CN116539933B - Probe module moving mechanism for wireless charger test - Google Patents

Abstract

The invention belongs to the technical field of wireless charger detection, and particularly relates to a probe module moving mechanism for wireless charger test, which comprises a carrier frame and a moving mechanism, wherein the moving mechanism comprises a connecting plate and a first electric push rod, the connecting plate is fixedly connected to the upper side wall of the carrier frame, the first electric push rod is fixedly connected with the connecting plate, the output end of the first electric push rod is fixedly connected with a pushing frame, and sliding grooves are formed in the left side and the right side of the pushing frame. The invention can automatically detect the wireless charger, then place the wireless charger according to the quality classification, reduces the working intensity of operators, has higher detection accuracy, ensures the factory control of the wireless charger and can accurately record non-conductive pins, is convenient for assisting operators in judging whether the welding process of the pins has problems or not, and improves the convenience of the operators in work.

Description

Probe module moving mechanism for wireless charger test

Technical Field

The invention belongs to the technical field of wireless charger detection, and particularly relates to a probe module moving mechanism for wireless charger test.

Background

Nowadays, in order to improve the convenience of charging electronic products, more and more people can use a wireless charger to charge the electronic products, the wireless charger is divided into a charging seat and a connecting wire, when the wireless charger is used, a type-c connector of the connecting wire is required to be inserted into a type-c charging port of the charging seat, then a USB connector of the connecting wire is inserted into a charging head, the charging head is inserted into a socket, and then the electronic products are placed on the charging seat to be charged.

After the wireless charger is produced, the conductivity of the wireless charger needs to be tested by using a probe module, for example, the probe module moving mechanism for the wireless charger test disclosed in the patent CN 213181970U is authorized, and the following disadvantages exist when the existing moving mechanism controls the probe module to move:

when the existing movement mechanism controls the probe module to move, an operator is required to place the wireless charger into the carrier firstly, then the operator manually drags the handle to control the probe to move, so that the probe is inserted into a type-c charging port of the wireless charger to detect, after detection is finished, the operator is required to take down the wireless charger and place the wireless charger according to the quality classification of the wireless charger, the whole manual operation steps are more, the working intensity of the operator is higher, and the operator manually places the wireless charger in a classified manner, so that the placement error is easy to exist, and the quality control of the wireless charger is reduced;

when the conductivity of the type-c charging port is detected, the probe module can only detect whether the type-c charging port is internally provided with a plurality of pins, usually twelve pairs of pins, when one of the pins is provided with a problem, the conductivity of the type-c charging port is caused, the existing probe module cannot finely judge which pin is provided with a problem, the frequency of the problem of the pin cannot be recorded, an operator cannot be assisted to judge whether the welding process of the pin is provided with a problem, the operator is required to re-split and detect the type-c charging port, and the workload of the operator is increased.

Therefore, we propose a probe module moving mechanism for wireless charger test to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems and provide a probe module moving mechanism for wireless charger testing.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a probe module motion for wireless charger test, includes carrier frame and mobile mechanism, mobile mechanism includes connecting plate and first electric putter, connecting plate fixed connection is at the last lateral wall of carrier frame, first electric putter and connecting plate fixed connection, the output fixedly connected with pushing frame of first electric putter, the sliding tray has all been seted up to pushing frame's left and right sides, sliding connection has the supporting shoe that the longitudinal section is T type structure in the sliding tray, two the lateral wall of supporting shoe opposite side all stretches out the sliding tray, and fixedly connected with same push rod, the lateral wall of carrier frame has seted up the sliding port, and sliding connection has the sliding block in the sliding port, the cross-slot with push rod mutual matching has been seted up to the last lateral wall of sliding port, the curved chamber with push rod mutual matching is seted up to the back lateral wall fixedly connected with picture peg of sliding block, the last lower lateral wall of picture peg all fixedly connected with many probe needles, be equipped with fixture in the carrier frame, the left and right sides of carrier frame is connected with record mechanism.

Preferably, the fixture includes two loading boards and two dwang, the dwang rotates to be connected in the lateral wall of carrier frame, the loading board fixed cover establishes outside the dwang, two the rear end of dwang all stretches out the carrier frame, and fixedly connected with connecting gear, the rear side wall fixedly connected with second electric putter of carrier frame, the output fixedly connected with of second electric putter and right side connecting gear intermeshing's pinion rack, the rear side wall of carrier frame rotates and is connected with the auxiliary rod, the rear end fixedly connected with of auxiliary rod and left side connecting gear intermeshing's auxiliary gear, the pole wall of auxiliary rod and right side dwang is all fixed the cover and is equipped with the belt pulley, two the belt pulley overcoat is equipped with same conveyer belt, two the loading groove has all been seted up to the upper side wall of loading board.

Preferably, the recording mechanism comprises two risers and a plurality of risers, the two risers are respectively and fixedly connected to the left side and the right side of the carrier frame, the plurality of risers are arranged on the side walls of the risers, the lower side walls of the risers are fixedly communicated with the transverse cylinders, the lower side walls of the transverse cylinders are fixedly communicated with the recording cylinders, the lower side walls of the recording cylinders are hinged with the check blocks, the check blocks are connected with the recording cylinders through lock catches, the front side walls of the transverse cylinders are fixedly connected with a third electric push rod, the output end of the third electric push rod is positioned in the transverse cylinders and fixedly connected with a moving block, a plurality of recording balls are placed in the vertical cylinders, storage openings matched with the moving balls are formed in the side walls of the moving block, an induction box fixedly connected to the side walls of the risers is arranged below each transverse cylinder, a metal post is fixedly connected to the lower side inner wall of the induction box, a wire is sleeved on the outer thread of the metal post, the lower end of the wire is electrically connected with an external power supply, the upper end of the wire is electrically connected with one of the permanent magnet induction box, the permanent magnet induction box is electrically connected with the inner wall of the same electric guide block, the inner side of the electric guide block is electrically connected with the inner wall of the same electric guide block, the electric guide block is electrically connected with the inner guide block, the inner guide block is fixedly connected with the guide block, the guide block is electrically connected with the guide pins, and the guide pins are fixedly connected with the guide pins, and the guide pins of the guide blocks are fixedly connected with the guide boxes, and the guide boxes, the support pin is made of ceramic, and a conductive ring is fixedly sleeved on the rod wall of the support pin.

Preferably, the inner wall fixedly connected with of loading tank presses the switch, the lateral wall that loads the tank has seted up the extrusion groove, the lateral wall fixedly connected with miniature electric putter in extrusion groove, press switch and miniature electric putter forward circuit electric connection, miniature electric putter's output fixedly connected with push pedal, the lateral wall of push pedal passes through elastic rod fixedly connected with rubber piece, press switch and first electric putter's forward circuit electric connection.

Preferably, the right side wall fixedly connected with arrangement board of picture peg, the back lateral wall fixedly connected with switch of arrangement board, switch and all wire electric connection, switch passes through circular telegram time delay relay and all conducting strip electric connection, the back lateral wall fixedly connected with two guide frames of arrangement board, two equal sliding connection has the guide block in the guide frame, two the lateral wall fixedly connected with of the opposite one side of guide block is the same presses the piece, fixedly connected with same spring between guide block and the arrangement board.

Preferably, the downside of carrier frame is equipped with the conveyer belt, the collection box has been placed respectively at the both ends of conveyer belt, the conducting block passes through time relay and the positive circuit electric connection of the inside motor of conveyer belt, is located the end the conducting block passes through time relay and the reverse circuit electric connection of the inside motor of conveyer belt.

Preferably, the lower side wall fixedly connected with inclined frame of carrier frame, the back lateral wall inner wall fixedly connected with laser generator of inclined frame, the front side inner wall fixedly connected with laser receiver of inclined frame, laser receiver and miniature electric putter's reverse circuit electric connection.

Preferably, the upper side wall of the carrier frame is fixedly connected with a lamp plate, the upper side wall of the lamp plate is fixedly connected with a green light lamp and a red light lamp, the conductive block is electrically connected with the red light lamp, and the conductive block is electrically connected with the green light lamp.

Compared with the prior art, the probe module moving mechanism for the wireless charger test has the advantages that:

through carrier frame, moving mechanism and the fixture that set up, can be when detecting the circular telegram nature of wireless charger, operating personnel only need place wireless charger on the carrier, can detect wireless charger voluntarily, then place according to good and bad classification, reduced operating personnel's working strength to detect the accuracy higher, guaranteed wireless charger's article accuse of leaving factory.

Through the recording mechanism, whether a plurality of pins in the wireless charger type-c charging port have a non-conductive problem can be accurately detected, the non-conductive pins can be accurately recorded, the follow-up judgment of whether the welding process of the pins has a problem or not by an auxiliary operator is facilitated, and the convenience of the work of the operator is improved;

through push switch, extrusion groove, miniature electric putter, ejector pad, the rubber piece that set up, can be after placing wireless charger, can carry out the centre gripping to wireless charger automatically to guaranteed wireless charger and when detecting stability, avoided when detecting, because wireless charger rocks, and influence the problem of testing result accuracy.

Drawings

Fig. 1 is a schematic structural diagram of a probe module moving mechanism for wireless charger test according to the present invention;

FIG. 2 is a schematic diagram of the positional relationship between a carrier frame and a conveyor belt in a probe module movement mechanism for wireless charger testing according to the present invention;

FIG. 3 is a schematic diagram of the internal structure of an induction box in a probe module motion mechanism for wireless charger testing according to the present invention;

FIG. 4 is a schematic diagram showing the connection relationship between a plurality of groups of conductive blocks in a probe module moving mechanism for wireless charger testing;

FIG. 5 is a schematic diagram of the transmission relationship between two connecting gears in a probe module motion mechanism for wireless charger testing according to the present invention;

fig. 6 is a schematic diagram of an internal structure of a carrier plate in a probe module moving mechanism for wireless charger testing according to the present invention;

FIG. 7 is a schematic diagram showing the positional relationship between a sliding groove and a supporting block in a probe module moving mechanism for wireless charger testing according to the present invention;

fig. 8 is a schematic diagram of the positional relationship between the plugboard and the placement board in the probe module moving mechanism for wireless charger test provided by the invention;

fig. 9 is a schematic diagram of the positional relationship between the insertion plate and the probe pin in the probe module moving mechanism for testing the wireless charger;

FIG. 10 is a schematic diagram of the positional relationship between a mounting plate and a power switch in a probe module movement mechanism for wireless charger testing according to the present invention;

fig. 11 is a schematic diagram of the positional relationship between a laser generator and a laser receiver in a probe module moving mechanism for wireless charger test.

In the figure: 1 carrier frame, 2 moving mechanism, 201 connecting plate, 202 first electric push rod, 3 pushing frame, 4 sliding groove, 5 supporting block, 6 pushing rod, 7 sliding opening, 8 sliding block, 9 transverse groove, 10 bending cavity, 11 inserting plate, 12 detecting needle, 13 clamping mechanism, 131 bearing plate, 132 rotating rod, 14 connecting gear, 15 second electric push rod, 16 toothed plate, 17 auxiliary rod, 18 auxiliary gear, 19 belt pulley, 20 conveying belt, 21 bearing groove, 22 recording mechanism, 221 vertical plate, 222 vertical cylinder, 23 transverse cylinder, 24 recording cylinder, 25 block, 26 third electric push rod, 27 moving block, 28 recording ball, 29 storage opening, 30 induction box, 31 metal column, 32 wire, 33 supporting ring, 34 supporting pin, 35 permanent magnet plate, 36 conducting plate, 37 conducting block, 38 conducting block, 39 conducting ring, 40 pressing switch, 41 extruding groove, 42 miniature electric push rod, 43 pushing plate, 44 rubber block, 45 setting plate, 46 power switch, 47 guiding frame, 48 guiding block, 49 pressing block, 50 conveying belt, 52, 53 oblique laser light generator, 57, green light lamp, and 57.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

As shown in fig. 1-11, a probe module moving mechanism for testing a wireless charger comprises a carrier frame 1 and a moving mechanism 2, the moving mechanism 2 comprises a connecting plate 201 and a first electric push rod 202, the connecting plate 201 is fixedly connected to the upper side wall of the carrier frame 1, the first electric push rod 202 is fixedly connected with the connecting plate 201, an output end of the first electric push rod 202 is fixedly connected with a pushing frame 3, sliding grooves 4 are formed in the left side and the right side of the pushing frame 3, supporting blocks 5 with longitudinal sections of a T-shaped structure are connected in the sliding grooves 4 in a sliding manner, side walls on opposite sides of the two supporting blocks 5 extend out of the sliding grooves 4, the same pushing rod 6 is fixedly connected to the sliding grooves 7, sliding blocks 8 are connected in the sliding grooves 7 in a sliding manner, transverse grooves 9 matched with the pushing rods 6 are formed in the upper side walls of the sliding blocks 8, bent cavities 10 matched with the pushing rods 6 are formed in the upper side walls of the sliding blocks 7, inserting plates 11 are fixedly connected to the rear side walls of the sliding blocks 8, a plurality of pins 12 are fixedly connected to the upper side walls and lower side walls of the inserting plates 11, a plurality of the left side walls of the supporting blocks 1 are connected with a plurality of probes 1, and the left side and the right side of the probe mechanism is connected to the probe mechanism 1.

The fixture 13 includes two carrier plates 131 and two dwang 132, the dwang 132 rotates to be connected in the lateral wall of carrier frame 1, outside the dwang 132 was established to carrier plate 131 fixed cover, carrier frame 1 was all stretched out to the rear end of two dwang 132, and fixedly connected with connecting gear 14, the rear side wall fixedly connected with second electric putter 15 of carrier frame 1, the output fixedly connected with of second electric putter 15 and right side connecting gear 14 intermeshing's pinion rack 16, the rear side wall rotation of carrier frame 1 is connected with auxiliary rod 17, the rear end fixedly connected with of auxiliary rod 17 and left side connecting gear 14 intermeshing's auxiliary gear 18, the pole wall of auxiliary rod 17 and right side dwang 132 all fixed cover is equipped with belt pulley 19, two belt pulley 19 overcoat are equipped with same conveyer belt 20, the upper lateral wall of two carrier plates 131 has all seted up the carrier groove 21, can be when detecting wireless charger, can place wireless charger.

The recording mechanism 22 comprises two vertical plates 221 and a plurality of vertical cylinders 222, the two vertical plates 221 are respectively and fixedly connected to the left side and the right side of the carrier frame 1, the plurality of vertical cylinders 222 are arranged on the side walls of the vertical plates 221, the lower side wall of each vertical cylinder 222 is fixedly communicated with a transverse cylinder 23, the lower side wall of each transverse cylinder 23 is fixedly communicated with a recording cylinder 24, the lower side wall of each recording cylinder 24 is hinged with a stop block 25, the stop blocks 25 are connected with the recording cylinders 24 through a lock catch, the front side wall of each transverse cylinder 23 is fixedly connected with a third electric push rod 26, the output end of each third electric push rod 26 is positioned in each transverse cylinder 23 and fixedly connected with a moving block 27, a plurality of recording balls 28 are placed in each vertical cylinder 222, storage ports 29 matched with the moving balls are formed in the side walls of the moving blocks 27, an induction box 30 fixedly connected to the side walls of the vertical plates 221 is arranged below each transverse cylinder 23, the inner wall of the lower side of the induction box 30 is fixedly connected with a metal column 31, the outer thread sleeve of the metal column 31 is provided with a wire 32, the lower end of the lead 32 is electrically connected with an external power supply, the upper end of the lead 32 is electrically connected with one of the probe needles 12, the inner wall of the induction box 30 is fixedly connected with a supporting ring 33, a supporting pin 34 is inserted in the supporting ring 33, the lower end of the supporting pin 34 is fixedly connected with a permanent magnet plate 35, the side wall of the opposite side of the permanent magnet plate 35 and the supporting ring 33 is fixedly connected with the same spring, the upper end of the supporting pin 34 is fixedly connected with a conducting plate 36, the upper inner wall of the induction box 30 is fixedly connected with a conducting block 37, the conducting block 37 is electrically connected with a second electric push rod 15 and a third electric push rod 26 through a travel switch, the conducting block 37 is electrically connected with a reverse circuit of a first electric push rod 202, the inner walls of the left side and the right side of the induction box 30 are fixedly connected with conducting blocks 38, the conducting blocks 38 positioned in the same induction box 30 are electrically connected with the conducting blocks 38 in the external induction box 30, the novel electric power welding device is characterized in that the novel electric power welding device is located in the head end conducting block 38 and is electrically connected with an external power supply, the tail end conducting block 38 is electrically connected with the second electric push rod 15 through a travel switch, the tail end conducting block 38 is electrically connected with a reverse circuit of the first electric push rod 202, the supporting pin 34 is made of ceramic, a conducting ring 39 is fixedly sleeved on the rod wall of the supporting pin 34, whether a plurality of pins in a wireless charger type-c charging port are nonconductive or not can be accurately detected, the nonconductive pins can be accurately recorded, whether the welding process of the pins is problematic or not can be conveniently judged by an auxiliary operator, and the convenience of the work of the operator is improved.

The inner wall fixedly connected with of loading end 21 presses switch 40, the lateral wall of loading end 21 has seted up extrusion groove 41, the lateral wall fixedly connected with miniature electric putter 42 of extrusion groove 41, press switch 40 and miniature electric putter 42 forward circuit electric connection, miniature electric putter 42's output fixedly connected with push pedal 43, push pedal 43's lateral wall passes through elastic rod fixedly connected with rubber piece 44, press switch 40 and first electric putter 202's forward circuit electric connection, can be after placing wireless charger, can carry out the centre gripping to wireless charger voluntarily, thereby guaranteed the stability of wireless charger when detecting, avoid when detecting because wireless charger rocks, and influence the problem of testing result accuracy.

The right side wall fixedly connected with locating plate 45 of picture peg 11, the back lateral wall fixedly connected with switch 46 of locating plate 45, switch 46 and all wires 32 electric connection, switch 46 is through circular telegram time delay relay and all conducting strip 36 electric connection, the back lateral wall fixedly connected with two guide frames 47 of locating plate 45, all sliding connection has guide block 48 in two guide frames 47, the lateral wall fixedly connected with of two opposite sides of guide block 48 is the same presses the piece 49, fixedly connected with same spring between guide block 48 and the locating plate 45, after inserting picture peg 11 wireless charger type-c to charge the mouth, just can carry the electric current in wire 32 and the conducting strip 36.

The lower side of carrier frame 1 is equipped with conveyer belt 50, and recovery case 51 has been placed respectively to the both ends of conveyer belt 50, and conducting block 37 passes through time relay and the positive circuit electric connection of the inside motor of conveyer belt 50, and the reverse circuit electric connection that is located terminal conducting block 38 and passes through time relay and the inside motor of conveyer belt 50, and after wireless charger detects inequality, control conveyer belt 50 forward movement carries an inequality wireless charger to a recovery incasement 51, and after wireless charger is qualified, control conveyer belt 50 reverse movement carries another recovery incasement 51 with qualified wireless charger.

The lower side wall of the carrier frame 1 is fixedly connected with an inclined frame 52, the inner wall of the rear side wall of the inclined frame 52 is fixedly connected with a laser generator 53, the inner wall of the front side of the inclined frame 52 is fixedly connected with a laser receiver 54, the laser receiver 54 is electrically connected with a reverse circuit of the miniature electric push rod 42, and when an optical signal emitted by the laser generator 53 is blocked by a wireless charger, the laser receiver 54 cannot receive the optical signal and can control the miniature electric push rod 42 to retract through signal conversion.

The upper side wall fixedly connected with lamp plate 55 of carrier frame 1, the upper side wall fixedly connected with green light lamp 56 and red light lamp 57 of lamp plate 55, conducting block 37 and red light lamp 57 electric connection, conducting block 38 and green light lamp 56 electric connection, when red light lamp 57 lights, indicate that wireless charger detects inequality, when green light lamp 56 lights, indicate that wireless charger detects inequality.

The principle of operation of the present invention will now be described as follows: placing a wireless charger into the bearing groove 21, pressing the pressing switch 40 by the wireless charger, controlling the working time of the first electric push rod 202 by the pressing switch 40, enabling the output end of the first electric push rod 202 to move leftwards, enabling the first electric push rod 202 to move leftwards to push the frame 3, pushing the pushing rod 6 to move leftwards by the pushing frame 3, enabling the pushing rod 6 to move backwards under the S-shaped structure of the bending cavity 10 when the pushing rod 6 moves in the bending cavity 10, enabling the pushing rod 6 to move in the transverse groove 9 on the surface of the sliding block 8, driving the sliding block 8 to move backwards, enabling the sliding block 8 to drive the inserting plate 11 and the detecting needle 12 to move backwards, enabling the inserting plate 11 and the detecting needle 12 to be inserted into a type-c charging port of the wireless charger, enabling the plurality of detecting needles 12 to be respectively contacted with a plurality of pins in the type-c charging port, enabling the micro electric push rods 42 on two sides to be controlled to move by the pressing switch 40, enabling the micro electric push rods 42 to drive the rubber block 44 to move, and fixing the wireless charger by extrusion through the rubber block 44;

after the plugboard 11 is inserted into a type-c charging port of the wireless charger, the placement plate 45 moves along with the plugboard 11, when the detection needle 12 is contacted with the pins, the shell of the wireless charger presses the power switch 46, the power switch 46 is electrically connected with the conducting wires 32 and the conducting sheets 36 through the power-off delay relay, the power switch 46 is closed, so that current flows into the conducting wires 32, and current is conveyed into the conducting sheets 36 through the arranged power-on delay relay for one second later, when all the pins are normally electrified, the current inside the conducting wires 32 and the detection needle 12 normally flows, the conducting wires 32 are spirally wound on the outer sides of the metal columns 31, the current generated inside the conducting wires 32 can lead the metal columns 31 to generate magnetism, the metal columns 31 can attract the permanent magnet plates 35 to move downwards, the permanent magnet plates 35 drive the conducting rings 39 to move downwards through the supporting pins 34, the conducting rings 39 are contacted with the two conducting blocks 38 on the lower side, the conductive blocks 38 in one induction box 30 are electrically connected, the conductive blocks 38 in the same induction box 30 are electrically connected with the conductive blocks 38 in the external induction box 30, the conductive blocks 38 at the head end are electrically connected with an external power supply, the conductive blocks 38 at the tail end are electrically connected with the second electric push rod 15 through a travel switch, the conductive blocks 38 at the tail end are electrically connected with the reverse circuit of the first electric push rod 202 through a timing switch, the moving speed of the first electric push rod 202 is greater than the moving speed of the second electric push rod 15, after all pins are normally electrified, all the conductive blocks 38 are electrically connected, the first electric push rod 202 is started, the first electric push rod 202 drives the pushing frame 3 to move rightwards, so that the plug board 11 and the detection needle 12 are controlled to move forwards, the plug board 11 is separated from the type-c charging port, the external current can control the second electric push rod 15 to reciprocate once through the travel switch, the second electric push rod 15 drives the toothed plate 16 to reciprocate one side, the toothed plate 16 can drive the connecting gear 14 on the right side to reciprocate once, the connecting gear 14 on the right side drives the auxiliary rod 17 and the auxiliary gear 18 to rotate through the mutual cooperation of the belt pulley 19 and the conveying belt 20, the auxiliary gear 18 can drive the connecting gear 14 on the left side to reciprocate one side, the connecting gears 14 on the two sides can synchronously reciprocate one side, the connecting gears 14 can enable the rotating rods 132 on the two sides to rotate when reciprocating, the rotating rods 132 on the two sides can drive the bearing plates 131 on the two sides to open downwards, the wireless charger on the bearing plates 131 can fall into the inclined frame 52 and fall onto the conveying belt 50 along the inclined frame 52, when the wireless charger slides on the inclined frame 52, the optical signal emitted by the laser generator 53 can be blocked, after the optical signal emitted by the laser generator 53 is blocked by the wireless charger, the laser receiver 54 cannot receive the optical signal, the miniature electric push rod 42 is controlled to retract through signal conversion, and the tail end transmission guide block 38 is electrically connected with the conveying belt 50 through the time relay and the inside the conveying belt 50, the reverse rotating circuit is electrically connected to the inclined frame 50, the excellent conveying belt 50 is placed in the reverse direction, and the conveying belt is well is placed on the conveying belt 50;

when a certain pin in the type-c charging port is out of conduction due to a problem, the corresponding lead 32, the detection needle 12 and the circuit among the pins are not communicated, the metal column 31 is not magnetic, the conductive sheet 36 and the conductive block 37 are always contacted, external current is led to the conductive sheet 36 and the conductive block 37 by one second through the arranged power-on time delay relay, the conductive block 37 is electrically connected with the second electric push rod 15 and the third electric push rod 26 through the travel switch, the conductive block 37 is electrically connected with the reverse circuit of the first electric push rod 202, the plugboard 11 is separated from the type-c charging port according to the principle, the wireless charger falls onto the conveyor belt 50 from the bearing plate 131, the conveyor belt 50 moves forward, the unqualified wireless charger is conveyed into the other recovery box 51, and the conductive block 37 controls the third electric push rod 26 to reciprocate on one side through the travel switch, the third electric push rod 26 drives the moving block 27 to move rightwards firstly and then leftwards, when the moving block 27 moves rightwards, the recording ball 28 in the storage port 29 can drop into the recording cylinder 24, when the moving block 27 moves leftwards, the recording ball 28 stored in the vertical cylinder 222 can drop into the storage port 29 for storage, the lower side recording is convenient, the number of the recording cylinder 24, the vertical cylinder 222 and the induction box 30 and the number of the detecting needles 12 are in one-to-one correspondence, the number of the detecting needles 12 and the pins in the type-c charging port are in one-to-one correspondence, the problem can be judged for the pin in the type-c charging port by observing the position of the recording cylinder 24 with the recording ball 28 inside, the problem can be judged for which pin has higher frequency, the welding process of the pin is convenient for operators to judge whether the welding process of the pin has problems or not.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. The utility model provides a probe module motion for wireless charger test, includes carrier frame (1) and mobile mechanism (2), its characterized in that, mobile mechanism (2) include connecting plate (201) and first electric putter (202), connecting plate (201) fixed connection is in the last lateral wall of carrier frame (1), first electric putter (202) and connecting plate (201) fixed connection, the output fixedly connected with pushing frame (3) of first electric putter (202), sliding groove (4) have all been seted up on the left and right sides of pushing frame (3), sliding groove (4) sliding connection has supporting shoe (5) that the longitudinal section is T type structure, and two lateral wall that supporting shoe (5) are relative one side all stretches out sliding groove (4), and fixedly connected with same ejector pin (6), sliding opening (7) have been seted up to the front lateral wall of carrier frame (1), and sliding opening (7) have sliding block (8), sliding block (8)'s last lateral wall has been seted up with ejector pin (6) and sliding connection (6) have on sliding groove (7) and lateral wall (10) of mutual bending, sliding connection (8), the utility model discloses a multifunctional electric vehicle, including picture peg (11) and conveyer belt, upper and lower lateral wall of picture peg (11) is all fixedly connected with many probe needles (12), be equipped with fixture (13) in carrier frame (1), the left and right sides of carrier frame (1) is connected with recording mechanism (22), fixture (13) are including two loading board (131) and two dwang (132), dwang (132) rotate and connect in the lateral wall of carrier frame (1), outside dwang (132) are established to loading board (131) fixed cover, two the rear end of dwang (132) all stretches out carrier frame (1), and fixedly connected with connecting gear (14), the rear side wall fixedly connected with second electric putter (15) of carrier frame (1), the output fixedly connected with of second electric putter (15) and pinion (16) of right side connecting gear (14) intermeshing, the rear side wall rotation of carrier frame (1) is connected with auxiliary lever (17), the rear end fixedly connected with of auxiliary lever (17) and left end fixedly connected with and connecting gear (14) are equipped with auxiliary lever (19) and two lateral wall (19) of same, two lateral wall (19) are equipped with auxiliary lever (19) and two lateral wall (19) are equipped with conveyer belt (19), the recording mechanism (22) comprises two vertical plates (221) and a plurality of vertical cylinders (222), the two vertical plates (221) are respectively and fixedly connected to the left side and the right side of the carrier frame (1), the plurality of vertical cylinders (222) are arranged on the side walls of the vertical plates (221), the lower side walls of the vertical cylinders (222) are fixedly communicated with a horizontal cylinder (23), the lower side walls of the horizontal cylinders (23) are fixedly communicated with a recording cylinder (24), the lower side walls of the recording cylinders (24) are hinged with a stop block (25), the stop block (25) is connected with the recording cylinders (24) through a lock catch, the front side walls of the horizontal cylinders (23) are fixedly connected with a third electric push rod (26), the output ends of the third electric push rods (26) are positioned in the horizontal cylinders (23) and are fixedly connected with a movable block (27), a plurality of recording balls (28) are placed in the vertical cylinders (222), the side walls of the movable block (27) are provided with storage ports (29) matched with the movable balls, the lower side walls of each horizontal cylinder (23) are provided with a metal guide post (32) which is fixedly connected with the lower side walls of the metal guide posts (30), the metal guide posts (30) are fixedly connected to the outer side walls (30) of the metal guide posts (30), the upper end of the lead (32) is electrically connected with one of the detection needles (12), the inner wall of the induction box (30) is fixedly connected with a support ring (33), a support pin (34) is inserted into the support ring (33), the lower end of the support pin (34) is fixedly connected with a permanent magnet plate (35), the side walls of the opposite sides of the permanent magnet plate (35) and the support ring (33) are fixedly connected with the same spring, the upper end of the support pin (34) is fixedly connected with a conducting plate (36), the upper inner wall of the induction box (30) is fixedly connected with a conducting block (37), the conducting block (37) is electrically connected with a second electric push rod (15) and a third electric push rod (26) through a travel switch, the conducting block (37) is electrically connected with a reverse circuit of the first electric push rod (202), the inner walls of the left side and the right side of the induction box (30) are fixedly connected with conducting blocks (38), the conducting blocks (38) in the same induction box (30) are electrically connected with the conducting blocks (38) in the external induction box (30), the conducting blocks (38) are electrically connected with the second electric push rod (38) through the first electric push rod (38) and the second electric push rod (202) through the first electric push rod (38), the supporting pin (34) is made of ceramic, and a conducting ring (39) is fixedly sleeved on the rod wall of the supporting pin (34).

2. The probe module moving mechanism for the wireless charger test according to claim 1, wherein the inner wall of the bearing groove (21) is fixedly connected with a pressing switch (40), the side wall of the bearing groove (21) is provided with a pressing groove (41), the side wall of the pressing groove (41) is fixedly connected with a miniature electric push rod (42), the pressing switch (40) is electrically connected with a forward circuit of the miniature electric push rod (42), the output end of the miniature electric push rod (42) is fixedly connected with a pushing plate (43), the side wall of the pushing plate (43) is fixedly connected with a rubber block (44) through an elastic rod, and the pressing switch (40) is electrically connected with the forward circuit of the first electric push rod (202).

3. The probe module moving mechanism for wireless charger testing according to claim 1, wherein a mounting plate (45) is fixedly connected to the right side wall of the plug board (11), a power switch (46) is fixedly connected to the rear side wall of the mounting plate (45), the power switch (46) is electrically connected to all wires (32), the power switch (46) is electrically connected to all conductive plates (36) through an energizing delay relay, two guide frames (47) are fixedly connected to the rear side wall of the mounting plate (45), guide blocks (48) are slidably connected to the rear side wall of each guide frame (47), one pressing block (49) is fixedly connected to the side wall of the opposite side of each guide block (48), and one spring is fixedly connected between each guide block (48) and each mounting plate (45).

4. The probe module moving mechanism for wireless charger testing according to claim 1, wherein a conveyor belt (50) is arranged at the lower side of the carrier frame (1), recovery boxes (51) are respectively arranged at two ends of the conveyor belt (50), the conductive blocks (37) are electrically connected with a forward circuit of an internal motor of the conveyor belt (50) through a time relay, and the conductive blocks (38) at the tail end are electrically connected with a reverse circuit of the internal motor of the conveyor belt (50) through the time relay.

5. The probe module moving mechanism for wireless charger testing according to claim 2, wherein the lower side wall of the carrier frame (1) is fixedly connected with an inclined frame (52), the inner wall of the rear side wall of the inclined frame (52) is fixedly connected with a laser generator (53), the inner wall of the front side of the inclined frame (52) is fixedly connected with a laser receiver (54), and the laser receiver (54) is electrically connected with a reverse circuit of the miniature electric push rod (42).

6. The probe module moving mechanism for wireless charger testing according to claim 1, wherein a lamp plate (55) is fixedly connected to the upper side wall of the carrier frame (1), a green lamp (56) and a red lamp (57) are fixedly connected to the upper side wall of the lamp plate (55), the conductive block (37) is electrically connected with the red lamp (57), and the conductive block (38) is electrically connected with the green lamp (56).