CN218071565U - Mobile phone detection equipment - Google Patents

Abstract

The utility model discloses a mobile phone detection equipment, including the positioner who installs on quick-witted case, recognition device and plug device with arrange in quick-witted incasement detection module and control module group, positioner includes a plurality of tools and orders about the actuating mechanism of a plurality of tool synchronization actions, the tool is used for accepting and fixed cell-phone, the end of a plurality of tools is arranged in to a plurality of recognition device one-to-ones, a cell-phone for being fixed in on the tool sweeps the sign indicating number discernment, a plurality of plug device one-to-ones are arranged in the opposite side of a plurality of tools, still respectively with detection module electric connection, a module for relative tool rectilinear movement is with intercommunication cell-phone and detection module group, detection module group is used for carrying out automated inspection and showing the testing result to each cell-phone, control module group respectively with the tool, recognition device, plug device and detection module group four electric connection, a coordinated action for control four. The device has simple structure, can realize automatic detection, has high detection efficiency and effectively reduces the cost.

Description

Mobile phone detection equipment

Technical Field

The utility model relates to a cell-phone test field especially relates to a cell-phone check out test set.

Background

With the development trend of mobile phone intellectualization and lightness and thinness, the mobile phone is required to be small, exquisite, light and thin, sensitive to touch, clear in display and rich in functions, and the increasingly rich functions are especially used for testing the charging timeliness, the safety during charging use, data storage and other performances of the mobile phone. At present, in order to efficiently verify whether the performance of mass-produced mobile phones meets the processing requirements, manual sampling inspection is often adopted for detection, so that effective detection of each mobile phone cannot be effectively guaranteed, potential quality hazards exist, manual detection is long in time consumption, low in efficiency and high in labor cost, the mobile phones can be possibly damaged in the detection process, and therefore the problem of how to effectively fix the mobile phones so as to complete corresponding tests is also involved.

Therefore, there is a need for a mobile phone detection device with automatic detection, simple structure, high efficiency and low cost to overcome the above problems

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can realize carrying out automated inspection, simple structure, high and with low costs mobile phone detection equipment of efficiency of software testing to the cell-phone performance.

In order to achieve the above object, the utility model discloses a mobile phone detection equipment, including install positioner, recognition device and the plug device on quick-witted case and arrange in quick-witted incasement detection module and control module, positioner includes a plurality of tools and orders about the actuating mechanism of a plurality of tool synchronization action, the tool is used for accepting and fixed cell-phone, recognition device with the quantity of plug device is a plurality of, and is a plurality of recognition device one-to-one is arranged in a plurality of the end side of tool is used for sweeping the sign indicating number discernment to being fixed in cell-phone on the tool, and is a plurality of the plug device one-to-one is arranged in a plurality of the opposite side of tool still respectively with detect module electric connection, be used for relative the tool is straight reciprocating motion in order to communicate the cell-phone with detect the module, detect the module be used for carrying out automated inspection and showing the testing result to each cell-phone, control module respectively with the tool recognition device plug device reaches detect module electric connection.

Preferably, the plurality of jigs are arranged on the working panel of the case at equal intervals, and the jigs are used for fixing the size of the placement area of the mobile phone in an adjustable manner.

Preferably, the driving mechanism includes a motor, a connecting plate and pivot blocks, the connecting plate is connected to the output end of the motor, a plurality of pivot blocks are arranged at equal intervals at the opposite rear side end of the connecting plate, the plurality of jigs are connected to the plurality of pivot blocks in a one-to-one correspondence, and the motor is used for driving the connecting plate to do linear reciprocating motion along the vertical direction.

Preferably, the jig comprises two brackets, two connecting rods, a stop block and at least one longitudinal linear guide rail, wherein the opposite lower ends of the two connecting rods are symmetrically pivoted to the corresponding output ends of the pivoting blocks, the opposite upper ends of the two connecting rods are pivoted with the opposite lower ends of the two brackets in a one-to-one correspondence manner, the opposite rear ends of the two brackets are respectively slidably arranged on the longitudinal linear guide rail, the inner edges of the opposite upper ends of the two brackets are mutually matched to form a supporting platform, the outer edges of the opposite upper ends of the two brackets are respectively provided with a limit block, the two limit blocks are symmetrically arranged, and the stop block is arranged between the two brackets in a transversely slidable manner and is located at the opposite rear end of the supporting platform.

Preferably, the jig further comprises a carrier, and the carrier is detachably mounted at the central positions of the two brackets and used for receiving a mobile phone and for initial alignment of the mobile phone.

Preferably, the identification device comprises a miniature camera and a camera base, wherein the miniature camera is arranged on the camera base in a height-adjustable manner and is used for scanning code identification of the mobile phone from the bottom side and sending identification information to the control module.

Preferably, the utility model discloses a mobile phone detection equipment still includes adjustment mechanism, adjustment mechanism includes locating plate, mounting panel and driving piece, have on the locating plate along two at least guide bars of transversal arrangement, wear to arrange in at least two mounting panel slidable on the guide bar, each recognition device's camera frame be equidistant install in on the mounting panel, the mounting panel still with the driving piece is connected, thereby the driving piece order about down in slide on the guide bar.

Preferably, the plugging device comprises a data line and a transfer mechanism, the data line is adjustably mounted on the transfer mechanism, and is electrically connected with the detection module, and the data line is driven by the transfer mechanism to linearly reciprocate along the transverse direction, the longitudinal direction and the vertical direction so as to adjust the relative position between the data line and the USB interface of the mobile phone, thereby realizing plugging or separation with the USB interface of the mobile phone.

Preferably, the plugging device further comprises a crimping piece, the crimping piece is rotatably installed on the transfer mechanism, is located beside the plug connector of the data line, and is used for abutting against the top side end of the mobile phone.

Preferably, the detection module comprises a test computer, and a display, a touch screen and a display lamp which are connected with the test computer, the display is arranged at the outer end of the case and used for displaying the detection result of each mobile phone, the touch screen and the display lamp are both arranged on the case, the display lamps and the jigs are arranged in a one-to-one correspondence manner, and the detection result is displayed through light color.

Compared with the prior art, the utility model discloses a mobile phone detection equipment is including locating a plurality of tools on the quick-witted case, and a plurality of tools can the synchronization action under actuating mechanism orders about, then can fix a plurality of cell-phones at every turn, thereby through high-efficient and accurate location, effectively improve detection efficiency and the degree of accuracy, combine a plurality of recognition device and a plurality of plug device respectively one-to-one to arrange in the bottom side end and the side in opposite directions of a plurality of tools, thereby realize the intercommunication between detection module and each cell-phone through each plug device that is connected with the detection module who locates quick-witted incasement, make the detection module can be to the smooth and easy nature and the reliability of the plug of the USB interface of cell-phone, the ageing and the security that the heavy current fills soon, download and storage's smooth and performance such as response speed test, and under recognition device to the code scanning discernment of cell-phone and send identification information for the control module's cooperation, show the testing result of each cell-phone respectively, with discernment defective products, the utility model discloses a mobile phone detection equipment can carry out the automation operation of location and detection to the cell-phone, moreover, the steam generator is simple in structure, and rationally distributed, the efficiency is just with relatively low costs.

Drawings

Fig. 1 is a three-dimensional structure diagram of the mobile phone detection device of the present invention.

Fig. 2 is a plan structure view of the mobile phone detection device of the present invention.

Fig. 3 is a partial structure diagram of the mobile phone detection device of the present invention.

Fig. 4 is a three-dimensional structure diagram of the working panel of the present invention.

Fig. 5 is a perspective view of the positioning device of the present invention.

Fig. 6 is a three-dimensional structure diagram of the jig of the present invention.

Fig. 7 is a perspective structure view of the mobile phone detection device of the present invention having an adjusting mechanism.

Fig. 8 is a perspective view of the plugging device of the present invention.

Fig. 9 is a plan view of the plugging device of the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1 to 9, the present invention relates to a mobile phone test apparatus 100, which is suitable for testing the smoothness and reliability of the USB interface access of the mobile phone, the timeliness and safety of the large-current charging of the mobile phone, and the downloading and storing functions of the mobile phone. In summary, the mobile phone inspection apparatus 100 provided in the preferred embodiment of the present invention includes a positioning device 20, a recognition device 30, and a plugging device 40 disposed on a chassis 10, and an inspection module 50 and a control module 60 disposed in the chassis 10. The positioning device 20 includes a plurality of jigs 21 and a driving mechanism 22 for driving the jigs 21 to synchronously move, the jigs 21 are disposed on the working panel 11 of the chassis 10 at equal intervals for receiving and fixing the mobile phone, and the positioning device 20 can fix a plurality of mobile phones each time. The number of the recognition devices 30 is plural, and the recognition devices 30 are arranged at the bottom side ends of the jigs 21 in a one-to-one correspondence manner, and are used for scanning and recognizing the mobile phone fixed on the corresponding jig 21 from the bottom side, so that the space is effectively utilized, and the structure is more compact. The number of the plugging devices 40 is also multiple, and the plugging devices 40 are correspondingly arranged on the opposite sides of the jigs 21 one by one, each plugging device 40 is also electrically connected with the detection module 50 respectively and used for making linear reciprocating motion relative to the corresponding jig 21 so as to communicate each mobile phone with the detection module 50, and the detection module 50 is used for automatically detecting each mobile phone and displaying the detection result. The control module 60 is electrically connected to each fixture 21, each recognition device 30, each plugging device 40, and each detection module 50, respectively, and is used for controlling the coordination among each fixture 21, each recognition device 30, each plugging device 40, and each detection module 50.

It should be noted that, for convenience of understanding, the longitudinal direction, the transverse direction and the vertical direction mentioned in the present application respectively correspond to the longitudinal direction, the transverse width direction and the vertical height direction of the chassis 10, i.e. the directions indicated by the arrows Y, X and Z in the drawings, but the present invention is not limited thereto.

Referring to fig. 1 and 2, a plurality of jigs 21 are arranged in a matrix on the working panel 11 at the top end of the chassis 10, and the working panel 11 is detachably mounted at the top end of the chassis 10, thereby facilitating the rapid assembly of each jig 21. In addition, the size of the positioning interval for fixing the mobile phone is adjustably arranged, so that the mobile phone fixing device is suitable for fixing mobile phones with different specifications and sizes, and the adaptability of the mobile phone fixing device is effectively improved. Specifically, as shown in fig. 1, the plurality of jigs 21 are arranged in two rows, and 6 jigs 21 are arranged in each row, so that 12 mobile phones can be fixed each time, and corresponding detection actions are completed. Of course, the 8 jigs 21 may be arranged in two rows, or the 18 jigs 21 may be arranged in three rows, which is not limited to this. In the preferred embodiment of the present application, the jigs 21 of each row are correspondingly mounted on the work panels 11 arranged side by side, that is, the number of the work panels 11 corresponds to the number of the rows of the jigs 21, so that the jigs 21 of each row can be rapidly assembled, the structure is further optimized, and the use is more flexible.

Referring to fig. 3 and 4, in particular, the working panel 11 is provided with a first penetrating hole 111 for the fixture 21 to be disposed, a second penetrating hole 112 for the identification device 30 to be disposed, and a third penetrating hole 113 for the plugging device 40 to be disposed, so that the bottom ends of the fixture 21, the identification device 30, and the plugging device 40 are disposed in the box of the case 10, and the top ends of the fixture 21, the identification device 30, and the plugging device 40 are exposed outside the case 10 after passing through the corresponding first penetrating hole 111, the second penetrating hole 112, and the third penetrating hole 113 of the working panel 11, thereby facilitating the rapid assembly of the fixture 21, the identification device 30, and the plugging device 40, effectively utilizing space, and making the overall layout more compact. The third penetrating holes 113 and the first penetrating holes 111 are respectively located on the front and rear opposite sides of the working panel 11, and are respectively arranged along the longitudinal direction of the working panel 11, that is, along the longitudinal direction, and the second penetrating holes 112 are arranged along the transverse width direction of the working panel 11, that is, along the transverse direction. The number of the first penetrating holes 111, the second penetrating holes 112 and the third penetrating holes 113 is plural, so that each fixture 21, each recognition device 30 and each plugging device 40 can be correspondingly arranged. In addition, the working panel 11 is further provided with a plurality of fourth through holes 114 for the display lamps 53 of the detection devices 50 to be correspondingly arranged, and the fourth through holes 114 are located at opposite edges of the front side end of the working panel 11 and are arranged along the longitudinal direction of the working panel 11.

Referring to fig. 2, 5 and 6, in the preferred embodiment of the present application, the driving mechanism 22 is disposed in the chassis 10, and includes a motor 221, a connecting plate 222 and a pivot block 223, the connecting plate 222 is connected to an output end of the motor 221, a plurality of pivot blocks 223 are disposed at equal intervals on opposite rear side ends of the connecting plate 222, the plurality of jigs 21 are connected to the plurality of pivot blocks 223 in a one-to-one correspondence manner, and the motor 221 is configured to drive the connecting plate 222 to perform a linear reciprocating motion along a vertical direction, so as to drive each jig 21 to perform a synchronous opening and closing motion, thereby clamping or releasing the mobile phone disposed on each jig 21. In some embodiments, the driving mechanism 22 further includes a plurality of vertical linear rails 224, and the plurality of pivoting blocks 223 are slidably disposed on the plurality of vertical linear rails 224 one by one, so that the actions of the jigs 21 are more stable and smoother.

The number of the motors 221 can be 1 or more, and when the jigs 21 are only arranged in a row or the number is relatively small, the same motor 221 can drive each jig 21 to synchronously operate, thereby simplifying the structure and reducing the cost. When the number of each row of jigs 21 is relatively large or there are multiple rows of jigs 21, the number of the motors 221 may correspond to the number of groups equally divided by multiple jigs 21 in the same row or the number of rows of multiple rows of jigs 21, so that each group or each row of jigs 21 is driven by two or more motors 221, thereby effectively improving the accuracy of synchronous driving control. As shown in fig. 2 and 5, the 12 jigs 21 are arranged in two rows, and the 6 jigs 21 in each row are equally divided into two groups, so that the two groups of jigs 21 in the same row are driven by two motors 221.

Referring to fig. 3 to 6, in the preferred embodiment of the present invention, the fixture 21 includes two brackets 211, two connecting rods 212, a stopper 213 and at least one longitudinal linear guide 214, wherein the opposite lower ends of the two connecting rods 212 are symmetrically pivoted to the output ends of the corresponding pivoting blocks 223, the opposite upper ends of the two connecting rods 222 are pivoted to the opposite lower ends of the two brackets 211 one to one, the opposite rear ends of the two brackets 211 are respectively slidably disposed on the longitudinal linear guide 214, the inner edges of the opposite upper ends of the two brackets 211 are mutually matched to form a supporting platform 21a, the outer edges of the opposite upper ends of the two brackets 211 are respectively provided with a stopper 215, the two stoppers 215 are symmetrically disposed, and the stopper 213 is transversely slidably disposed between the two brackets 211 and located at the opposite rear end of the supporting platform 21 a. The stopper 215 may be a whole, and the shape of the stopper 215 is a bar, and the stopper 215 having a certain length may be disposed on the outer edge of the bracket 211 along the longitudinal direction of the bracket 211 to position the mobile phone. In the preferred embodiment of the present application, the limiting block 215 includes two limiting portions 2511 respectively disposed at the front and rear opposite ends of the bracket 211, so that the two limiting portions 2511 disposed at intervals can not only perform a limiting function, but also form an avoiding space, thereby facilitating the taking and placing of the mobile phone, wherein the two limiting portions 2511 may be disposed symmetrically, and of course, the two limiting portions may have different structures.

When the testing device works specifically, the connecting plate 222 is driven by the motor 221 to drive the pivoting block 223 to slide on the vertical linear guide rail 224, so that the two connecting rods 212 pivoted on the pivoting block 223 rotate synchronously with the pivoting block, and therefore the two brackets 211 are driven to move oppositely or backwards on the longitudinal linear guide rail 214, so as to realize centering alignment, and the two limiting blocks 215 are abutted or separated from the mobile phone supported on the supporting platform 21a from the left and right opposite sides, so that the mobile phone is clamped or loosened, the mobile phone is prevented from moving in the left and right directions in the testing process, the testing accuracy is effectively improved, and the mutual movement between the two brackets 211 can also effectively adjust the size of the supporting platform 21a formed by the two brackets, namely the size of the positioning interval of the jig 21 is changed, so that the testing device is suitable for positioning of mobile phones with different width sizes, and the adaptability of the jig 21 is effectively improved. In addition, the stopper 213 can be abutted or separated from the opposite rear side to the rear side of the corresponding mobile phone, so as to limit the mobile phone from moving backward, for example, when a USB data line is inserted into a USB interface at the front side of the mobile phone to perform corresponding plugging, charging, downloading and storage function tests, the mobile phone can be effectively prevented from moving backward under the action of an insertion force, thereby realizing accurate positioning and improving the detection efficiency and accuracy. Of course, the movable arrangement of the stop 213 is adapted to position handsets of different length dimensions. Wherein each stop 213 is driven by the same driving member 23, and the driving member 23 is a linear cylinder or a screw adjusting assembly, thereby simplifying the structure.

Referring to fig. 2 and 3, in some embodiments, the jig 21 further includes a carrier 216, and the carrier 216 is detachably disposed at a central position of the two brackets 211 for receiving the mobile phone and for initial alignment of the mobile phone, so that the carrier 216 is used for performing quick alignment and placement, and the two brackets 211 can move relative to the carrier 216 to fix the mobile phone supported on the carrier 216. The through hole 2161 is disposed at the center of the carrier 216, so that the material is saved, and the identification device 30 can scan the code of the mobile phone from the bottom of the mobile phone through the through hole 2161 and send the identification information to the control system. In addition, a square through hole 2162 is disposed at the opposite edge of the carrier 216, and a sensor 217 can be disposed in the through hole 2162 for sensing whether the mobile phone is carried on the carrier 216 or the carrying platform 21a, and feeding back the sensing information to the control system. In addition, the carrier 216 is relatively smaller than the mobile phone, thereby facilitating the carrying of mobile phones with different sizes.

Referring to fig. 2, 3 and 7, the recognition device 30 includes a micro camera 31 and a camera mount 32, the micro camera 31 is used for recognizing a barcode or a two-dimensional code of the mobile phone from a bottom side and transmitting the recognition information to the control module, and the micro camera 31 is mounted on the camera mount 32 in a height-adjustable manner. Specifically, the recognition device 30 further includes a height adjusting assembly including an adjusting screw 33 and an embedding block 34, the camera mount 32 has an embedding slot 32a arranged vertically, the embedding block 34 is slidably embedded in the embedding slot 32a, an opposite upper end of the adjusting screw 33 is rotatably disposed at an opposite upper side end of the camera mount 32, an opposite lower end of the adjusting screw 33 is inserted into the embedding slot 32a from above and is in threaded connection with the embedding block 34, and the miniature camera 31 is connected with the embedding block 34 from an opposite rear side of the camera mount 32 through a connecting plate 311, such that the miniature camera 31 is linearly moved vertically by a small amplitude by rotating the adjusting screw 33, thereby conveniently adjusting a mounting height of the miniature camera 31 on the camera mount 32 and effectively improving recognition accuracy. Further, the adjusting assembly further comprises a locking member 35, wherein the locking member 35 extends into the embedding groove 32a from the outer end of the camera seat 32 and is detachably clamped with the embedding block 34 for limiting the movement of the embedding block 34 in the embedding groove 32 a.

Referring to fig. 7, specifically, the utility model discloses a mobile phone detection device 100 still includes adjustment mechanism 70, and adjustment mechanism 70 is used for ordering about each recognition device 30 along horizontal synchronous motion to adjust through adaptability, realize fast sweeping the sign indicating number discernment to different specification and dimension's cell-phones. More specifically, the adjusting mechanism 70 includes a positioning plate 71, a mounting plate 72 and a driving member 73, the positioning plate 71 has at least two guiding rods 74 arranged along the transverse direction, the mounting plate 72 is slidably disposed on the at least two guiding rods 74, the camera bases 32 are disposed on the mounting plate 72 at equal intervals, and the mounting plate 72 is further connected with the driving member 73, so as to slide on the guiding rods 74 under the driving of the driving member 73, so as to adapt to the code scanning identification of mobile phones with different specifications and sizes. Wherein, driving piece 73 can adopt linear electric motor, realize automatic drive, of course, in order to reduce cost, also can be through manual regulation, then be equipped with fixing base 75 on one of locating plate 71 and mounting panel 72, and be equipped with on the other and adjust seat 76, fixing base 75 is arranged with adjusting seat 76 in opposite directions, driving piece 73 adopts adjusting screw this moment, this adjusting screw's one end rotationally settles on fixing base 75, other end threaded connection is on adjusting seat 76, thereby through rotatory adjusting screw, conveniently and swiftly realize locating plate 71 and mounting panel 72 in the adjustment of horizontal relative distance.

Referring to fig. 8 and 9, the plugging device 40 includes a data line 41 and a transfer mechanism 42, wherein the data line 41 is adjustably mounted on the transfer mechanism 42, and is electrically connected to the detection module 50, and is driven by the transfer mechanism 42 to linearly reciprocate along the horizontal direction, the longitudinal direction and the vertical direction, so as to adjust the relative position with the USB interface of the mobile phone, thereby implementing the plugging or separating with the USB interface of the mobile phone. Specifically, the transfer mechanism 42 includes a base 421, a first slide 422, a second slide 423, a third slide 424, a positioning seat 425, a longitudinal driving member 426, a transverse driving member 427, a vertical driving member 428, and a linear cylinder 429. The base 421 is installed on the working table 11, and the first sliding seat 422 is longitudinally slidably installed on a longitudinal linear guide 4211 of the base 421 and connected to an output end of a longitudinal driving member 426 installed on the base 421; the second slide carriage 423 is arranged on the first slide carriage 422 in a transverse sliding manner and is connected with an output end of a transverse driving member 427 arranged on the first slide carriage 422; the third slide carriage 424 is arranged on a transverse linear guide rail 4232 of the second slide carriage 423 in a transverse sliding manner and is connected with an output end of a linear cylinder 429 arranged on the second slide carriage 423; the positioning seat 425 is vertically slidably disposed on the third slide seat 424, and is connected to an output end of a vertical driving member 428 disposed on the third slide seat 424, and the plug connector of the data cable 41 is fixed on the positioning seat 425 through the fixing seat 411. The longitudinal driving member 426, the transverse driving member 427 and the vertical driving member 428 are respectively used for driving the data line 41 to linearly move in the longitudinal direction, the transverse direction and the vertical direction, so as to adjust the relative position between the plug connector of the data line 41 and the mobile phones with different specifications and sizes, thereby effectively improving the adaptability of the device, and the linear cylinder 429 is used for driving the plug connector of the data line 41 to be inserted into or withdrawn from the USB interface of the mobile phone, thereby realizing the corresponding test.

Specifically, in some embodiments, the first slide 422 is provided with a through hole 4221, the bottom end of the second slide 423 is provided with a clamping portion 4231 which is transversely and slidably clamped in the through hole 4221, and the transverse linear guide 4232 is arranged at the top end of the second slide 423 in a manner of being spaced from the linear cylinder 429, so that the structure is optimized, and the whole plugging device 40 is more compact. In addition, the fixing base 411 for fixing the plug connector of the data cable 41 is a split structure, and is specifically formed by assembling an upper fixing portion 4111 and a lower fixing portion 4111, so that the fixing base is suitable for fixing the plug connectors of the data cables 41 of different models.

It should be noted that the longitudinal driving member 426, the transverse driving member 427 and the vertical driving member 428 can all adopt linear motors or linear cylinders, so as to realize automatic operation, control more accurately and fully meet the requirements of an automatic production line. In consideration of the manufacturing cost, the longitudinal driving member 426, the transverse driving member 427 and the vertical driving member 428 can also adopt a screw driving structure, so that the mobile phone can be manually adjusted adaptively according to different mobile phones, and is more economical and practical.

In some embodiments, the plugging device 40 further includes a pressing member 43, the pressing member 43 is rotatably mounted on the transfer mechanism 42 and located beside the plug of the data line 41 for abutting against the top end of the mobile phone from above to prevent the mobile phone from moving vertically during the test. Specifically, the crimping member 43 includes two pressing rods 431 which are symmetrically arranged, a bracket 432 is respectively installed at opposite edges of a top side end of the positioning seat 425, the two pressing rods 431 are pivoted on the two brackets 432 in a one-to-one correspondence manner, and the brackets 432 are arranged with a front end relatively higher and a rear end relatively lower. The opposite front end of the pressure lever 431 is a free end, and is suspended at the opposite front side of the positioning seat 425 for abutting against the top side end of the mobile phone, the opposite middle end of the pressure lever 431 is pivoted to the opposite front end of the support 432 through a pivoting shaft 433, the opposite rear end of the pressure lever 431 is connected to the opposite rear end of the support 432 through a connecting rod 434, and the connecting rod 434 is further sleeved with a spring 435, so that the flexible compression joint of the pressure lever 431 and the mobile phone can be realized through the spring 435, the mobile phone is effectively protected, and the mobile phone is also suitable for compression joint positioning of mobile phones with different thickness sizes.

Referring back to fig. 1 and 2, in the preferred embodiment of the present application, the detecting module 50 includes a testing computer (not shown because it is disposed in the case 10) and a display 51, a touch screen 52 and a display lamp 53 respectively connected to the testing computer, the display 51 is disposed at the outer end of the case 10 for displaying the detecting result of each mobile phone, and the touch screen 52 and the display lamp 53 are disposed on the case 10. The touch screens 52 are specifically disposed on the box body of the case 10, and are one in number, which facilitates setting of detection parameters, the display lamps 53 are specifically disposed on the working panel 11 of the case 10, and are multiple in number, and are arranged in one-to-one correspondence with the multiple jigs 21, and are used for visually displaying the detection result and the detection state of each mobile phone through light color, and displaying green when good products are obtained, red when bad products are obtained, and yellow when the good products are detected. Of course, the detecting device 50 further includes a counter disposed on the casing of the casing 10 for counting the number of detected mobile phones. It should be noted that other structures and operation principles of the detecting module 50 are well known in the art, and therefore, will not be described in detail herein.

Referring to fig. 1 and 3, the main electrical control elements of the control module 60 are accommodated in the chassis 10, and some control buttons of the control module 60 are disposed on the body of the chassis 10, so as to facilitate operation. Such as a start button 61, a reset button 62, an emergency stop button 63, a power button 64, etc. provided on the case. In order to improve the adaptability of the machine and reduce the production cost, in some embodiments, after the machine is adjusted by manual alignment, the machine is detected, the control module 60 further includes a switching button 65 and a semi-automatic starting button 66, the switching button 65 is used for switching the whole machine between automatic detection and semi-automatic detection, and the semi-automatic starting button 66 is arranged in one-to-one correspondence with each plugging device 40 and used for starting each plugging device 40. When the detection is switched to the automatic detection, the jigs 21, the identification devices 30, the plugging devices 40 and the detection modules 50 are automatically operated under the control of the control module 60, and when the detection is switched to the semi-automatic detection, each semi-automatic start button 66 is required to be started to realize the detection operation. In addition, in order to optimize the structure, the semi-automatic start button 66 is arranged in the fourth penetrating hole 114 of the working panel 11 at a distance from the display lamp 53, and the structure is more compact. It should be noted that other structures and operation principles of the control module 60 are well known in the art and will not be described in detail herein.

The working principle of the mobile phone detection device 100 of the present invention is described below with reference to fig. 1 to 9:

after the equipment is started, 12 mobile phones are manually or automatically placed on the supporting and carrying platform 21a or the carrying tool 216 of each tool 21 in a one-to-one correspondence manner by a manipulator, then, two brackets 211 of each tool 21 respectively synchronously move under the driving of the driving mechanism 22 to clamp the corresponding mobile phones from the left side and the right side, meanwhile, each stop dog 213 is abutted against the corresponding mobile phone from the opposite rear side, then, after the sensor 217 senses the mobile phone, a signal is sent to the control module 60, under the indication of the control module 60, each miniature camera 31 and each plugging device 40 move, the miniature camera 31 carries out code scanning identification on the mobile phone and sends identification information to the control module 60, the control module 60 sends the identification information of the mobile phone to the detection module 50, and the plugging device 40 carries out linear movement close to the tool 21, so that the plugging head of the data line 41 is plugged into a USB interface of the mobile phone; the detection module 50 can detect the smoothness and reliability of the conduction of the USB interface of the mobile phone, that is, corresponding detection is performed through multiple plugging and unplugging operations, the detection module 50 can also detect the timeliness and safety of the large-current quick charge of the mobile phone through the data line 41, and can also inject a test program or test data into the mobile phone through the data line 41, and feed back the program or data injected into the mobile phone to the detection module 50, the detection module 50 judges whether the downloading function and the storage function of the mobile phone meet the requirements or not by comparing the program information or data information fed back by the mobile phone with the test program or test data information output by the detection module 50, and the detection result can be displayed through the display lamp 53 or the display screen 51, that is, lamp color display or screen graphic display, thereby realizing automatic detection of the downloading function and the storage function of the mobile phone; after the test is finished, the jigs 21 and the plugging devices 40 reversely move, so that the tested mobile phone can be taken down, the operation is continuously repeated, and the automatic assembly line operation of mass detection of the mobile phone can be realized.

Compared with the prior art, the utility model discloses a cell-phone check out test set 100 is including locating a plurality of tools 21 on quick-witted case 10, and a plurality of tools 21 are in actuating mechanism 22 orders about synchronous action, then can fix a plurality of cell-phones at every turn, thereby through high-efficient and accurate location, detection efficiency and the degree of accuracy are effectively improved, combine a plurality of recognition device 30 and a plurality of plug device 40 respectively one-to-one arrange in the bottom side and the side in opposite directions of a plurality of tools 21, thereby through each plug device 40 that is connected with the detection module 50 who locates in quick-witted case 10 realize detecting module 50 and each cell-phone intercommunication, make detection module 50 can be to the smooth and easy nature and the reliability of the plug of the USB interface of cell-phone, the ageing and the security that the heavy current was filled soon, download and the smooth and response speed etc. of storage function test, and sweep the sign indicating number discernment of code and with the cell-phone at recognition device 30 and send identification information for control module 60 under, show the testing result of each cell-phone respectively, with discernment defective products, the automatic operation of discernment can be fixed a position and the cell-phone, the structure is simple and the low cost is reasonable, and the cost is relatively low.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. The utility model provides a mobile phone detection equipment, its characterized in that, including install positioner, recognition device and the plug device on quick-witted case and arrange in quick-witted incasement detection module and control module group, positioner includes a plurality of tools and orders about the actuating mechanism of a plurality of tool synchronization action, the tool is used for accepting and fixed cell-phone, recognition device with the quantity of plug device is a plurality of, and is a plurality of recognition device one-to-one arranges in a plurality of the bottom side end of tool for sweeping the sign indicating number discernment to the cell-phone that is fixed in on the tool, and is a plurality of plug device one-to-one arranges in a plurality of the opposite side of tool, still respectively with detection module group electric connection, be used for relative the tool is straight reciprocating motion in order to communicate cell-phone with detection module group, detection module group is used for carrying out automated inspection and showing the testing result to each cell-phone, control module group respectively with the tool, recognition device, plug device and detection module group electric connection are used for controlling the tool.

2. The mobile phone detection device of claim 1, wherein the plurality of jigs are arranged on the working panel of the case at equal intervals, and the jigs are used for fixing the size of the placement area of the mobile phone in an adjustable manner.

3. The mobile phone detection device as claimed in claim 1, wherein the driving mechanism includes a motor, a connecting plate and a pivot block, the connecting plate is connected to an output end of the motor, a plurality of pivot blocks are arranged at equal intervals at opposite rear side ends of the connecting plate, the plurality of jigs are connected to the plurality of pivot blocks in a one-to-one correspondence, and the motor is configured to drive the connecting plate to reciprocate linearly along a vertical direction.

4. The mobile phone detection device of claim 3, wherein the fixture comprises two brackets, two connecting rods, a stop block and at least one longitudinal linear guide rail, wherein the opposite lower ends of the two connecting rods are symmetrically pivoted to the output ends of the corresponding pivoting blocks, the opposite upper ends of the two connecting rods are pivoted to the opposite lower ends of the two brackets in a one-to-one correspondence manner, the opposite rear ends of the two brackets are respectively slidably arranged on the longitudinal linear guide rail, the inner edges of the opposite upper ends of the two brackets are mutually matched to form a supporting platform, the outer edges of the opposite upper ends of the two brackets are respectively provided with a stop block, the two stop blocks are symmetrically arranged, and the stop block is transversely slidably arranged between the two brackets and is located at the opposite rear ends of the supporting platform.

5. The phone detection apparatus according to claim 4, wherein the fixture further comprises a carrier detachably disposed at a central position of the two brackets for receiving a phone and for initial positioning of the phone.

6. The mobile phone detection apparatus according to claim 1, wherein the recognition device comprises a miniature camera and a camera base, and the miniature camera is mounted on the camera base in a height-adjustable manner, and is used for scanning code recognition of the mobile phone from the bottom side and sending the recognition information to the control module.

7. The handset detection apparatus according to claim 6, further comprising an adjustment mechanism, wherein the adjustment mechanism comprises a positioning plate, a mounting plate and a driving member, the positioning plate has at least two guiding rods arranged along a transverse direction, the mounting plate is slidably disposed on at least two guiding rods, the camera base of each identification device is disposed on the mounting plate at equal intervals, and the mounting plate is further connected with the driving member so as to slide on the guiding rods under the driving of the driving member.

8. The mobile phone detection device according to claim 1, wherein the plugging device includes a data line and a transfer mechanism, the data line is adjustably mounted on the transfer mechanism and electrically connected to the detection module, and is driven by the transfer mechanism to linearly reciprocate in the transverse direction, the longitudinal direction and the vertical direction so as to adjust a relative position with the USB interface of the mobile phone, thereby realizing plugging or separation with the USB interface of the mobile phone.

9. The handset detection apparatus according to claim 8, wherein the plugging device further comprises a crimping member rotatably mounted on the transfer mechanism and located beside the plug of the data line for abutting against a top side end of the handset.

10. The mobile phone detection device according to claim 1, wherein the detection module includes a test computer, and a display, a touch screen, and a display lamp connected to the test computer, the display is disposed at an outer end of the case for displaying the detection result of each mobile phone, the touch screen and the display lamp are both disposed on the case, the display lamps are disposed in one-to-one correspondence with the jigs, and the detection result is displayed by light color.

Images