CN102794996B - Laser marking pressure resisting test integrated machine and laser marking pressure resisting test method - Google Patents

Abstract

The invention relates to a laser marking pressure resisting test integrated machine which is used for performing laser marking and pressure resisting test on a plastic package mould. The laser marking pressure resisting test integrated machine comprises a feeding device, a laser marking host machine, a pressure resisting test system, a storing device and a transmission device which are fixed on a frame, wherein the feeding device is used for feeding the plastic package mould to a feeding position upstream the laser marking host machine; the laser marking host machine is used for performing laser marking on the plastic package mould at the laser marking host machine; the pressure resisting test system is used for performing the pressure resisting test on the plastic package mould which is subjected to the laser marking and is located at the pressure resisting test system; the storing device is used for storing the plastic package mould which is subjected to the laser marking and the pressure resisting test; and the transmission device is used for simultaneously moving the plastic package mould at the feeding device to the laser marking host machine, the plastic package mould at the laser marking host machine to the pressure resisting test system and the plastic package mould at the pressure resisting test system to the storing device. The invention also relates to a laser marking pressure resisting test method.

Description

Laser marking voltage-withstand test all-in-one and laser marking withstand voltage test method

Technical field

The present invention relates to and a kind ofly can carry out laser marking at plastic packaging Modular surface and the laser marking voltage-withstand test all-in-one of voltage-withstand test can be carried out simultaneously to plastic packaging module.The invention still further relates to a kind of laser marking withstand voltage test method.

Background technology

Traditional laser marking machine comprises transmission device and laser marking main frame, after whole piece plastic packaging module being delivered to ad-hoc location by transmission device, by the content of laser marking main frame required for plastic packaging surface mark; Traditional pressure-resistant testing machine comprises mechanical arm and voltage-withstand test main frame, single plastic packaging module to be caught on voltage-withstand test main frame carry out voltage-withstand test by mechanical arm.Two kinds of machines can only carry out single feature operation, and due to transmission device, mechanical arm frequent movement and the human and material resources cost causing care and maintenance to take is high.In addition, pressure-resistant testing machine can only carry out voltage-withstand test, inefficiency to single plastic packaging module, is difficult to scalable client's needs.

Summary of the invention

The object of the invention is the deficiency overcoming above-mentioned two large class machines, provide one can carry out laser marking to plastic packaging module, all-in-one and the method thereof of voltage-withstand test can be carried out again simultaneously to plastic packaging module.

Above object of the present invention is realized by a kind of laser marking voltage-withstand test all-in-one, this laser marking voltage-withstand test all-in-one, for carrying out laser marking and voltage-withstand test to plastic packaging module, it is characterized in that, described laser marking voltage-withstand test all-in-one comprises feeding device, laser marking main frame, pressure-resistant test system, accommodation device, transmission device and frame, described feeding device, described laser marking main frame, described pressure-resistant test system, described accommodation device and described transmission device are all fixed in described frame, described feeding device is used for feed position plastic packaging module being supplied to described laser marking main frame upstream, described laser marking main frame is used for carrying out laser marking to the plastic packaging module at described laser marking main frame place, described pressure-resistant test system is used for carrying out voltage-withstand test to the plastic packaging module of carrying out laser marking at described pressure-resistant test system place, described accommodation device is for receiving the plastic packaging module of carrying out laser marking and voltage-withstand test, described transmission device is used for the plastic packaging module of described feed position being moved to described laser marking main frame place simultaneously, the plastic packaging module that described laser marking main frame place has carried out laser marking is moved to described pressure-resistant test system place, and the plastic packaging module of described pressure-resistant test system place having been carried out laser marking and voltage-withstand test moves to described accommodation device place.

Preferably, described transmission device comprises transmission bracket device and transmission drive, described transmission bracket device comprises transmission bracket, for ordering about the support lift cylinder of described transmission bracket lifting, right pilot pin, left pilot pin, release shift fork and the release cylinder for ordering about the release of described release shift fork, described right pilot pin and described left pilot pin are arranged on the upper right corner and the upper left corner of described transmission bracket respectively, described release shift fork and described release cylinder are arranged on the side of described transmission bracket, described support lift cylinder is arranged on below or the top of described transmission bracket.

Preferably, after described support lift cylinder orders about the rising of described transmission bracket, described right pilot pin is embedded in the locating hole of described feed position plastic packaging module, and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module, thus order about described transmission bracket by described transmission drive and move, the plastic packaging module of described feed position is moved to described laser marking main frame place, and the plastic packaging module that described laser marking main frame place has carried out laser marking is moved to described pressure-resistant test system place, and order about described release shift fork by described release cylinder to release, the plastic packaging module of described pressure-resistant test system place having been carried out laser marking and voltage-withstand test moves to described accommodation device place.

Preferably, described transmission drive comprises driving block, drive screw and driving motor, described driving block is connected with described transmission bracket, and described driving motor orders about described driving block by described drive screw and slides, thus described transmission bracket is moved.

Preferably, described pressure-resistant test system comprises voltage-withstand test main frame and voltage-withstand test servicing unit, described voltage-withstand test servicing unit comprises fixture block, lower fixture block, upper fixture block lift cylinder, be positioned at the right stem on the right side of described upper fixture block, and the left stem be positioned on the left of described lower fixture block, before described voltage-withstand test main frame carries out voltage-withstand test, down move under the drive of described upper fixture block fixture block lift cylinder on described, plastic packaging module is clipped between described upper fixture block and described lower fixture block, described voltage-withstand test main frame by described right stem and described left stem to described plastic packaging module making alive to carry out voltage-withstand test.

Preferably, described voltage-withstand test servicing unit also comprises the upper fixture block elevation sensor be fixed on described upper fixture block lift cylinder, when described upper fixture block elevation sensor is positioned at lower position, described plastic packaging module and described upper fixture block and described lower fixture block normally agree with.

It is preferred that described accommodation device comprises storage turnover panel, for ordering about turnover panel cylinder and the turnover panel elevation sensor of the lifting of described storage turnover panel.

Preferably, described transmission bracket device also comprises support elevation sensor, when described right pilot pin is embedded in the locating hole of described feed position plastic packaging module completely without barrier and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module completely without barrier, described support elevation sensor detects that described transmission bracket arrives lifting position.

It is preferred that described transmission bracket device also comprises release cylinder inductor, described release cylinder inductor is for confirming whether the projecting motion of described release shift fork normally completes.

It is preferred that described feeding device comprises charging support and feed rail, plastic packaging module is supplied to described feed position from described charging support via described feed rail.

Above object of the present invention is also realized by a kind of laser marking withstand voltage test method, described method is used for carrying out laser marking and voltage-withstand test to plastic packaging module, described method is realized by laser marking voltage-withstand test all-in-one, described laser marking voltage-withstand test all-in-one comprises feeding device, laser marking main frame, pressure-resistant test system, accommodation device, transmission device and frame, described feeding device, described laser marking main frame, described pressure-resistant test system, described accommodation device and described transmission device are all fixed in described frame, and described method comprises:

Described feeding device is utilized plastic packaging module to be supplied to the feed position of laser marking main frame upstream;

The plastic packaging module of described laser marking main frame to described laser marking main frame place is utilized to carry out laser marking;

The plastic packaging module of carrying out laser marking of described pressure-resistant test system to described pressure-resistant test system place is utilized to carry out voltage-withstand test;

Described accommodation device is utilized to receive the plastic packaging module of having carried out laser marking and voltage-withstand test; And

The plastic packaging module utilize described transmission device simultaneously the plastic packaging module of described feed position to be moved to described laser marking main frame place, the plastic packaging module that described laser marking main frame place has carried out laser marking being moved to described pressure-resistant test system place and described pressure-resistant test system place has been carried out laser marking and voltage-withstand test moves to described accommodation device place.

Laser marking voltage-withstand test all-in-one of the present invention and method thereof can make laser marking and voltage-withstand test carry out on same equipment, improve the utilization rate of equipment, shorten the production cycle of product, reduce equipment cost and cost of labor.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 2 is the schematic diagram of the feeding device of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 3 is the schematic diagram of the transmission device of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 4 is the schematic diagram of the transmission bracket device of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 5 is the schematic diagram of the pressure-resistant test system of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 6 is the schematic diagram of the accommodation device of laser marking voltage-withstand test all-in-one of the present invention.

Fig. 7 is the schematic diagram of the laser marking main frame of laser marking voltage-withstand test all-in-one of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, primary structure of the present invention is described.

As shown in Figure 1, laser marking voltage-withstand test all-in-one of the present invention comprises feeding device, laser marking main frame, pressure-resistant test system, accommodation device and transmission device.Feeding device, laser marking main frame, pressure-resistant test system, accommodation device and transmission device are all fixed in frame 31.

As shown in Figure 7, laser marking main frame comprises laser marker 32, support 1, focus adjuster 2.

Pressure-resistant test system comprises voltage-withstand test main frame 30 and voltage-withstand test servicing unit.Voltage-withstand test main frame 30 is arranged on the upper left side of laser marking main frame, is voltage-withstand test servicing unit, is both fixed in frame 31 below voltage-withstand test main frame 30.

The COM1 of the COM1 of the laser marker 32 of laser marking main frame and the voltage-withstand test main frame 30 of pressure-resistant test system, is connected with the COM1 of control system respectively.

As shown in Figure 2, feeding device comprises feed rail 5, charging support 6.In a preferred embodiment, feeding device also comprises inlet baffle plate 3, module with or without inductor 4, baffle plate lift cylinder 10, baffle plate elevation sensor 9, the positive and negative detection inductor 7 of module.Inlet baffle plate 3 is arranged in frame 31, and below is feed rail 5 and baffle plate lift cylinder 10.Baffle plate elevation sensor 9 is on baffle plate lift cylinder 10.Module is arranged on the left of inlet baffle plate 3 successively with or without inductor 4, the positive and negative detection inductor 7 of module and charging support 6.Feeding device is fixed in the right side of laser marking main frame by frame 31.Feeding device is used for feed position plastic packaging module being supplied to laser marking main frame upstream, that is, be in close proximity to the position of inlet baffle plate 3.Plastic packaging module can be supplied to feed position from charging support 6 via feed rail 5.

Transmission device is used for the plastic packaging module of feed position being moved to laser marking main frame place simultaneously, laser marking main frame place has been carried out the plastic packaging module that the plastic packaging module of laser marking moves to pressure-resistant test system place and pressure-resistant test system place has been carried out laser marking and voltage-withstand test moves to accommodation device place.As shown in Figure 3, transmission device comprises transmission bracket device and transmission drive.

As shown in Figure 4, transmission bracket device comprises transmission bracket 11, right pilot pin 8, left pilot pin 18, releases shift fork 20, releases cylinder 17, support lift cylinder 15.Support lift cylinder 15 is elevated for ordering about transmission bracket 11.Release cylinder 17 to release for ordering about release shift fork 20.

In a preferred embodiment, transmission bracket device also comprises support elevation sensor 16.When right pilot pin 8 is embedded in the locating hole of feed position plastic packaging module completely without barrier and left pilot pin 18 is embedded in the locating hole of laser marking main frame place plastic packaging module completely without barrier, support elevation sensor 16 detects that transmission bracket 11 arrives lifting position.

In a further preferred embodiment, transmission bracket device also comprises release cylinder inductor 19.Release cylinder inductor 19 for confirming whether the projecting motion releasing shift fork 20 normally completes.

Right pilot pin 8 and left pilot pin 18 are arranged on the upper right corner and the upper left corner of transmission bracket 11 respectively.Release shift fork 20, release cylinder 17 and release the left side that cylinder inductor 19 is arranged on transmission bracket 11 respectively.Support lift cylinder 15 and support elevation sensor 16 are arranged on the below of transmission bracket 11.Certainly, it will be understood by those skilled in the art that support lift cylinder 15 and support elevation sensor 16 also can be arranged on the top of transmission bracket 11, as long as the lifting of transmission bracket 11 can be realized.

As shown in Figure 3, transmission drive comprises driving block 12, drive screw 13, driving motor 14.Driving block 12 is positioned at the top of drive screw 13, the right side of drive screw 13 is driving motors 14, transmission bracket device is connected by transmission bracket 11 and driving block 12 with transmission drive, is fixed in frame 31, is positioned at the below of laser marking main frame.

As shown in Figure 6, accommodation device comprises storage turnover panel 25, for ordering about turnover panel cylinder 23 and the turnover panel elevation sensor 24 of the lifting of storage turnover panel 25.Accommodation device is fixed on the left side of laser marking main frame.Accommodation device is for receiving the plastic packaging module of carrying out laser marking and voltage-withstand test.

As shown in Figure 5, voltage-withstand test main frame 30 is fixed on the left of laser marking main frame by frame 31, is connected by the right stem 29 of electric wire and voltage-withstand test servicing unit, left stem 26.

Voltage-withstand test servicing unit comprises fixture block 28, lower fixture block 27, upper fixture block lift cylinder 21, right stem 29 and left stem 26.In a preferred embodiment, voltage-withstand test servicing unit also comprises fixture block elevation sensor 22.Be right stem 29 on the right side of upper fixture block 28, below is upper fixture block lift cylinder 21, and upper fixture block elevation sensor 22 is fixed on fixture block lift cylinder 21.Be left stem 26 on the left of lower fixture block 27, be fixed on the below of voltage-withstand test main frame 30 by frame 31.

Certainly, mention in this description " on ", D score, "left", "right" etc. are only used to be convenient to that the present invention will be described, and are not intended to specifically limit protection scope of the present invention.Such as, feeding device, laser marking main frame, pressure-resistant test system, accommodation device are fixed in frame 31 from right to left successively; But, it will be understood by those skilled in the art that feeding device, laser marking main frame, pressure-resistant test system, accommodation device also can from left to right be fixed in frame 31 successively.

Enforcement principle of the present invention and process is described in detail below in conjunction with accompanying drawing, because the storage of laser marking, voltage-withstand test and module is carried out simultaneously, so the plastic packaging module at feed position, laser marking main frame place, pressure-resistant test system place is different three when process starts, for distinguishing called after plastic packaging modules A, plastic packaging module B, plastic packaging module C respectively.

First each device is resetted, make each device reach the original state of default, by smooth for plastic packaging modules A good on the charging support 6 of feeding device, promote in feed rail 5 by correct direction, until arrive inlet baffle plate 3 place.Whether module shifts the appointment feed position of laser marking main frame upstream onto with or without inductor 4 detection module.Whether module positive and negative detection inductor 7 detection module placement direction is correct.After detecting that module to shift the position of specifying onto by correct direction, such machine just completes feed This move.After charge motion completes, baffle plate lift cylinder 10 promotes inlet baffle plate 3 and rises, and after baffle plate elevation sensor 9 detects that baffle plate is raised to assigned address, feed warming-up exercise completes.

After feed warming-up exercise completes, the support lift cylinder 15 of transmission bracket device drives transmission bracket 11 to rise.The rising of transmission bracket 11 makes the right pilot pin 8 in transmission bracket 11 be embedded into feed position plastic packaging module A(and is not yet supplied to laser marking main frame) locating hole.As right pilot pin 8 is embedded in the locating hole of feed position plastic packaging modules A completely without barrier, then support elevation sensor 16 detects that transmission bracket 11 arrives lifting position.As right pilot pin 8 offsets with the locating hole embedded location of plastic packaging modules A, then support lift cylinder 15 can not make transmission bracket 11 rise to the detection position of support elevation sensor 16, and equipment starts to report to the police, and signal plastic packaging modules A location is inaccurate, must correct.After right pilot pin 8 is embedded into the locating hole of plastic packaging modules A completely, complete the location of transmission bracket 11 pairs of feed position plastic packaging modules A.

The rising of transmission bracket 11 also makes the left pilot pin 18 in transmission bracket 11 be embedded into laser marking main frame place plastic packaging module B(to carry out laser marking simultaneously) locating hole.As left pilot pin 18 is embedded in the locating hole of laser marking main frame place plastic packaging module B completely without barrier, then support elevation sensor 16 detects that transmission bracket 11 arrives lifting position.As left pilot pin 18 offsets with the locating hole embedded location of laser marking main frame place plastic packaging module B, then support lift cylinder 15 can not make transmission bracket 11 rise to the detection position of support elevation sensor 16, equipment starts to report to the police, and signal plastic packaging module B location is inaccurate, must correct.After left pilot pin 18 is embedded into the locating hole of plastic packaging module B completely, complete the location of transmission bracket 11 couples of laser marking main frame place plastic packaging module B.

Then, driving motor 14 is started working, by belt, driving block 12 is moved to the left, feed position plastic packaging module A(transmission bracket 11 had good positioning not yet is supplied to laser marking main frame) move to laser marking main frame place (specifically by feed rail 5, below laser marker 32) the laser marking position that sets, laser marking main frame place plastic packaging module B(is carried out laser marking) move to pressure-resistant test system place (specifically, lower fixture block 27 place of voltage-withstand test servicing unit), release shift fork 20 and pressure-resistant test system place plastic packaging module C(carried out laser marking and voltage-withstand test) move to accommodation device place (specifically, storage turnover panel 25 place).Release cylinder 17 to start to turn left and promote to release shift fork and drive pressure-resistant test system place plastic packaging module C to move to accommodation device place (specifically, receiving turnover panel 25 place).Release cylinder inductor 19 and confirm whether projecting motion normally completes, guarantee that plastic packaging module C moves to storage turnover panel 25 place, otherwise equipment starts to report to the police, module C is abnormal for signal storage plastic packaging, needs process.

Then, inlet baffle plate 3 gets back to down position under baffle plate lift cylinder 10 acts on, and baffle plate elevation sensor 9 pairs of down maneuvers detect, and the abnormal then equipment that sends starts to report to the police, and signal inlet baffle plate 3 is elevated exception, must revise.

Then, laser marking main frame starts to carry out laser marking to plastic packaging modules A surface, laser marking main frame place.Laser marker 32 sends high-power laser and burns required picture or word with the plastic packaging material surface in plastic packaging modules A, and such machine completes the laser marking work to a plastic packaging module.

The upper fixture block 28 of voltage-withstand test servicing unit down moves under the drive of upper fixture block lift cylinder 21, is clipped between upper fixture block 28 and lower fixture block 27 by plastic packaging module B.When upper fixture block elevation sensor 22 arrives lower position, then show that fixture block and plastic packaging module B normally agree with, otherwise equipment starts to report to the police, signal fixture block and plastic packaging module B agree with exception, need process.Upper fixture block elevation sensor 22 arrives lower position, and voltage-withstand test main frame 30 starts, to plastic packaging module B making alive, to carry out voltage-withstand test work by right stem 29 and left stem 26, completes the voltage-withstand test work to a plastic packaging module.

Accommodation device carries out the classification of non-defective unit and defective products according to the voltage-withstand test result of voltage-withstand test main frame 30 pairs of plastic packaging modules before.As voltage-withstand test is abnormal, then when pressure-resistant test system place plastic packaging module C is moved to storage turnover panel 25 by the release shift fork 20 of transmission device, equipment, by bad for warning signal plastic packaging module voltage-withstand test, needs manually to be distinguished by the plastic packaging module C at storage turnover panel 25 place to place.As voltage-withstand test is normal, then receive turnover panel 25 under the effect that moves downward of turnover panel cylinder 23, normal for voltage-withstand test plastic packaging module C is normally received.Waited for for 2 seconds and guarantee receive turnover panel 25 by the storage of plastic packaging module after, turnover panel cylinder 23 drives storage turnover panel 25 to move upward, and completes the storage work of a plastic packaging module.

Then, support lift cylinder 15 drives transmission bracket 11 to decline.As right pilot pin 8, left pilot pin 18 have clamping stagnation with the locating hole of plastic packaging modules A, plastic packaging module B, then transmission bracket 11 can not drop to the decline detection position of support elevation sensor 16, and equipment starts to report to the police, and signal transmission bracket 11 is located bad, needs to correct.As right pilot pin 8, left pilot pin 18 respectively with plastic packaging modules A, the locating hole of plastic packaging module B is without clamping stagnation, then transmission bracket 11 drops to the decline detection position of support elevation sensor 16, driving motor 14 is started working, driving block 12 is driven to move right, the transmission bracket 11 on driving block 12 is made to move to initial position, complete the preparation of next plastic packaging module of transmission device mark, thus the laser marking work completed plastic packaging modules A, voltage-withstand test work to plastic packaging module B and the storage work to plastic packaging module C, circulate successively, reach the function that plastic packaging module laser marking on the same device and voltage-withstand test carry out simultaneously.

Be used in control system in laser marking voltage-withstand test all-in-one of the present invention and chassis design is existing routine techniques, do not describe in detail herein.

Claims (18)

1. a laser marking voltage-withstand test all-in-one, for carrying out laser marking and voltage-withstand test to plastic packaging module, it is characterized in that, described laser marking voltage-withstand test all-in-one comprises feeding device, laser marking main frame, pressure-resistant test system, accommodation device, transmission device and frame, described feeding device, described laser marking main frame, described pressure-resistant test system, described accommodation device and described transmission device are all fixed in described frame, described feeding device is used for feed position plastic packaging module being supplied to described laser marking main frame upstream, described laser marking main frame is used for carrying out laser marking to the plastic packaging module at described laser marking main frame place, described pressure-resistant test system is used for carrying out voltage-withstand test to the plastic packaging module of carrying out laser marking at described pressure-resistant test system place, described accommodation device is for receiving the plastic packaging module of carrying out laser marking and voltage-withstand test, described transmission device is used for the plastic packaging module of described feed position being moved to described laser marking main frame place simultaneously, the plastic packaging module that described laser marking main frame place has carried out laser marking is moved to described pressure-resistant test system place, and the plastic packaging module of described pressure-resistant test system place having been carried out laser marking and voltage-withstand test moves to described accommodation device place,

Described transmission device comprises transmission bracket device and transmission drive, described transmission bracket device comprises transmission bracket, for ordering about the support lift cylinder of described transmission bracket lifting, right pilot pin, left pilot pin, releasing shift fork and the release cylinder for ordering about the release of described release shift fork, described right pilot pin and described left pilot pin are arranged on the upper right corner and the upper left corner of described transmission bracket respectively, described release shift fork and described release cylinder are arranged on the side of described transmission bracket, and described support lift cylinder is arranged on below or the top of described transmission bracket.

2. laser marking voltage-withstand test all-in-one as claimed in claim 1, it is characterized in that, after described support lift cylinder orders about the rising of described transmission bracket, described right pilot pin is embedded in the locating hole of described feed position plastic packaging module, and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module, thus order about described transmission bracket by described transmission drive and move, the plastic packaging module of described feed position is moved to described laser marking main frame place, and the plastic packaging module that described laser marking main frame place has carried out laser marking is moved to described pressure-resistant test system place, and order about described release shift fork by described release cylinder to release, the plastic packaging module of described pressure-resistant test system place having been carried out laser marking and voltage-withstand test moves to described accommodation device place.

3. laser marking voltage-withstand test all-in-one as claimed in claim 2, it is characterized in that, described transmission drive comprises driving block, drive screw and driving motor, described driving block is connected with described transmission bracket, described driving motor orders about described driving block by described drive screw and slides, thus described transmission bracket is moved.

4. laser marking voltage-withstand test all-in-one as claimed in claim 1, it is characterized in that, described pressure-resistant test system comprises voltage-withstand test main frame and voltage-withstand test servicing unit, described voltage-withstand test servicing unit comprises fixture block, lower fixture block, upper fixture block lift cylinder, be positioned at the right stem on the right side of described upper fixture block, and the left stem be positioned on the left of described lower fixture block, before described voltage-withstand test main frame carries out voltage-withstand test, down move under the drive of described upper fixture block fixture block lift cylinder on described, plastic packaging module is clipped between described upper fixture block and described lower fixture block, described voltage-withstand test main frame by described right stem and described left stem to described plastic packaging module making alive to carry out voltage-withstand test.

5. laser marking voltage-withstand test all-in-one as claimed in claim 4, it is characterized in that, described voltage-withstand test servicing unit also comprises the upper fixture block elevation sensor be fixed on described upper fixture block lift cylinder, when described upper fixture block elevation sensor is positioned at lower position, described plastic packaging module and described upper fixture block and described lower fixture block normally agree with.

6. laser marking voltage-withstand test all-in-one as claimed in claim 1, is characterized in that, described accommodation device comprises storage turnover panel, for ordering about turnover panel cylinder and the turnover panel elevation sensor of the lifting of described storage turnover panel.

7. laser marking voltage-withstand test all-in-one as claimed in claim 2, it is characterized in that, described transmission bracket device also comprises support elevation sensor, when described right pilot pin is embedded in the locating hole of described feed position plastic packaging module completely without barrier and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module completely without barrier, described support elevation sensor detects that described transmission bracket arrives lifting position.

8. laser marking voltage-withstand test all-in-one as claimed in claim 2, is characterized in that, described transmission bracket device also comprises releases cylinder inductor, and described release cylinder inductor is for confirming whether the projecting motion of described release shift fork normally completes.

9. laser marking voltage-withstand test all-in-one as claimed in claim 1, it is characterized in that, described feeding device comprises charging support and feed rail, and plastic packaging module is supplied to described feed position from described charging support via described feed rail.

10. a laser marking withstand voltage test method, for carrying out laser marking and voltage-withstand test to plastic packaging module, described method is realized by laser marking voltage-withstand test all-in-one, described laser marking voltage-withstand test all-in-one comprises feeding device, laser marking main frame, pressure-resistant test system, accommodation device, transmission device and frame, described feeding device, described laser marking main frame, described pressure-resistant test system, described accommodation device and described transmission device are all fixed in described frame, and described method comprises:

Described feeding device is utilized plastic packaging module to be supplied to the feed position of laser marking main frame upstream;

The plastic packaging module of described laser marking main frame to described laser marking main frame place is utilized to carry out laser marking;

The plastic packaging module of carrying out laser marking of described pressure-resistant test system to described pressure-resistant test system place is utilized to carry out voltage-withstand test;

Described accommodation device is utilized to receive the plastic packaging module of having carried out laser marking and voltage-withstand test; And

The plastic packaging module utilize described transmission device simultaneously the plastic packaging module of described feed position to be moved to described laser marking main frame place, the plastic packaging module that described laser marking main frame place has carried out laser marking being moved to described pressure-resistant test system place and described pressure-resistant test system place has been carried out laser marking and voltage-withstand test moves to described accommodation device place;

Described transmission device comprises transmission bracket device and transmission drive, described transmission bracket device comprises transmission bracket, for ordering about the support lift cylinder of described transmission bracket lifting, right pilot pin, left pilot pin, releasing shift fork and the release cylinder for ordering about the release of described release shift fork, described right pilot pin and described left pilot pin are arranged on the upper right corner and the upper left corner of described transmission bracket respectively, described release shift fork and described release cylinder are arranged on the side of described transmission bracket, and described support lift cylinder is arranged on below or the top of described transmission bracket.

11. methods as claimed in claim 10, it is characterized in that, after described support lift cylinder orders about the rising of described transmission bracket, described right pilot pin is embedded in the locating hole of described feed position plastic packaging module, and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module, thus order about described transmission bracket by described transmission drive and move, the plastic packaging module of described feed position is moved to described laser marking main frame place, and the plastic packaging module that described laser marking main frame place has carried out laser marking is moved to described pressure-resistant test system place, and order about described release shift fork by described release cylinder to release, the plastic packaging module of described pressure-resistant test system place having been carried out laser marking and voltage-withstand test moves to described accommodation device place.

12. methods as claimed in claim 11, it is characterized in that, described transmission drive comprises driving block, drive screw and driving motor, described driving block is connected with described transmission bracket, described driving motor orders about described driving block by described drive screw and slides, thus described transmission bracket is moved.

13. methods as claimed in claim 10, it is characterized in that, described pressure-resistant test system comprises voltage-withstand test main frame and voltage-withstand test servicing unit, described voltage-withstand test servicing unit comprises fixture block, lower fixture block, upper fixture block lift cylinder, be positioned at the right stem on the right side of described upper fixture block, and the left stem be positioned on the left of described lower fixture block, before described voltage-withstand test main frame carries out voltage-withstand test, down move under the drive of described upper fixture block fixture block lift cylinder on described, plastic packaging module is clipped between described upper fixture block and described lower fixture block, described voltage-withstand test main frame by described right stem and described left stem to described plastic packaging module making alive to carry out voltage-withstand test.

14. methods as claimed in claim 13, it is characterized in that, described voltage-withstand test servicing unit also comprises the upper fixture block elevation sensor be fixed on described upper fixture block lift cylinder, when described upper fixture block elevation sensor is positioned at lower position, described plastic packaging module and described upper fixture block and described lower fixture block normally agree with.

15. methods as claimed in claim 10, is characterized in that, described accommodation device comprises storage turnover panel, for ordering about turnover panel cylinder and the turnover panel elevation sensor of the lifting of described storage turnover panel.

16. methods as claimed in claim 11, it is characterized in that, described transmission bracket device also comprises support elevation sensor, when described right pilot pin is embedded in the locating hole of described feed position plastic packaging module completely without barrier and described left pilot pin is embedded in the locating hole of described laser marking main frame place plastic packaging module completely without barrier, described support elevation sensor detects that described transmission bracket arrives lifting position.

17. methods as claimed in claim 11, is characterized in that, described transmission bracket device also comprises releases cylinder inductor, and described release cylinder inductor is for confirming whether the projecting motion of described release shift fork normally completes.

18. methods as claimed in claim 10, it is characterized in that, described feeding device comprises charging support and feed rail, and plastic packaging module is supplied to described feed position from described charging support via described feed rail.