the support 100.

Through setting up as above, can detect the earphone of controlling of a pair of bluetooth headset 1000 that awaits measuring simultaneously, improve the efficiency of test.

In a more specific embodiment, as shown in fig. 1 and 6, the conveying mechanism 200 includes a linear actuator 210, an opening and closing actuator 220, and two carrier installation modules 230, the linear actuator 210 is fixed on the support 100, the opening and closing actuator 220 is installed on the linear actuator 210, the two carrier installation modules 230 are respectively fixed at two driving ends of the opening and closing actuator 220, the two carriers 300 are respectively installed on the two carrier installation modules 230, the opening and closing actuator 220 can drive the two carriers 300 to switch between a closed state and an open state, and the linear actuator 210 can drive the opening and closing actuator 220 to move, so that the two carriers 300 in the open state move from a loading position to a testing position.

In the detection process, a pair of bluetooth headset 1000 that awaits measuring is corresponding to be placed on two carriers 300 that are located the material loading position and are in the state of drawing close, and the driver 220 that opens and shuts drives two carriers 300 and switches to the state of opening by the state of drawing close, then linear actuator 210 drives two carriers 300 and moves to test position by the material loading position, and the inclusion piece 420 of two inclusion touch mechanism 400 corresponds centre gripping respectively and extrudes the bluetooth headset 1000 that awaits measuring that is located on two carriers 300 in order to carry out the touch function test.

The carrier installation module 230 includes an installation plate 231 fixed on the driving end of the opening and closing driver 220, two positioning pins 232 disposed on the installation plate 231, and a clamping block 233, wherein the carrier 300 is provided with positioning holes corresponding to the positioning pins 232, the carrier 300 is placed on the installation plate 231, the positioning pins 232 are inserted into the positioning holes, and then the carrier 300 is clamped and installed on the installation plate 231 through the clamping block 233, so that the installation of the carrier 300 on the carrier installation module 230 is completed.

Further, in order to prevent the conveying mechanism 200 from operating according to a predetermined program even when the carrier 300 is not mounted on the carrier mounting module 230 or when the carrier 300 falls off from the carrier mounting module 230, an in-place sensor 240 for detecting whether the carrier 300 is present on the mounting plate 231 is further provided on the mounting plate 231.

Specifically, the linear actuator 210 includes, but is not limited to, a linear air cylinder, an electric push rod, a hydraulic cylinder, a linear module, a linear motor. The opening and closing driver 220 may be a finger cylinder, or two linear cylinders or electric push rods arranged oppositely.

In some embodiments, as shown in fig. 1-2, the support 100 includes a mounting panel 110 and a docking board 120 disposed at an interval, and a support column 130 connected between the mounting panel 110 and the docking board 120, the mounting panel 110 is used for mounting the enclosure touch mechanism 400, the docking board 120 is used for connecting to the outside, the conveying mechanism 200 is disposed between the mounting panel 110 and the docking board 120 and fixed on the docking board 120, an avoiding through hole is formed on the mounting panel 110, the carrier mounting module 230 on the conveying mechanism 200 is disposed in the avoiding through hole, and the carrier 300 extends out of the avoiding through hole. Through above layered design, structural arrangement is reasonable, and the integrated level is high.

In an embodiment, as shown in fig. 1 and 7, the bluetooth headset testing apparatus further includes a communication device 500, the communication device 500 includes two probe assemblies 510 and a bluetooth communication module 520, the two probe assemblies 510 are respectively installed at two sides of the loading position and are arranged in one-to-one correspondence with the two carriers 300, each probe assembly 510 includes a telescopic driving member 511 fixed to the support 100 and a probe 512 installed at a driving end of the telescopic driving member 511 and connected to the bluetooth communication module 520, the probe 512 can move to the loading position under the driving of the telescopic driving member 511 and touch a charging electrode of the bluetooth headset 1000 to be tested on the carrier 300, so that the bluetooth headset 1000 to be tested and the bluetooth communication module 520 establish bluetooth communication.

It should be noted that the bluetooth communication module 520 of the communication device 500 is used to connect a processor (e.g., a computer), and through the above configuration, before performing the touch test on the bluetooth headset 1000 to be tested, the bluetooth communication between the bluetooth headset 1000 to be tested and the processor is established without manual operation of a tester, thereby improving the test efficiency.

Specifically, in the detection process, after a pair of bluetooth headsets 1000 to be tested are correspondingly placed on two carriers 300 which are located at a loading position and in a closed state, probes 512 of two probe assemblies 510 extend out under the driving of a telescopic driving piece 511 and respectively touch charging electrodes of the bluetooth headsets 1000 to be tested located on the two carriers 300, so that the bluetooth headsets 1000 to be tested establish bluetooth communication with a processor, then the probes 512 of the probe assemblies 510 retract under the driving of the telescopic driving piece 511, an opening and closing driver 220 drives the two carriers 300 to be switched from the closed state to an open state, then a linear driver 210 drives the two carriers 300 to move from the loading position to a test position, closing pieces 420 of the two closing touch mechanisms 400 respectively correspondingly clamp and press the bluetooth headsets 1000 to be tested located on the two carriers 300 to perform a touch function test, and in the process of performing the touch test, the state of the bluetooth headsets is monitored by the processor in real time.

Specifically, the telescopic driving member 511 may employ a linear cylinder or an electric push rod.

In a specific embodiment, as shown in fig. 1 and 4, each carrier 300 includes a base 310 and a pressing block 320 hinged to the base 310, a placing position for placing the bluetooth headset 1000 to be tested is disposed on the top of the base 310, and the pressing block 320 can rotate relative to the base 310 to press the bluetooth headset 1000 to be tested placed on the placing position.

In a further specific embodiment, as shown in fig. 8-9, the bluetooth headset testing apparatus further includes a pressing mechanism 600, the pressing mechanism 600 includes a support 610, a lifting driving member 620 disposed on the support 610 and located above the support 100, an adapter plate 630 fixed at a driving end of the lifting driving member 620, and a pressing head 640 fixed on the adapter plate 630, and the pressing head 640 can press against the pressing blocks 320 of the two carriers 300 located at the upper position under the driving of the lifting driving member 620.

The pressing head 640 of the pressing mechanism 600 is pressed against the pressing blocks 320 of the two carriers 300 located at the loading position under the driving of the lifting driving member 620, so that the stability of the bluetooth headset 1000 to be tested on the carriers 300 is improved, and when the communication device 500 establishes communication with the bluetooth headset 1000 to be tested, the probes 512 of the probe assembly 510 extend out under the driving of the telescopic driving member 511 and touch the charging electrodes of the bluetooth headset 1000 to be tested, the bluetooth headset 1000 to be tested does not change position relative to the carriers 300.

Specifically, the lifting driving member 620 may employ a linear cylinder or an electric push rod.

In a further specific embodiment, as shown in fig. 8-9, the bluetooth headset testing apparatus further includes a hall detection mechanism 700, where the hall detection mechanism 700 includes a telescopic driver 710 installed on the adapter board 630 and a magnet 720 fixed at a driving end of the telescopic driver 710, and when the pressing head 640 presses against the pressing block 320, the magnet 720 can approach the bluetooth headset 1000 to be tested under the driving of the telescopic driver 710.

Through setting up hall detection mechanism 700, can carry out hall test to bluetooth headset 1000 that awaits measuring, simultaneously, set up hall detection mechanism 700 on pressing mechanism 600, simplify the structure, can also carry out hall detection, facilitate the use when pressing mechanism 600 work.

Specifically, the telescopic driver 710 may employ a linear air cylinder or an electric push rod.

In an embodiment, as shown in fig. 10-13, the bluetooth headset testing apparatus further includes a box 800 and a drawer 900, a rack 810 is disposed inside the box 800, the drawer 900 is slidably disposed on the rack 810 and can be drawn out from the inside of the box 800, the holder 100 is mounted in the drawer 900, the bracket 610 of the pressing mechanism 600 is fixed on the rack 810, and after the drawer 900 is completely pushed into the box 800, the two carriers 300 in the loading position and in the close state are located right below the pressing head 640 of the pressing mechanism 600.

The whole test equipment can be protected through the box body 800, a processor, a controller, a power supply and the like are further installed in the box body 800, a processor system is used for processing data in the test process, the controller is used for controlling the working states of the conveying mechanism 200, the inclusion touch mechanism 400, the communication device 500, the abutting mechanism 600 and the Hall detection mechanism 700, and the power supply is used for supplying power to ensure normal operation of test operation. Meanwhile, the side face of the box body 800 is also provided with a side door, so that the processor, the controller, the power supply and the like can be conveniently overhauled or replaced. The top of the case 800 is provided with an alarm lamp 850. The case 800 is provided with a front display 820, a rear display 830, an input device 840 (such as a mouse, a keyboard, or a touch pad), and various electrical interfaces.

The drawer 900 draws the box 800 out of the opening formed on the box 800 or pushes the box 800 in, as shown in fig. 14, the drawer 900 includes a fixing plate 910 for fixing to the frame 810, a sliding plate 920 slidably disposed on the fixing plate 910, an in-out driving cylinder 930 disposed between the fixing plate 910 and the sliding plate 920 for driving the sliding plate to enter and exit the inside of the box 800, and a front plate 940 fixed on the sliding plate 920, the sliding plate 920 is provided with positioning posts 921, the support 100 is provided with positioning holes corresponding to the positioning posts 921, and the display meter 430 of the pressure monitoring assembly is mounted on the front plate 940 for the convenience of the tester to view.

Preferably, in a specific embodiment, the opening and closing driving module 410 in the enclosing touch mechanism 400, the linear driver 210 and the opening and closing driver 220 in the conveying mechanism 200, the telescopic driving member 511 in the probe assembly 510, the lifting driving member 620 in the pressing mechanism 600, and the telescopic driver 710 in the hall detection mechanism 700 all adopt air cylinders, the types of the air cylinders are selected according to actual conditions, and the air cylinders are simple in structure, easy to install and maintain, and quick in action.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims (10)

1. A bluetooth headset testing device, comprising:

a support;

the conveying mechanism is arranged on the support;

the carrier is used for bearing the Bluetooth headset to be tested, the carrier is installed on the conveying mechanism, and the conveying mechanism can convey the Bluetooth headset to be tested on the carrier from a loading position to a testing position; and

and the inclusion touch mechanism is arranged on the support and is provided with an inclusion piece capable of being opened and closed, and the inclusion piece is used for clamping the Bluetooth headset to be tested positioned at the test position and extruding the touch part of the Bluetooth headset to be tested.

2. The Bluetooth headset testing equipment of claim 1, wherein the enclosure touch mechanism further comprises an opening and closing driving module, the opening and closing driving module is fixed on the support, the enclosure member comprises a first enclosure body and a second enclosure body, and the first enclosure body and the second enclosure body are both installed at a driving end of the opening and closing driving module and can be relatively closed under the driving of the opening and closing driving module to clamp the Bluetooth headset to be tested.

3. The bluetooth headset testing apparatus according to claim 2, wherein the enclosure touch mechanism further comprises a pressure monitoring component, the pressure monitoring component comprises a pressure sensor and a display meter connected to the pressure sensor and configured to display a pressure value, the pressure sensor is configured to detect a pressing force between the enclosure member and the bluetooth headset to be tested when the enclosure member presses the touch portion of the bluetooth headset to be tested.

4. The bluetooth headset testing apparatus of any one of claims 1-3, wherein the number of the carriers and the enclosure touching mechanisms is two, and the two carriers are symmetrically disposed on the conveying mechanism, and the two enclosure touching mechanisms are symmetrically disposed on the support.

5. The Bluetooth headset testing equipment of claim 4, wherein the conveying mechanism comprises a linear driver, an opening and closing driver and two carrier installation modules, the linear driver is fixed on the support, the opening and closing driver is installed on the linear driver, the two carrier installation modules are respectively fixed at two driving ends of the opening and closing driver, the two carriers are respectively installed on the two carrier installation modules, the opening and closing driver can drive the two carriers to switch between a close state and an open state, and the linear driver can drive the opening and closing driver to move, so that the two carriers in the open state move to the testing position from the material loading position.

6. The bluetooth headset testing device of claim 5, further comprising a communication device, wherein the communication device includes two probe assemblies and a bluetooth communication module, the two probe assemblies are respectively installed at two sides of the loading position and are arranged in one-to-one correspondence with the two carriers, each probe assembly includes a telescopic driving member fixed to the support and a probe installed at a driving end of the telescopic driving member and connected to the bluetooth communication module, the probe can move to the loading position under the driving of the telescopic driving member and touch a charging electrode of the bluetooth headset to be tested on the carrier, so that the bluetooth headset to be tested and the bluetooth communication module establish bluetooth communication.

7. The Bluetooth headset testing device according to claim 6, wherein each carrier includes a seat body and a pressing block hinged to the seat body, a placing position for placing the Bluetooth headset to be tested is provided on a top of the seat body, and the pressing block can rotate relative to the seat body to press on the Bluetooth headset to be tested placed on the placing position.

8. The Bluetooth headset testing equipment of claim 7, further comprising a pressing mechanism, wherein the pressing mechanism comprises a support, a lifting driving member disposed on the support and located above the support, an adapter plate fixed at a driving end of the lifting driving member, and a pressing head fixed on the adapter plate, and the pressing head can be pressed on the pressing blocks of the two carriers located at the loading position under the driving of the lifting driving member.

9. The bluetooth headset test equipment of claim 8, further comprising a hall detection mechanism, wherein the hall detection mechanism comprises a telescopic driver installed on the adapter plate and a magnet fixed at a driving end of the telescopic driver, and when the pressure head is pressed against the pressure block, the magnet can be driven by the telescopic driver to approach the bluetooth headset to be tested.

10. The bluetooth headset testing apparatus of claim 1, further comprising a case and a drawer, wherein the case is provided with a rack inside, the drawer is slidably disposed on the rack and can be drawn out from the inside of the case, and the support is mounted in the drawer.

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