CN109633316B - Automatic test system of three-axis wireless charger - Google Patents
Automatic test system of three-axis wireless charger Download PDFInfo
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- CN109633316B CN109633316B CN201811558704.5A CN201811558704A CN109633316B CN 109633316 B CN109633316 B CN 109633316B CN 201811558704 A CN201811558704 A CN 201811558704A CN 109633316 B CN109633316 B CN 109633316B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R1/00—Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
- G01R1/02—General constructional details
- G01R1/04—Housings; Supporting members; Arrangements of terminals
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- General Physics & Mathematics (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The invention discloses an automatic test system of a three-axis wireless charger, which is used for automatically detecting the wireless charging function of an electronic product provided with a wireless charging coil, it comprises a rotary adjusting base which can move relative to a mounting plane base, an indicating part is arranged on one side of the rotary adjusting base, a magnetic isolation plate is arranged on the rotary adjusting base, a bearing seat is arranged on the magnetic isolation plate, a mounting positioning plate is arranged on the bearing seat, an electronic product is arranged between the bearing seat and the mounting positioning plate, the rotary adjusting base is rotated to drive the magnetic isolation plate, the bearing seat and the mounting positioning plate to rotate and move, and drives the electronic product between the bearing seat and the mounting positioning plate to rotate and displace, a wireless charging component is arranged corresponding to the fixing mechanism, and the wireless charging assembly charges the electronic product, so that the repetition precision is high, the testing efficiency is improved, and the product reliability is improved.
Description
[ technical field ] A method for producing a semiconductor device
The invention relates to an automatic test system for a three-axis wireless charger, in particular to an automatic test system for a three-axis wireless charger of a three-axis industrial parallel robot mechanism.
[ background of the invention ]
At present, wireless charger is when the test, all use artifical manual positioning test, place the product in fixed position, the hand removes the ruler and tests product relative position, thereby confirm the test point, divide three direction to carry out manual adjustment, because the reason of location during the test, when testing electrical property performance parameter, the data of surveying can't reappear, the data phase difference that the test was come out after the dismantlement of measurationing exceeds 5%, can appear artifical inaccurate or even difficulty in location, unable relocation again, even reluctant relocation test, the precision of nevertheless surveying out is very poor, the test result is unreproducible promptly, test time is also comparatively long.
Therefore, there is a need to design a good three-axis wireless charger automatic test system to overcome the above problems.
[ summary of the invention ]
Aiming at the problems in the prior art, the invention aims to provide a triaxial wireless charger automatic test system which is high in repetition precision, obviously improves the test efficiency and improves the product reliability by designing a positioning professional clamp and combining software and hardware to form an integral electrical characteristic test method.
In order to achieve the purpose, the invention adopts the following technical means:
an automatic test system of three-axis wireless charger for automatically detecting the wireless charging function of an electronic product with a wireless charging coil comprises a casing, a fixing mechanism arranged on the casing, the electronic product is arranged on the fixing mechanism, the fixing mechanism is provided with a mounting plane base, a graduated scale is arranged on the mounting plane base, a rotary adjusting base is arranged on the mounting plane base, the rotary adjusting base is movably displaced relative to the mounting plane base, one side of the rotary adjusting base is provided with an indicating part corresponding to the graduated scale, a magnetic isolation plate is arranged on the rotary adjusting base, a bearing seat is arranged on the magnetic isolation plate, a mounting positioning plate is arranged on the bearing seat, the electronic product is arranged between the bearing seat and the mounting positioning plate, an electrical isolation support is arranged on the mounting positioning plate, and two positioning mounting blocks are respectively and fixedly arranged on the rotary adjusting base, The device comprises a magnetic isolation plate, two sides of a bearing seat and an installation positioning plate, a rotary adjusting base is rotated to drive the magnetic isolation plate, the bearing seat and the installation positioning plate rotate and displace, and an electronic product between the bearing seat and the installation positioning plate rotates and displaces.
Furthermore, the wireless charging assembly is provided with a wireless charger, and the wireless charger is arranged opposite to the electronic product.
Furthermore, the bearing seat is provided with at least two limiting parts extending towards the direction of the positioning installation block, and the two limiting parts limit the electronic product.
Furthermore, one end of each limiting part is provided with a bending part, the two bending parts of the two limiting parts are oppositely bent, and the bending parts block the electronic product from coming off from one end.
Furthermore, the installation positioning plate and the electric isolation support are fixed by a plurality of positioning pins.
Furthermore, an organic glass plate is fixedly arranged on the electric isolation support.
Furthermore, a fixed block is installed on one side of the organic glass plate, a rib plate is vertically installed on the organic glass plate, and one side of the rib plate is fixed on the fixed block.
Further, an RX board coil is mounted to the fixing block.
Further, a plurality of double-screw bolts are fixed in on the installation locating plate, and upwards exceed electric property isolation support 6mm to 10mm, and the double-screw bolt upwards corresponds the clearance hole of organic glass board.
Furthermore, an SET key, an X key, a Y key, a Z key, a yellow indicator light and a red indicator light are installed on the machine shell, when the communication mechanism SETs the numerical value to be zero, the yellow indicator light works, the SET key is pressed for three seconds, and when the yellow indicator light and the red indicator light work alternately, the X key, the Y key or the Z key is pressed to adjust the position of the bearing seat.
Compared with the prior art, the invention has the following beneficial effects:
the automatic test system of the three-axis wireless charger is used for automatically detecting the wireless charging function of an electronic product provided with a wireless charging coil, a graduated scale is arranged on a mounting plane base in the automatic test system of the three-axis wireless charger, a rotary adjusting base is arranged on the mounting plane base, the rotary adjusting base is movably displaced relative to the mounting plane base, one side of the rotary adjusting base is provided with an indicating part which corresponds to the graduated scale, a magnetic isolation plate is arranged on the rotary adjusting base, a bearing seat is arranged on the magnetic isolation plate, a mounting positioning plate is arranged on the bearing seat, the electronic product is used for being placed between the bearing seat and the mounting positioning plate, an electrical isolation support is arranged on the mounting positioning plate, two positioning mounting blocks are respectively and fixedly arranged on two sides of the rotary adjusting base, the magnetic isolation plate, the bearing seat and the mounting positioning plate, thereby rotate rotatory adjustment base and drive the magnetism division board, hold and put seat and installation locating plate rotary displacement, and drive and hold the electronic product rotary displacement between putting the seat and the installation locating plate, a wireless subassembly that charges corresponds the fixed establishment setting, and the wireless subassembly that charges the electronic product, so the design of location professional anchor clamps has improved positioning accuracy to subtract the artifical repeated location clamping mode in the background art, save a large amount of time, fix a position once and target in place, need not readjust.
The testing mechanism detects the charging result of the electronic product, the driving mechanism is used for driving the fixing mechanism to move relative to the wireless charging assembly, the control mechanism is used for controlling the displacement direction and the displacement of the fixing mechanism, and therefore the software and the hardware are combined to be used, the whole electrical characteristic testing method is formed, the consistency of data and displacement is guaranteed, and the testing repetition precision is high.
[ description of the drawings ]
FIG. 1 is a front view of an automatic testing system for a tri-axial wireless charger according to the present invention;
FIG. 2 is a perspective view of a fixing mechanism in the automatic testing system of a three-axis wireless charger according to the present invention;
FIG. 3 is a partial schematic view of an automatic testing system for a tri-axial wireless charger according to the present invention;
fig. 4 is a partial front view of the automatic testing system for a tri-axial wireless charger according to the present invention.
Detailed description of the embodiments reference is made to the accompanying drawings in which:
mounting plane base 21 for fixing mechanism 2 of machine case 1
The scale 211 rotates and adjusts the indication part 221 of the base 22
Spacing part 241 of magnetic isolation plate 23 bearing seat 24
The bending part 242 is mounted on the positioning plate 25 for electrically isolating the bracket 26
Fixed block 8 rib plate 9 RX plate coil 10
[ detailed description ] embodiments
For a better understanding of the objects, structure, features, and functions of the invention, reference should be made to the drawings and detailed description that follow.
Referring to fig. 1 to 4, an automatic testing system for a three-axis wireless charger is used for automatically detecting a wireless charging function of an electronic product (not shown, the same below) equipped with a wireless charging coil, and includes a housing 1, a fixing mechanism 2 disposed on the housing 1, the electronic product being configured to be placed on the fixing mechanism 2, a wireless charging component (not shown, the same below) disposed corresponding to the fixing mechanism 2 and charging the electronic product, a communication mechanism 3 electrically connected to the electronic product disposed on the fixing mechanism 2 and a testing mechanism 4, the testing mechanism 4 detecting a charging result of the electronic product, a driving mechanism 5 for driving the fixing mechanism 2 to move relative to the wireless charging component, and a control mechanism (not shown, the same below) for controlling a displacement direction and a displacement of the fixing mechanism 2.
Referring to fig. 1 to 3, the fixing mechanism 2 has a mounting plane base 21, a graduated scale 211 is disposed on the upper surface of the mounting plane base 21, the graduated scale 211 is arc-shaped, a rotation adjusting base 22 is disposed on the mounting plane base 21, the rotation adjusting base 22 is movably displaced relative to the mounting plane base 21, an indication portion 221 is disposed on one side of the rotation adjusting base 22, the indication portion 221 corresponds to the graduated scale 211, and the graduated scale 211 is disposed on the periphery of the indication portion 221,
the indication part 221 rotates around the graduated scale 211, so as to make the positioning accurate, a magnetic isolation plate 23 is arranged on the rotation adjustment base 22, a bearing seat 24 is arranged on the magnetic isolation plate 23, the magnetic isolation plate 23 plays the role of isolation and avoids signal interference, an installation positioning plate 25 is arranged on the bearing seat 24, the electronic product is arranged between the bearing seat 24 and the installation positioning plate 25, so the positioning is accurate, the problem of looseness can not occur, an electrical isolation bracket 26 is arranged on the installation positioning plate 25, two positioning installation blocks 27 are respectively fixedly arranged at two sides of the rotation adjustment base 22, the magnetic isolation plate 23, the bearing seat 24 and the installation positioning plate 25, the rotation adjustment base 22 is rotated to drive the rotation displacement of the magnetic isolation plate 23, the bearing seat 24 and the installation positioning plate 25 and drive the rotation displacement of the electronic product between the bearing seat 24 and the installation positioning plate 25, the operation is very simple and convenient, the bearing and placing seat 24 is provided with two limiting portions 241 extending towards the positioning and mounting block 27, the two limiting portions 241 limit the electronic product, one end of each limiting portion 241 is provided with a bending portion 242, the two bending portions 242 of the two limiting portions 241 are oppositely bent, the bending portion 242 prevents the electronic product from being separated from one end, that is, the electronic product is prevented from shaking on the bearing and placing seat 24 or even being separated from the bearing and placing seat 24 when an operator uses the electronic product, the stability and accuracy of the test are further ensured, and the mounting and positioning plate 25 and the electrical isolation bracket 26 are fixed by a plurality of positioning pins 6 to be strengthened and stable.
Referring to fig. 1 to 3, the wireless charging assembly has a wireless charger (not shown, the same below), the wireless charger and the electronic product are arranged in a right-to-right manner, the speed is fastest during testing, and an organic glass plate 7 is fixed on the electrically isolated bracket 26, so that the wireless charging assembly is attractive in appearance and has a wear-resistant effect. A fixing block 8 is arranged on one side of the organic glass plate 7, a rib plate 9 is vertically arranged on the organic glass plate 7, one side of the rib plate 9 is fixed on the fixing block 8, the rib plate 9 can certainly play a role of reinforcing, and an RX plate coil 10 is arranged on the fixing block 8.
Referring to fig. 1 to 3, a SET key (not shown, the same below), an X key (not shown, the same below), a Y key (not shown, the same below), a Z key (not shown, the same below), a yellow indicator light (not shown, the same below) and a red indicator light (not shown, the same below) are installed on the housing 1, the yellow indicator light is operated when the communication mechanism 3 SETs a value to zero, the SET key is pressed for three seconds, and the X key, the Y key or the Z key is pressed to adjust the position of the holding seat 24 when the yellow indicator light and the red indicator light are alternately operated.
Referring to fig. 1 to 3, a plurality of studs (not shown, the same below) are fixed on the installation positioning plate 25, and exceed the electrical isolation support 266mm to 10mm upward, the studs correspond to clearance holes (not numbered, the same below) of the organic glass plate 7 upward, the operation and adjustment are convenient, and no extra space is occupied, then, the gap between the studs and the organic glass plate 7 is filled with hot melt adhesive, nylon nuts (not shown, the same below) are screwed on the studs for fixation, after the fixation is completed, the three-axis low coordinate position is read out, the coordinate is used as a left coordinate, after the hot melt adhesive is cooled to dry, the plurality of positioning pins 6 can be removed, if the positioning pins 6 are pulled out, the positioning and installation block 27 can be removed at the same time, and then the positioning and installation block 27 is not needed.
After the left coordinate positioning is finished, the right coordinate is positioned, the X key, the Y key and the Z key are pressed, the RX board coil 10 is moved to the visual inspection upper side of the right clamp, the plurality of positioning pins 6 are installed on the RX board coil 10, the positioning block is not needed at the moment, namely, the positioning pins 6 are moved slowly to be aligned, until the positioning pins 6 can be manually and lightly inserted into the right side, if no accident exists, the positioning pins 6 can be aligned, in case of accidents, the rotary adjusting base 22 is loosened, the rotation can be performed by taking the rotary shaft as the center after the loosening, the positioning pins 6 are aligned, meanwhile, the graduated scale 211 can be referred, after the positioning pins 6 are aligned, the fact that the RX board coil 10 cannot be disassembled in the whole alignment process of the right side is noticed. The method is characterized in that only adjustment of a right substrate is needed, manual pressing of an X key, a Y key and a Z key is needed, after adjustment is completed, a program is called to read a numerical value of a specific position, the position is used as a right testing position and is set in a computer software system, then the program is programmed on the computer software system, the position needing to be reached is edited, after the start, the automatic testing system of the three-axis wireless charger is used for testing the testing points required by the electronic product through communication interaction, and finally, the testing points are filed to complete all projects.
Referring to fig. 1 to 4, the automatic testing system of a three-axis wireless charger is used for automatically detecting a wireless charging function of an electronic product with a wireless charging coil, a scale 211 is disposed on a mounting plane base 21 of the automatic testing system of a three-axis wireless charger, a rotation adjusting base 22 is disposed on the mounting plane base 21, the rotation adjusting base 22 moves relative to the mounting plane base 21, an indicating portion 221 is disposed on one side of the rotation adjusting base 22, the indicating portion 221 corresponds to the scale 211, a magnetic isolation plate 23 is disposed on the rotation adjusting base 22, a supporting seat 24 is disposed on the magnetic isolation plate 23, a mounting positioning plate 25 is disposed on the supporting seat 24, the electronic product is disposed between the supporting seat 24 and the mounting positioning plate 25, an electrical isolation support 26 is disposed on the mounting positioning plate 25, and two positioning mounting blocks 27 are respectively fixed on the rotation adjusting base 22, Magnetic isolation board 23, hold the both sides of putting seat 24 and installation locating plate 25, thereby rotate rotatory adjustment base 22 and drive magnetic isolation board 23, hold seat 24 and installation locating plate 25 rotary displacement, and drive the electronic product rotary displacement who holds between seat 24 and the installation locating plate 25, a wireless subassembly that charges corresponds fixed establishment 2 setting, and the wireless subassembly that charges to electronic product, the design of so fixing a position professional anchor clamps has improved positioning accuracy, and subtract the artifical repeated location clamping mode in the background art, save a large amount of time, fix a position once and target in place, need not readjust.
The electronic product arranged on the bearing seat 24 is electrically connected with the testing mechanism 4 through the communication mechanism 3, the testing mechanism 4 detects the charging result of the electronic product, the driving mechanism 5 is used for driving the fixing mechanism 2 to move relative to the wireless charging assembly, and the control mechanism is used for controlling the displacement direction and the displacement of the fixing mechanism 2.
The automatic test system of the three-axis wireless charger particularly aims at the charging electrical characteristic test of electronic products of a wireless charging coil at different distances and positions, the automatic test system of the three-axis wireless charger is controlled by a computer, test items are edited by computer system software assembled in a shell 1 through a positioning professional clamp, the electronic products are placed at test positions, wires are connected as required, the zero point of the electronic products is used as the zero point of relative coordinates and is adjusted on the automatic test system of the three-axis wireless charger, then the test is started on the computer system software, and finally after the test is completed, data are stored.
The above detailed description is only for the purpose of illustrating the preferred embodiments of the present invention, and not for the purpose of limiting the scope of the present invention, therefore, all technical changes that can be made by applying the present specification and drawings are included in the scope of the present invention.
Claims (10)
1. The utility model provides a triaxial wireless charger automatic test system for to the automatic detection that carries out wireless function of charging of the electronic product that is equipped with wireless charging coil, its characterized in that includes: a casing, a fixing mechanism arranged on the casing, an electronic product arranged on the fixing mechanism, the fixing mechanism having a mounting plane base, a graduated scale arranged on the mounting plane base, a rotary adjusting base arranged on the mounting plane base, the rotary adjusting base moving relative to the mounting plane base, an indication part arranged on one side of the rotary adjusting base, a magnetic isolation plate arranged on the rotary adjusting base, a bearing seat arranged on the magnetic isolation plate, a mounting plate arranged on the bearing seat, the electronic product arranged between the bearing seat and the mounting plate, an electrical isolation support arranged on the mounting plate, two positioning blocks respectively arranged on two sides of the rotary adjusting base, the magnetic isolation plate, the bearing seat and the mounting plate, the rotary adjusting base rotating to drive the magnetic isolation plate, The wireless charging device comprises a bearing seat and an installation positioning plate, and drives an electronic product between the bearing seat and the installation positioning plate to rotate and move, a wireless charging assembly is arranged corresponding to a fixing mechanism and charges the electronic product, a communication mechanism is electrically connected with the electronic product arranged on the bearing seat and a testing mechanism, the testing mechanism detects the charging result of the electronic product, a driving mechanism is used for driving the fixing mechanism to move relative to the wireless charging assembly, and a control mechanism is used for controlling the displacement direction and the displacement of the fixing mechanism.
2. The tri-axial wireless charger automatic test system of claim 1, wherein: the wireless charging assembly is provided with a wireless charger, and the wireless charger is arranged opposite to the electronic product.
3. The tri-axial wireless charger automatic test system of claim 1, wherein: the bearing seat is provided with at least two limiting parts extending towards the direction of the positioning installation block, and the two limiting parts limit the electronic product.
4. The tri-axial wireless charger automatic test system of claim 3, wherein: one end of each limiting part is provided with a bending part, the two bending parts of the two limiting parts are oppositely bent, and the bending parts block the electronic product from coming off from one end.
5. The tri-axial wireless charger automatic test system of claim 1, wherein: the installation positioning plate and the electric isolation support are fixed by a plurality of positioning pins.
6. The tri-axial wireless charger automatic test system of claim 1, wherein: an organic glass plate is fixedly arranged on the electric isolation bracket.
7. The tri-axial wireless charger automatic test system of claim 6, wherein: a fixed block is installed on one side of organic glass board, and a gusset is vertical to be installed on the organic glass board, and one side of this gusset is fixed in the fixed block.
8. The tri-axial wireless charger automatic test system of claim 7, wherein: an RX plate coil is mounted to the fixed block.
9. The tri-axial wireless charger automatic test system of claim 6, wherein: a plurality of double-screw bolts are fixed in on the installation locating plate, and upwards exceed electric property isolation support 6mm to 10mm, and the double-screw bolt upwards corresponds the clearance hole of organic glass board.
10. The tri-axial wireless charger automatic test system of claim 1, wherein: the shell is provided with an SET key, an X key, a Y key, a Z key, a yellow indicator light and a red indicator light, the yellow indicator light works when the communication mechanism SETs the numerical value to be zero, the SET key is pressed for three seconds, and when the yellow indicator light and the red indicator light work alternately, the X key, the Y key or the Z key is pressed to adjust the position of the bearing seat.
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CN109633316B true CN109633316B (en) | 2021-04-20 |
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Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112630553A (en) * | 2019-10-08 | 2021-04-09 | 无锡华润矽科微电子有限公司 | Device for detecting charging range of wireless charging equipment and corresponding detection method |
CN110850218B (en) * | 2019-11-28 | 2022-02-01 | Oppo广东移动通信有限公司 | Jig and test method |
CN112162169A (en) * | 2020-10-15 | 2021-01-01 | 东莞市冠佳电子设备有限公司 | Wireless charger test fixture |
CN112946395A (en) * | 2021-02-05 | 2021-06-11 | 中汽研汽车检验中心(天津)有限公司 | Test position adjusting system for wireless charging system |
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