CN108646123A - A kind of charger charging head test equipment - Google Patents
A kind of charger charging head test equipment Download PDFInfo
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- CN108646123A CN108646123A CN201810822927.1A CN201810822927A CN108646123A CN 108646123 A CN108646123 A CN 108646123A CN 201810822927 A CN201810822927 A CN 201810822927A CN 108646123 A CN108646123 A CN 108646123A
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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
- G01R31/01—Subjecting similar articles in turn to test, e.g. "go/no-go" tests in mass production; Testing objects at points as they pass through a testing station
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Abstract
The invention discloses a kind of charger charging head test equipment, mainly solve in the prior art that the test automation of charger charging head test equipment is low, efficiency is low.The present invention passes through a kind of charger charging head test equipment, including rack, power control cabinet, control panel, characteristic mechanism, the characteristic mechanism includes feed mechanism, revolution pipeline, mechanism for testing, cutting agency, the feed mechanism and the cutting agency is respectively set in the revolution pipeline both ends, the revolution pipeline is in " returning " font, it preferably solves described problem, is suitable for the test of charger charging head.
Description
Technical field
The present invention relates to charger charging head fields, are related specifically to a kind of charger charging head test equipment.
Background technology
Need to complete the feeding to charging head, test, blanking in the test process to charger charging head, it is existing
There is charger charging head test equipment the degree of automation in technology low, and equipment is longer, occupied space is big, can not achieve to filling
The integrated testing of each item data of electric appliance charging head.
Such as in the Chinese utility model that notification number is CN 204489922U, a kind of charger detection device is disclosed,
Including rack, feed mechanism, feed mechanism, mechanism for testing, receiving mechanism and material return mechanism, the feed mechanism, feed mechanism,
Receiving mechanism is successively set in rack from left to right:The feed mechanism is not set in the rack side:The material return mechanism
Setting is arranged in parallel in the rack other side, and with the feed mechanism:The mechanism for testing is located on the feed mechanism
Side.The utility model is existed by the way that feeder and material return mechanism is respectively set in rack two by the guiding role of chute feeder successively
It is tested at mechanism for testing, above-mentioned charger test device the degree of automation is not high, and the linear formula setting of equipment, equipment is long,
Occupied space is larger.
Invention content
The application first purpose is to provide a kind of charger charging head test equipment, and solution in the prior art fills charger
Dateline tests mostly longer, larger assembly line or equipment, lacks a kind of charger charging head test of high degree of automation
The problem of equipment, is had automation degree of equipment high, can be realized using a kind of charger charging head test equipment of the application
Material, test, lower package integral, high degree of automation, equipment occupation space are small;The second purpose of the application is to provide a kind of and solution
A kind of certainly corresponding test method of charger charging head test equipment of one of technical problem.
To reach one of above-mentioned purpose, the embodiment of the present application uses following technical scheme:
A kind of charger charging head test equipment, including:One rack;One power control cabinet;One control panel;One characteristic mechanism,
Characteristic mechanism includes feed mechanism, revolution pipeline, mechanism for testing, cutting agency, and feeding is respectively set in revolution pipeline both ends
Mechanism and cutting agency, revolution pipeline are in " returning " font.
In the above-mentioned technical solutions, the embodiment of the present application is surveyed by the way that control panel, feed mechanism, revolution pipeline is arranged
Test-run a machine structure, cutting agency realize to the integrated test of charger charging head solve in the prior art to charger charging head
Feed mechanism and cutting agency, revolution conveying is respectively set in the not high problem of the degree of automation of test, revolution pipeline both ends
Line is in " returning " font, and it is mostly linear arrangement to charger charging head test equipment to solve in the prior art, leads to long mistake
Greatly, the big problem of occupied space can make charger charging head test equipment the degree of automation higher, facility compact, occupied space
It is small.
Further, according to the embodiment of the present application, wherein control panel includes at least display device, start button, emergency stop
Button makes charger charging head test equipment easy to operate, once device fails, staff can close machine immediately
Device can prevent unnecessary loss.
Further, according to the embodiment of the present application, wherein feed mechanism includes feeding pipeline, is set on feeding pipeline
It is equipped with flat belt, feeding pipeline one end is provided with synchronous motor, and synchronous motor engages connection with flat belt, and the other end is connected with
Bearing one is provided with line slide rail sliding block one on bearing one, and movable plate one is provided on line slide rail sliding block one, and movable plate one connects
It is connected to vertical cylinder slide unit, cylinder one is provided on vertical cylinder slide unit, vertical cylinder slide unit is connected with connecting plate one;Connecting plate
One other side is connected with pneumatic-finger one, and pneumatic-finger one is connected with fixture one.
Further, according to the embodiment of the present application, wherein revolution pipeline includes connecting plate two, revolution pipeline guiding
Cylinder two is provided on plate, connecting plate two, cylinder two is connected with pushing block one;Pipeline guide plate is turned round, revolution pipeline is oriented to
Smelting tool is disposed on plate, connecting plate three is provided with cylinder five, line slide rail sliding block two, and cylinder five is connected with floating junction, floats
Connector is connected with pushing block four, realizes the power supply having to smelting.
Further, according to the embodiment of the present application, wherein mechanism for testing includes upper plate, lower plate;Upper plate is provided with
Cylinder six, line slide rail sliding block three, buffer three, cylinder six are connected with push plate, testing cassete, testing cassete are provided in upper push plate
Including upper testing cassete, lower testing cassete, probe;Lower plate is provided with cylinder seven, line slide rail sliding block four, USB connector lugs, cylinder seven
It is connected with lower push plate.
Further, according to the embodiment of the present application, wherein cutting agency includes bearing two, and connection is connected on bearing two
Plate four, connecting plate four are provided with cylinder eight, line slide rail sliding block five, and movable plate two is provided on line slide rail sliding block five, mobile
Plate two is connected with pneumatic clamper mounting plate, and pneumatic clamper mounting plate is connected with pneumatic-finger two, and pneumatic-finger two is connected with fixture two;Cylinder eight
Start, pushes movable plate two to move to reach setting position, pneumatic-finger two makes fixture two press from both sides charger charging head from jig
Tightly;Cylinder eight pushes movable plate two to be moved to another setting position, and pneumatic-finger two makes fixture two unclamp charger charging head,
Realize that the automation to charger charging head exports.
Further, according to the embodiment of the present application, wherein be provided with contact sensor, charger charging on flat belt
For head when transport is to setting position on flat belt, signal can be fed back to cylinder one by contact sensor;Synchronous motor startup drives
Charger charging head on flat belt is delivered to setting position, and signal is fed back to cylinder one by contact sensor, and cylinder one pushes
Movable plate one, vertical cylinder slide unit go downwards to setting position, and pneumatic-finger one opens, and the opening of fixture one presss from both sides charger charging head
Tightly, vertical cylinder slide unit clips charger charging head and goes upward to installation position, and charger charging head is placed into smelting tool, is realized certainly
The automation feeding of dynamic charger charging head.
Further, according to the embodiment of the present application, wherein in feed mechanism:The both ends of line slide rail sliding block one stroke
It is respectively set there are two buffer one, buffer one can buffer movable plate one and be moved to stroke both ends on line slide rail sliding block one
Stopped process when endpoint;The both ends of vertical cylinder slide unit stroke are respectively set there are two buffer two, and buffer two can buffer
Stopped process of the cylinder one when being moved to stroke both ends endpoint on vertical cylinder slide unit is realized and is automated to charger charging head
The stability of feeding.
Further, according to the embodiment of the present application, wherein testing cassete tool is provided with probe there are two notch in notch
Testing cassete is connect by probe with the plug of charger charging head;USB connector lugs can connect with the USB interface of charger charging head
It connects;Testing cassete can be formed into a loop by charger charging head with USB connector lugs and be connected, and testing cassete is connected with adjustable electric current;Gas
Cylinder seven starts, and pushes lower push plate to move up to specified travel position, USB connector lugs is made to be inserted into below charger charging head
USB interface, cylinder seven stop, and cylinder six pushes upper push plate to move downwardly to specified travel position, two of lower testing cassete bottom
The plug that notch is directed at charger charging head is inserted into, and after probe is contacted with charger charging head, makes testing cassete can with USB connector lugs
It is formed into a loop and is connected by charger charging head, realize the automatic test to charger charging head.
Further, according to the embodiment of the present application, wherein USB connector lugs are at least 2, and USB connector lugs are in lower plate
Linear formula arrangement, is realized to being tested while multiple charger charging heads.
To achieve the above object two, the technical solution that the embodiment of the present application uses is as follows:
A kind of test method of charger charging head test equipment, includes the following steps:
A) first step:Equipment is checked without hidden danger, the start button of manual operation control panel, first synchronous motor startup,
The charger charging head on flat belt is driven to be delivered to setting position, signal is fed back to cylinder one by contact sensor, secondly gas
Cylinder one pushes movable plate one, vertical cylinder slide unit to go downwards to setting position, and pneumatic-finger one opens, and fixture one is opened charger
Charge head clamping, and last vertical cylinder slide unit clips charger charging head and goes upward to installation position, and charger charging head is placed
Have to smelting;
B) second step:First, cylinder three start, push pushing block two, pushing block two push smelting tool movement, push smelting tool along return
It is vertically movable to setting travel position to transfer line sending guide plate, meanwhile, cylinder two pushes pushing block one to move right, and pushes pushing block one
Along revolution pipeline guide plate transverse shifting, meanwhile, cylinder four starts, and pushing block three, pushing block three is pushed to push smelting tool movement, push away
Dynamic smelting tool is vertically movable to setting travel position along revolution pipeline guide plate, meanwhile, cylinder five pushes pushing block four-way to move to left
It is dynamic, push pushing block four along revolution pipeline guide plate transverse shifting, it is in " returning " word on revolution pipeline guide plate to make smelting tool
Type moves;After charger charging head to be tested is moved to test station, cylinder three, cylinder two, cylinder four, cylinder five stop simultaneously
Only, the charger charging head on smelting tool stops;
C) third walks:Cylinder seven starts, and pushes lower push plate to move up to specified travel position, USB connector lugs is made to be inserted into
USB interface below to charger charging head, cylinder seven stop, and cylinder six pushes upper push plate to move downwardly to specified travel position,
The plug of two notches alignment charger charging head of lower testing cassete bottom is inserted into, and after probe is contacted with charger charging head, is made
Testing cassete can be formed into a loop by charger charging head with USB connector lugs and be connected;
D) the 4th step:Test floating voltage:220V AC powers are accessed in testing cassete, testing charger charging head is connecing
Output voltage when entering 220V power supplys under no-load condition;Static AC is tested, 220V AC powers are accessed in testing cassete, is surveyed
Trial charging device charging head is in the alternating current size under no-load condition, itself consumed;Test dynamic communication:It is connect in testing cassete
Enter 220V AC powers, testing charger charging head is in the case where setting load condition, total alternating current size for being consumed;It tests short
Road electric current:Charger charging head output end is subjected to short circuit, tests the size of at this moment its DC current externally exported;Finally will
Data measured is transferred to computer system, and is compared with non-defective unit parameter;
E) the 5th step:Cylinder six starts, in pulling push plate move up to initial position, make the plug of charger charging head
It is extracted from two notches of lower testing cassete bottom, cylinder seven starts, and pulls lower push plate to move downwardly to initial position, USB is made to connect
The end of a thread is extracted from USB interface below charger charging head, so that charger charging head is relay and is put back on smelting tool;
F) the 6th step:Cylinder three, cylinder two, cylinder four, cylinder five start simultaneously, make smelting tool in revolution pipeline guide plate
On continue to move to;When charger charging head to be tested is moved to immediately below cutting agency, cylinder three, cylinder two, cylinder four, gas
Cylinder five is simultaneously stopped;
G) the 7th step:Cylinder eight starts, and movable plate two is pushed to move to reach setting position, pneumatic-finger two make fixture two from
Charger is charged head clamping in jig;Cylinder eight pushes movable plate two to be moved to another setting position, and pneumatic-finger two makes folder
Tool two unclamps charger charging head, completes output.
In the above-mentioned technical solutions, by the way that control panel, feed mechanism, revolution pipeline, mechanism for testing, blanking machine is arranged
Structure is realized to the integrated testing of charger charging head feeding, conveying, test, blanking, and charger charging head test equipment can be made
Feed mechanism and cutting agency is respectively set in the degree of automation higher, revolution pipeline both ends, and revolution pipeline is in " returning " font,
Make facility compact, occupy little space, can be formed into a loop and be connected by charger charging head by testing cassete and USB connector lugs, surveyed
Examination box is connected with adjustable electric current, which can be passed through 220V alternating currents, can access load, short-circuit can connect, can survey respectively
Floating voltage, test static AC, test dynamic communication, test short circuit current are tried, data measured is finally transferred to computer
System, and compared with non-defective unit parameter, and each group of data and the completion of display comparison data are stored to charging by control panel
The automatic test of device charging head.
Description of the drawings
Present invention will be further explained below with reference to the attached drawings and examples.
Fig. 1 is a kind of front view of charger charging head test equipment of the application.
Fig. 2 is the vertical view of the test equipment of charger charging head shown in Fig. 1.
Fig. 3 is a kind of front view of the characteristic mechanism of charger charging head test equipment of the application.
Fig. 4 is the vertical view of characteristic mechanism shown in Fig. 3.
Fig. 5 is a kind of front view of the feed mechanism of charger charging head test equipment of the application.
Fig. 6 is the left view of feed mechanism shown in fig. 5.
Fig. 7 is the vertical view of feed mechanism shown in fig. 5.
Fig. 8 is the sectional view of the A-A along Fig. 6.
Fig. 9 is the B of feed mechanism shown in Fig. 8 to partial enlarged view.
Figure 10 is a kind of front view of the revolution pipeline of charger charging head test equipment of the application.
Figure 11 is the vertical view of revolution pipeline shown in Fig. 10.
Figure 12 is a kind of front view of the mechanism for testing of charger charging head test equipment of the application.
Figure 13 is the left view of mechanism for testing shown in Figure 12.
Figure 14 is the sectional view of the E-E along Figure 12.
Figure 15 is the F of mechanism for testing shown in Figure 12 to partial enlarged view.
Figure 16 is the sectional view of the G-G along Figure 14.
Figure 17 is a kind of front view of the cutting agency of charger charging head test equipment of the application.
Figure 18 is the right view of cutting agency shown in Figure 17.
Figure 19 is a kind of vertical view of the smelting tool of charger charging head test equipment of the application.
Figure 20 is the sectional view of the D-D along Figure 19.
In attached drawing
1, rack 2, power control cabinet 3, control panel
4, characteristic mechanism 41, feed mechanism 4101, feeding pipeline
4102, flat belt 4103, synchronous motor 4104, bearing one
4105, line slide rail sliding block 1, movable plate 1, vertical cylinder slide unit
4108, cylinder 1, connecting plate 1, pneumatic-finger one
4111, fixture 1, buffer 1, buffer two
42, pipeline 4201, connecting plate 2 4202, revolution pipeline guide plate are turned round
4203, connecting plate 3 4204, cylinder 2 4205, pushing block one
4206, smelting tool 4207, cylinder 3 4208, pushing block two
4209, cylinder 4 4210, pushing block 3 4211, cylinder five
4212, line slide rail sliding block 2 4213, floating junction 4214, pushing block four
43, mechanism for testing 4301, upper plate 4302, lower plate
4303, cylinder 6 4304, line slide rail sliding block 3 4305, buffer three
4306, upper push plate 4307, testing cassete 4308, upper testing cassete
4309, lower testing cassete 4310, probe 4311, cylinder seven
4312, line slide rail sliding block 4 4313, USB connector lugs 4314, lower push plate
44, cutting agency 4401, bearing 2 4402, connecting plate four
4403, cylinder 8 4404, line slide rail sliding block 5 4405, movable plate two
4406, pneumatic clamper mounting plate 4407, pneumatic-finger 2 4408, fixture two
5, charger charging head
Specific implementation mode
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to embodiments, to the present invention
Embodiment is further elaborated.It is real to should be appreciated that the specific embodiments described herein are merely illustrative of the present invention
Example is applied, embodiment is not intended to limit the present invention.In the description of the present application, it should be noted that term "upper", "lower", " left side ",
The orientation or positional relationship of the instructions such as " right side ", "inner", "outside", "front", "rear" is to be based on the orientation or positional relationship shown in the drawings,
" row ", " row " they refer to the distribution of the determinant on ordinary meaning, are merely for convenience of description the application and simplify to describe, rather than
Indicate or imply that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore cannot
It is interpreted as the limitation to the application.
As shown in Figs 1-4, present embodiment discloses a kind of charger charging head test equipments, including:One rack 1;One electricity
Control cabinet 2;One control panel 3;One characteristic mechanism 4, characteristic mechanism 4 include feed mechanism 41, revolution pipeline 42, mechanism for testing
43, feed mechanism 41 and cutting agency 44 is respectively set in cutting agency 44,42 both ends of revolution pipeline, and revolution pipeline 42 is in
" returning " font, control panel 3 include at least display device, start button, scram button, memory space, and processor can store number
According to, correction data, display equipment operational data, the parameters data of the charger charging head of test are shown;It is controlled by being arranged
Panel 3 processed, feed mechanism 41, revolution pipeline 42, mechanism for testing 43, cutting agency 44 are realized to the upper of charger charging head
Material conveying, is tested, the integration of blanking, and charger charging head test equipment the degree of automation higher, facility compact is made to occupy
Space is small, by the display equipment progress of work of control panel, while passing through control panel startup, arrestment work
Finish the automatic test of pairs of charger charging head, scram button be set, staff can closing machine immediately, can prevent
Unnecessary loss.
More specifically, as shown in figures 5-9, in the present embodiment, feed mechanism 41 includes feeding pipeline 4101, feeding conveying
Be provided with flat belt 4102 on line 4101,4101 one end of feeding pipeline is provided with synchronous motor 4103, synchronous motor 4103 with
The engagement connection of flat belt 4102, the other end are connected with bearing 1, line slide rail sliding block one are provided on bearing 1
4105, movable plate 1 is provided on line slide rail sliding block 1, and movable plate 1 is connected with vertical cylinder slide unit
4107, cylinder 1 is provided on vertical cylinder slide unit 4107, and vertical cylinder slide unit 4107 is connected with connecting plate 1;Even
One 4109 other side of fishplate bar is connected with pneumatic-finger 1, and pneumatic-finger 1 is connected with fixture 1, fixture one
There are four clamping opening for 4111 tools, can pick up four charger charging heads 5;Contact sensor, charger are provided on flat belt 4102
For charging head 5 when transport is to setting position on flat belt 4102, signal can be fed back to cylinder 1 by contact sensor;Feeding
In mechanism 41:The both ends of one 4105 stroke of line slide rail sliding block are respectively set there are two buffer 1, buffer 1
Stopped process of the movable plate 1 when being moved to stroke both ends endpoint on line slide rail sliding block 1 can be buffered;Vertical gas
The both ends of 4107 stroke of cylinder slide unit are respectively set there are two buffer 2 4113, and 2 4113 energy bounce cylinder 1 of buffer exists
The stopped process when endpoint of stroke both ends is moved on vertical cylinder slide unit 4107;Synchronous motor 4103 starts, and provides powered belt
Charger charging head 5 on dynamic flat belt 4102 is delivered to setting position, and signal is fed back to cylinder 1 by contact sensor,
Secondly cylinder 1 pushes movable plate 1, vertical cylinder slide unit 4107 to go downwards to setting position, pneumatic-finger 1
It opens, the opening of fixture 1 clamps charger charging head 5, and last vertical cylinder slide unit 4107 clips charger charging head 5
Installation position is gone upward to, charger charging head 5 is placed into smelting tool 4206, completes the automatic charging of charger charging head.
More specifically, as shown in figs. 10-11, in the present embodiment, revolution pipeline 42 is defeated including connecting plate 2 4201, revolution
Line sending guide plate 4202, connecting plate 3 4203;Cylinder 2 4204 is provided on connecting plate 2 4201, cylinder 2 4204, which is connected with, to be pushed away
Block 1;Pipeline guide plate 4202 is turned round, smelting tool 4206 is disposed on revolution conveying guide plate 4202;Smelting tool 4206 is returning
Transfer and send the left and right sides of guide plate 4202 in row to arrangement, smelting tool 4206 revolution 4202 front and rear sides of conveying guide plate in row to
Arrangement, a smelting tool 4206 can place 4 charger charging heads, and revolution conveying 4202 rear side left end of guide plate is provided with cylinder three
4207, cylinder 3 4207 is connected with pushing block 2 4208, and revolution conveying 4202 front side right end of guide plate is provided with cylinder 4 4209, gas
Cylinder 4 4209 is connected with pushing block 3 4210;Connecting plate 3 4203 is provided with cylinder 5 4211, line slide rail sliding block 2 4212, cylinder
5 4211 are connected with floating junction 4213, and floating junction 4213 is connected with pushing block 4 4214;Started by cylinder 3 4207, is pushed
Pushing block 2 4208, pushing block 2 4208 push 4206 movement of smelting tool, push smelting tool 4206 perpendicular along revolution pipeline guide plate 4202
To being moved to setting travel position, meanwhile, cylinder 2 4204 pushes pushing block 1 to move right, push pushing block 1 along
4202 transverse shifting of pipeline guide plate is turned round, meanwhile, cylinder 4 4209 starts, and pushing block 3 4210, pushing block 3 4210 is pushed to push away
Dynamic 4206 movement of smelting tool pushes smelting tool 4206 vertically movable to setting travel position along revolution pipeline guide plate 4202, together
When, cylinder 5 4211 pushes pushing block 4 4214 to be moved to the left, and pushes pushing block 4 4214 horizontal along revolution pipeline guide plate 4202
To movement, smelting tool 4206 is made to be moved in " returning " font on revolution pipeline guide plate 4202;When charger charging head 5 to be tested
After being moved to test station, cylinder 3 4207, cylinder 2 4204, cylinder 4 4209, cylinder 5 4211 are simultaneously stopped, smelting tool 4206
On charger charging head 5 stop, realization charger charging head 5 is delivered at mechanism for testing 43, through the above technical solutions,
" returning " type pipeline is formed, the length of charger charging head test equipment is reduced, occupied space is made to reduce.
More specifically, as shown in figs. 12-16, in the present embodiment, mechanism for testing 43 includes upper plate 4301, lower plate
4302;Upper plate 4301 is provided with cylinder 6 4303, line slide rail sliding block 3 4304, buffer 3 4305, and cylinder 6 4303 connects
It is connected to push plate 4306, testing cassete 4307 is provided in upper push plate 4306, testing cassete 4307 includes upper testing cassete 4308, lower test
Box 4309, probe 4310;Lower plate 4302 is provided with cylinder 7 4311, line slide rail sliding block 4 4312, USB connector lugs 4313,
Cylinder 7 4311 is connected with lower push plate 4314;The tool of testing cassete 4307 is provided with 4310 testing cassete of probe there are two notch in notch
4307 are connect by probe 4310 with the plug of charger charging head 5;USB connector lugs 4313 can be with the USB of charger charging head 5
Interface connects;Testing cassete 4307 can be formed into a loop by charger charging head 5 with USB connector lugs 4313 and be connected, testing cassete 4307
It is connected with adjustable electric current, such as 2220V alternating currents can be passed through, load can be added to serving as device charging head, it also can be by charger
Charging head short circuit connects, and USB connector lugs 4313 are at least 2, and USB connector lugs 4313 are arranged in 4302 linear formula of lower plate,
Testing cassete 4307 and about 4313 USB connector lugs are oppositely arranged 8 in a row, can disposably test 8 on two smelting tools 4206
The parameters data of a charger charging head 5.
More specifically, as shown in figs. 17-18, in the present embodiment, cutting agency 44 includes bearing 2 4401, bearing 2 4401
On be connected with connecting plate 4 4402, connecting plate 4 4402 is provided with cylinder 8 4403, line slide rail sliding block 5 4404, line slide rail
Movable plate 2 4405 is provided on sliding block 5 4404, movable plate 2 4405 is connected with pneumatic clamper mounting plate 4406, pneumatic clamper mounting plate
4406 are connected with pneumatic-finger 2 4407, and pneumatic-finger 2 4407 is connected with fixture 2 4408;Fixture 2 4408 has 4 folders
Mouthful, it can disposably pick up 4 charger charging heads 5 on corresponding smelting tool 4206;Complete the automatic blanking to charger charging head.
As shown in Fig. 1-2 0, a kind of test method of charger charging head test equipment includes the following steps:
A) first step:Check equipment without hidden danger, the start button of manual operation control panel 3, first synchronous motor 4103
Start, drives the charger charging head 5 on flat belt 4102 to be delivered to setting position, signal is fed back to cylinder by contact sensor
One 4108, secondly the promotion of cylinder 1 movable plate 1, vertical cylinder slide unit 4107 go downwards to setting position, pneumatic-finger
One 4110 open, and 4 clamping opening opening of fixture 1 clamps 4 charger charging heads 5 of a row, last vertical cylinder slide unit
4107, which clip 4 charger charging heads 5, goes upward to installation position, and 4 charger charging heads 5 are placed into smelting tool 4206;
B) second step:First, cylinder 3 4207 starts, and pushing block 2 4208, pushing block 2 4208 is pushed to push 4206 fortune of smelting tool
It is dynamic, push smelting tool 4206 vertically movable to setting travel position along revolution pipeline guide plate 4202, meanwhile, cylinder 2 4204
It pushes pushing block 1 to move right, pushes pushing block 1 along revolution 4202 transverse shifting of pipeline guide plate, meanwhile, gas
Cylinder 4 4209 starts, and pushes pushing block 3 4210, pushing block 3 4210 to push 4206 movement of smelting tool, pushes smelting tool 4206 defeated along turning round
Line sending guide plate 4202 is vertically movable to setting travel position, meanwhile, cylinder 5 4211 pushes pushing block 4 4214 to be moved to the left, and pushes away
Dynamic pushing block 4 4214 makes smelting tool 4206 in revolution pipeline guide plate 4202 along revolution 4202 transverse shifting of pipeline guide plate
It is upper to be moved in " returning " font;After charger charging head 5 to be tested is moved to test station, cylinder 3 4207, cylinder 2 4204,
Cylinder 4 4209, cylinder 5 4211 are simultaneously stopped, and the charger charging head 5 on smelting tool 4206 stops;
C) third walks:Cylinder 7 4311 starts, and pushes lower push plate 4314 to move up to specified travel position, makes 8 USB
Connector lug 4313 is inserted into the USB interface of 85 lower sections of charger charging head, and cylinder 7 4311 stops, in the promotion of cylinder 6 4303
Push plate 4306 moves downwardly to specified travel position, and two notches of 8 4309 bottoms of lower testing cassete are directed at 8 charger chargings
First 5 plug is inserted into, and after probe 4310 is contacted with charger charging head 5, makes testing cassete 4307 and USB connector lugs 4313 that can pass through
The forming circuit connection of charger charging head 5;
D) the 4th step:Test floating voltage:220V AC powers, testing charger charging head are accessed in testing cassete 4307
5 output voltage when accessing 220V power supplys under no-load condition;Static AC is tested, 220V is accessed in testing cassete 4307 and is handed over
Galvanic electricity source, testing charger charging head 5 is in the alternating current size under no-load condition, itself consumed;Test dynamic communication:
220V AC powers are accessed in testing cassete 4307, testing charger charging head 5 is in the case where setting load condition, total friendship for being consumed
Galvanic electricity size;Test short circuit current:5 output end of charger charging head is subjected to short circuit, tests at this moment its direct current externally exported
The size of electric current;Data measured is finally transferred to computer system, and is compared with non-defective unit parameter;
E) the 5th step:Cylinder 6 4303 starts, in pulling push plate 4306 move up to initial position, make 4 chargers
The plug of charging head 5 is extracted from two notches of 4309 bottom of lower testing cassete, and cylinder 7 4311 starts, pull lower push plate 4314 to
Under move to initial position, so that USB connector lugs 4313 is extracted from 5 lower section USB interface of charger charging head, make charger charging head
5 relay put back into smelting tool 4206 on;
F) the 6th step:Cylinder 3 4207, cylinder 2 4204, cylinder 4 4209, cylinder 5 4211 start simultaneously, and smelting is made to have
4206 continue to move on revolution pipeline guide plate 4202;When charger charging head 5 to be tested is being moved to cutting agency 44 just
When lower section, cylinder 3 4207, cylinder 2 4204, cylinder 4 4209, cylinder 5 4211 are simultaneously stopped;
G) the 7th step:Cylinder 8 4403 starts, and movable plate 2 4405 is pushed to move to reach setting position, pneumatic-finger two
4407 make fixture 2 4408 clamp charger charging head 5 from jig 4206;Cylinder 8 4403 pushes movable plate 2 4405 to move
It moves to another setting position, pneumatic-finger 2 4407 makes fixture 2 4408 unclamp charger charging head 5, completes output.
Present embodiment discloses a kind of charger charging head test equipment, by being arranged control panel 3, feed mechanism 41,
Revolution pipeline 42, mechanism for testing 43, cutting agency 44 realize the one to charger charging head feeding, conveying, test, blanking
Change test, can make charger charging head test equipment the degree of automation higher, 42 both ends of revolution pipeline that feeder be respectively set
Structure 41 and cutting agency 44, revolution pipeline make facility compact, occupy little space in " returning " font conveying charger charging head 5,
It can be formed into a loop and be connected by charger charging head by testing cassete 4307 and USB connector lugs 4313, testing cassete 4307 is connected with can
The electric current of adjusting, the testing cassete 4307 can be passed through 220V alternating currents, can access load, short-circuit can connect, can test zero load respectively
Voltage, test static AC, test dynamic communication, test short circuit current, are finally transferred to computer system by data measured, and
It is compared with non-defective unit parameter, and each group of data and the completion of display comparison data is stored to charger charging head by control panel
Automatic test, have good human-computer interaction sense, high degree of automation.
Although the illustrative specific implementation mode of the present invention is described above, in order to the technology of the art
Personnel are it will be appreciated that the present invention, but the present invention is not limited only to the range of specific implementation mode, to the common skill of the art
For art personnel, as long as long as various change the attached claims limit and determine spirit and scope of the invention in, one
The innovation and creation using present inventive concept are cut in the row of protection.
Claims (10)
1. a kind of charger charging head test equipment, including:
One rack (1);
One power control cabinet (2);
One control panel (3);
One characteristic mechanism (4), the characteristic mechanism (4) include feed mechanism (41), revolution pipeline (42), mechanism for testing
(43), cutting agency (44),
The feed mechanism (41) and the cutting agency (44), the revolution is respectively set in revolution pipeline (42) both ends
Pipeline (42) is in " returning " font.
2. a kind of charger charging head test equipment according to claim 1, wherein the control panel (3) is at least wrapped
Include display device, start button, scram button.
3. a kind of charger charging head test equipment according to claim 1, wherein the feed mechanism (41) includes upper
Expect pipeline (4101), flat belt (4102), the feeding pipeline (4101) are provided on the feeding pipeline (4101)
One end is provided with synchronous motor (4103), and the synchronous motor (4103) engages connection, other end connection with flat belt (4102)
There is bearing one (4104), line slide rail sliding block one (4105), the line slide rail sliding block are provided on the bearing one (4104)
Movable plate one (4106) is provided on one (4105), the movable plate one (4106) is connected with vertical cylinder slide unit (4107), institute
It states and is provided with cylinder one (4108) on vertical cylinder slide unit (4107), the vertical cylinder slide unit (4107) is connected with connecting plate one
(4109);The connecting plate one (4109) other side is connected with pneumatic-finger one (4110), and the pneumatic-finger one (4110) is even
It is connected to fixture one (4111).
4. a kind of charger charging head test equipment according to claim 1, wherein the revolution pipeline (42) includes
Connecting plate two (4201), revolution pipeline guide plate (4202), connecting plate three (4203);
Cylinder two (4204) is provided on the connecting plate two (4201), the cylinder two (4204) is connected with pushing block one
(4205);
The revolution pipeline guide plate (4202) is disposed with smelting tool (4206) on the revolution pipeline guide plate (4202),
The connecting plate three (4203) is provided with cylinder five (4211), line slide rail sliding block two (4212), the cylinder five
(4211) it is connected with floating junction (4213), the floating junction (4213) is connected with pushing block four (4214).
5. a kind of charger charging head test equipment according to claim 1, wherein the mechanism for testing (43) includes upper
Bottom plate (4301), lower plate (4302);
The upper plate (4301) is provided with cylinder six (4303), line slide rail sliding block three (4304), buffer three (4305), institute
It states cylinder six (4303) and is connected with push plate (4306), testing cassete (4307), the survey are provided on the upper push plate (4306)
It includes upper testing cassete (4308), lower testing cassete (4309), probe (4310) to try box (4307);
The lower plate (4302) is provided with cylinder seven (4311), line slide rail sliding block four (4312), USB connector lugs (4313),
The cylinder seven (4311) is connected with lower push plate (4314).
6. a kind of charger charging head test equipment according to claim 1, wherein the cutting agency (44) includes branch
Two (4401) of seat, are connected with connecting plate four (4402) on the bearing two (4401), the connecting plate four (4402) is provided with gas
Cylinder eight (4403), line slide rail sliding block five (4404) are provided with movable plate two on the line slide rail sliding block five (4404)
(4405), the movable plate two (4405) is connected with pneumatic clamper mounting plate (4406), and the pneumatic clamper mounting plate (4406) is connected with gas
It starts finger two (4407), the pneumatic-finger two (4407) is connected with fixture two (4408).
7. a kind of charger charging head test equipment according to claim 3, wherein be arranged on the flat belt (4102)
There is contact sensor, the charger charging head (5) is when transport is to setting position on the flat belt (4102), the contact
Signal can be fed back to the cylinder one (4108) by sensor.
8. a kind of charger charging head test equipment according to claim 3, wherein in the feed mechanism (41):Institute
The both ends for stating line slide rail sliding block one (4105) stroke are respectively set there are two buffer one (4112), the buffer one
(4112) movable plate one (4106) can be buffered and be moved to stroke both ends endpoint on the line slide rail sliding block one (4105)
When stopped process;The both ends of vertical cylinder slide unit (4107) stroke are respectively set there are two buffer two (4113), institute
It states buffer two (4113) cylinder one (4108) can be buffered and be moved to stroke two on the vertical cylinder slide unit (4107)
Hold stopped process when endpoint.
9. a kind of charger charging head test equipment according to claim 5, wherein the testing cassete (4307) has two
A notch is provided with the probe (4310) testing cassete (4307) in the notch and is filled with charger by probe (4310)
The plug of dateline (5) connects;The USB connector lugs (4313) can connect with the USB interface of charger charging head (5);The survey
Connection, the test can be formed into a loop by the charger charging head (5) by trying box (4307) and the USB connector lugs (4313)
Box (4307) is connected with adjustable electric current.
10. a kind of charger charging head test equipment according to claim 5, wherein the USB connector lugs (4313) are extremely
It is 2 less, the USB connector lugs (4313) are in the lower plate (4302) linearly formula arrangement.
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CN201810822927.1A CN108646123A (en) | 2018-07-25 | 2018-07-25 | A kind of charger charging head test equipment |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110133422A (en) * | 2019-05-23 | 2019-08-16 | 中山市博胜机电设备有限公司 | A kind of leakage protecting plug full-automatic test system |
CN111141985A (en) * | 2020-01-11 | 2020-05-12 | 常州市天之杰机械科技有限公司 | Intelligent charger detection system and charging detection method thereof |
CN111319959A (en) * | 2020-02-28 | 2020-06-23 | 张家港市欧微自动化研发有限公司 | Relay electrical performance testing method |
WO2021102985A1 (en) * | 2019-11-29 | 2021-06-03 | 杨继朗 | Conduction test system for usb plug connector |
CN117110773A (en) * | 2023-10-20 | 2023-11-24 | 启东市旭能电子科技有限公司 | Lithium battery charger test equipment |
CN117148090A (en) * | 2023-10-27 | 2023-12-01 | 深圳市鲁光电子科技有限公司 | Testing device for gallium nitride device |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105548787A (en) * | 2015-11-30 | 2016-05-04 | 东莞市冠佳电子设备有限公司 | Power supply automatic test system |
CN206740895U (en) * | 2016-11-01 | 2017-12-12 | 深圳市津普科技有限公司 | A kind of USB-style charger automatic test machine |
CN206952487U (en) * | 2017-07-19 | 2018-02-02 | 江西迪迪工业智能设备有限公司 | A kind of tool automatic circulation device |
CN107942182A (en) * | 2017-12-30 | 2018-04-20 | 深圳科易设计服务有限公司 | A kind of charger automatic test machine |
CN108161420A (en) * | 2017-12-29 | 2018-06-15 | 吉安市井开区吉军科技有限公司 | A kind of electric parking brake mandrel assembles detection device |
-
2018
- 2018-07-25 CN CN201810822927.1A patent/CN108646123A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105548787A (en) * | 2015-11-30 | 2016-05-04 | 东莞市冠佳电子设备有限公司 | Power supply automatic test system |
CN206740895U (en) * | 2016-11-01 | 2017-12-12 | 深圳市津普科技有限公司 | A kind of USB-style charger automatic test machine |
CN206952487U (en) * | 2017-07-19 | 2018-02-02 | 江西迪迪工业智能设备有限公司 | A kind of tool automatic circulation device |
CN108161420A (en) * | 2017-12-29 | 2018-06-15 | 吉安市井开区吉军科技有限公司 | A kind of electric parking brake mandrel assembles detection device |
CN107942182A (en) * | 2017-12-30 | 2018-04-20 | 深圳科易设计服务有限公司 | A kind of charger automatic test machine |
Non-Patent Citations (3)
Title |
---|
刘和平等: "《液压与气压传动》", 31 August 2011, 上海交通大学出版社 * |
胡海清等: "《气压与液压传动控制技术》", 30 June 2018, 北京理工大学出版社 * |
苏超: "《PLC编程与应用技术实训指导书》", 30 June 2014, 西南交通大学出版社 * |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110133422A (en) * | 2019-05-23 | 2019-08-16 | 中山市博胜机电设备有限公司 | A kind of leakage protecting plug full-automatic test system |
WO2021102985A1 (en) * | 2019-11-29 | 2021-06-03 | 杨继朗 | Conduction test system for usb plug connector |
CN111141985A (en) * | 2020-01-11 | 2020-05-12 | 常州市天之杰机械科技有限公司 | Intelligent charger detection system and charging detection method thereof |
CN111319959A (en) * | 2020-02-28 | 2020-06-23 | 张家港市欧微自动化研发有限公司 | Relay electrical performance testing method |
CN111319959B (en) * | 2020-02-28 | 2021-10-26 | 张家港市欧微自动化研发有限公司 | Relay electrical performance testing method |
CN117110773A (en) * | 2023-10-20 | 2023-11-24 | 启东市旭能电子科技有限公司 | Lithium battery charger test equipment |
CN117110773B (en) * | 2023-10-20 | 2023-12-26 | 启东市旭能电子科技有限公司 | Lithium battery charger test equipment |
CN117148090A (en) * | 2023-10-27 | 2023-12-01 | 深圳市鲁光电子科技有限公司 | Testing device for gallium nitride device |
CN117148090B (en) * | 2023-10-27 | 2024-01-26 | 深圳市鲁光电子科技有限公司 | Testing device for gallium nitride device |
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Application publication date: 20181012 |