CN214767089U - Full-automatic aging test system - Google Patents

Abstract

The utility model discloses a full-automatic aging testing system, including conveying mechanism, preceding processing agency, aging testing mechanism and post-processing mechanism, conveying mechanism is used for being surveyed the work piece and carries to preceding processing agency, aging testing mechanism and post-processing mechanism in proper order, preceding processing agency, aging testing mechanism and post-processing mechanism respectively with being surveyed work piece electric connection, aging testing mechanism includes unloading subassembly and aging testing subassembly, unloading subassembly is used for taking off being surveyed the work piece from conveying mechanism to will be surveyed work piece and aging testing subassembly electric connection, or will be surveyed the work piece and take off from aging testing subassembly to will be surveyed the work piece and place in conveying mechanism, preceding processing agency is used for writing into the aging testing procedure among the being surveyed the work piece, post-processing mechanism is used for uninstalling the aging testing procedure. The utility model has the advantages of low production cost, labor saving, high production efficiency and wide applicability.

Description

Full-automatic aging test system

Technical Field

The utility model relates to an aging testing technical field specifically is a full-automatic aging testing system.

Background

With the development of society, the quality requirements of people on electronic products are higher and higher, and in order to improve the delivery quality of the electronic products, the electronic products need to be subjected to an aging test before delivery, so that possible early faults of the electronic products are screened out, and the stability and reliability of the products are improved, which is an important link in the production flow of the electronic products.

In the prior art, when an aging test is performed on an electronic product, a production flow of belt conveying is generally adopted, wherein all aging test links are operated manually, an operator puts the product on a test fixture one by one, then puts the test fixture into a test room or test equipment for aging test, and after the test is completed, puts the product back to a belt one by one and conveys the product to the next station. Obviously, in this kind of production flow, all test work all rely on manual operation, occupy a large amount of manpower resources, and have personnel's neglect to obscure the condition of yields and defective products, have restricted the improvement of productivity, not only inefficiency and product quality are unstable, can't satisfy large batch product aging testing demand.

Comparing a first file: in order to solve the above technical problems and improve the production efficiency and yield, the chinese utility model patent of the publication No. CN102539985B discloses an automatic aging and testing device and a method thereof, wherein the device comprises a frame, a sub-jig and a main-jig which can be used in cooperation, an aging mechanism and a testing mechanism which are respectively arranged on the frame, a separating mechanism which separates the sub-jig from the main-jig, and a control device which can control the separating mechanism, the aging mechanism and the testing mechanism; the separating mechanism comprises a separator frame, a separating manipulator arranged on the separator frame in a sliding manner, and a separating mechanism capable of separating the sub-jig from the main jig. Compared with the prior art, the utility model discloses automatic ageing and testing arrangement and method have realized having had the advantage that production efficiency is high, product quality is stable to the automatic ageing and the test of electronic product at a production line.

And comparing the file II: if chinese utility model patent that the publication number is CN102749547B discloses an automatic ageing tests equipment of manipulator formula again, specific automatic ageing tests equipment of manipulator formula that relates to, its structure is including frame, tool, input elevating system, plug-in components mechanism, ageing agencies, accredited testing organization, output elevating system and controlling means. Compared with the prior art, the utility model discloses a continuous production line realizes the automated control of electronic product ageing and test, has saved the manpower greatly, can show the production efficiency who improves the enterprise, reduction in production cost.

However, in practical application, the technical solutions in the above-mentioned comparison documents have the following problems:

firstly, as the technical scheme in the first comparison document, the electronic product is loaded into the sub-jig at the upper machine position, then the sub-jig and the main jig are combined at the combined station of the sub-jig and the main jig and then conveyed to the aging mechanism for automatic aging, after the aging is completed, the sub-jig and the main jig are conveyed to the separating mechanism, the sub-jig and the main jig are separated by the separating mechanism, the separated main jig returns to the combined station of the sub-jig and the main jig, meanwhile, the separated sub-jig enters the testing mechanism for automatic testing, after the testing is completed, the electronic product is unloaded, and the sub-jig returns to the upper machine position. Its technical scheme not only the process is loaded down with trivial details, and efficiency is lower, need still need design different primary and secondary tool to different products simultaneously, and follow-up research and development expense is higher, produces great burden to the enterprise.

Secondly, as in the second technical scheme of the comparison document, the no-load jig enters an upper machine station through an input lifting mechanism, an operator sequentially puts electronic products into a product mounting groove of the jig, then the jig is conveyed to a plug-in station of a plug-in mechanism, the plug-in mechanism inserts the electronic products into the product mounting groove for fixation, then the jig enters an aging mechanism, the process is that the jig is conveyed to an aging station of an aging rack for aging through a feeding and discharging manipulator device, and the jig is conveyed to a discharging lifter from the aging station after aging is completed; then, the jig enters the testing mechanism, the jig is electrically connected with the testing device to complete the performance test after aging, after the test is completed, the jig reaches the lower machine station, at the moment, the electronic product on the jig can be unloaded, and then the empty jig returns to the upper machine station through the output lifting mechanism, so that the automatic aging test of the electronic product is completed. Its technical scheme not only has the defect in above-mentioned comparison file one, still needs the manpower to put into the product mounting groove of tool in proper order with electronic product simultaneously, and serious extravagant manpower, degree of automation is lower, and is violated with the original intention of automation equipment.

And thirdly, before aging tests are carried out on part of electronic products such as smart phones and tablet computers, an aging program needs to be written in advance, and the technical scheme in the comparison file does not have the function, and additional manpower and equipment need to be equipped for program burning of the products, so that the application range of an aging test system is insufficient, and the aging test system can only be used for aging test work of a small part of electronic products.

Therefore, in order to overcome the disadvantages of the prior art, it is necessary to provide a fully automatic burn-in test system to improve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic aging testing system possesses reduction in production cost, uses manpower sparingly, improves production efficiency, extensive applicability's advantage, has solved the problem of proposing among the above background art.

In order to achieve the above object, the utility model provides a following technical scheme: the conveying mechanism is used for conveying a tested workpiece to the pre-processing mechanism, the aging testing mechanism and the post-processing mechanism in sequence, the pre-processing mechanism, the aging testing mechanism and the post-processing mechanism are respectively electrically connected with the tested workpiece, the aging testing mechanism comprises a feeding and discharging assembly and an aging testing assembly, the feeding and discharging assembly is used for taking the tested workpiece off the conveying mechanism and electrically connecting the tested workpiece with the aging testing assembly or taking the tested workpiece off the aging testing assembly and placing the tested workpiece on the conveying mechanism, the pre-processing mechanism is used for writing the aging testing program into the tested workpiece, and the post-processing mechanism is used for unloading the aging testing program. .

Preferably, aging testing mechanism still includes box, test jig and heat dissipation mechanism, test jig, heat dissipation mechanism and the equal fixed mounting of last unloading subassembly are in the box, aging testing subassembly is a plurality of, and is a plurality of the equal fixed mounting of aging testing subassembly is on the test jig.

Preferably, the pre-processing mechanism comprises a mechanical arm assembly, a fixing assembly and a burning control board, the mechanical arm assembly is used for grabbing the workpiece to be tested from the conveying mechanism and conveying the workpiece to the fixing assembly, or grabbing the workpiece to be tested from the fixing assembly and conveying the workpiece to the conveying mechanism, and the burning control board is electrically connected with the workpiece to be tested through the fixing assembly.

Preferably, the post-processing mechanism comprises a mechanical arm assembly, a fixing assembly, an unloading control plate and an information acquisition and uploading module, the mechanical arm assembly is used for grabbing the measured workpiece from the conveying mechanism and conveying the workpiece to the fixing assembly, or grabbing the measured workpiece from the fixing assembly and conveying the workpiece to the conveying mechanism, and the unloading control plate and the information acquisition and uploading module are electrically connected with the measured workpiece through the fixing assembly.

Preferably, still include NG receiving agencies, NG receiving agencies is located conveying mechanism's end, and NG receiving agencies is including receiving material cylinder, material collecting cabinet and material collecting cabinet lifting unit, material collecting cabinet fixed mounting is at material collecting cabinet lifting unit's power take off end, it is corresponding with the position of material collecting cabinet to receive the material cylinder, and receive the material cylinder and be connected with the measured workpiece contact on conveying mechanism to will be measured during the workpiece jack-in material collecting cabinet.

Preferably, the feeding and discharging assembly comprises an X-axis displacement assembly, a Y-axis displacement assembly, a Z-axis displacement assembly, a rotating assembly and a clamping assembly, the Z-axis displacement assembly is in transmission connection with the Y-axis displacement assembly, the X-axis displacement assembly is in transmission connection with the Z-axis displacement assembly, the rotating assembly is in transmission connection with the X-axis displacement assembly and rotates around a pivot at the joint, and the clamping assembly is fixedly mounted on the rotating assembly.

Preferably, the aging test assembly comprises an interface fixing frame, an aging test interface, a power supply device and two placement blocks, wherein the aging test interface and the power supply device are fixedly mounted on the interface fixing frame, the power supply device is electrically connected with a tested workpiece through the aging test interface, the placement blocks correspond to the aging test interface in position, and the tested workpiece is placed behind the placement blocks and electrically connected with the aging test interface.

Preferably, the arm subassembly includes arm, vacuum chuck and sucking disc lift cylinder, sucking disc lift cylinder fixed mounting is at the front end of arm, vacuum chuck fixed mounting is at the power take off end of sucking disc lift cylinder.

Preferably, fixed subassembly includes fixed disk, dog, burns the record cylinder, burns record interface and a plurality of locating piece, dog detachable fixed mounting is in one side of fixed disk to with being surveyed the work piece contact and being connected, burn record cylinder fixed mounting at the fixed disk opposite side, burn record interface fixed mounting and burn the power take off end of record cylinder, and burn record interface and being surveyed work piece electric connection, it is a plurality of the equal detachable fixed mounting of locating piece is on the fixed disk, and a plurality of locating pieces all with being surveyed the work piece contact and being connected.

The utility model provides a full-automatic aging testing system, includes conveying mechanism, preceding processing agency and aging testing mechanism, conveying mechanism is used for carrying the workpiece under test to preceding processing agency and aging testing mechanism in proper order, preceding processing agency and aging testing mechanism respectively with the workpiece under test electric connection, aging testing mechanism includes last unloading subassembly and aging testing subassembly, go up the unloading subassembly and be used for taking off the workpiece under test from conveying mechanism to with the workpiece under test and aging testing subassembly electric connection, or take off the workpiece under test from aging testing subassembly to place the workpiece under test in conveying mechanism, preceding processing agency is used for writing into the aging testing procedure in the workpiece under test, the aging testing procedure is set for unloading by oneself after the aging testing is accomplished.

Preferably, the aging testing mechanism further comprises a box body, a testing frame, a heat dissipation mechanism and an information acquisition and uploading module, wherein the testing frame, the heat dissipation mechanism and the feeding and discharging assembly are fixedly installed in the box body, the aging testing assemblies are multiple and multiple, the aging testing assemblies are fixedly installed on the testing frame, and the information acquisition and uploading module is electrically connected with the tested workpiece through the aging testing assemblies.

Preferably, the pre-processing mechanism comprises a mechanical arm assembly, a fixing assembly and a burning control board, the mechanical arm assembly is used for grabbing the workpiece to be tested from the conveying mechanism and conveying the workpiece to the fixing assembly, or grabbing the workpiece to be tested from the fixing assembly and conveying the workpiece to the conveying mechanism, and the burning control board is electrically connected with the workpiece to be tested through the fixing assembly.

Preferably, still include NG receiving agencies, NG receiving agencies is located conveying mechanism's end, and NG receiving agencies is including receiving material cylinder, material collecting cabinet and material collecting cabinet lifting unit, material collecting cabinet fixed mounting is at material collecting cabinet lifting unit's power take off end, it is corresponding with the position of material collecting cabinet to receive the material cylinder, and receive the material cylinder and be connected with the measured workpiece contact on conveying mechanism to will be measured during the workpiece jack-in material collecting cabinet.

Preferably, the feeding and discharging assembly comprises an X-axis displacement assembly, a Y-axis displacement assembly, a Z-axis displacement assembly, a rotating assembly and a clamping assembly, the Z-axis displacement assembly is in transmission connection with the Y-axis displacement assembly, the X-axis displacement assembly is in transmission connection with the Z-axis displacement assembly, the rotating assembly is in transmission connection with the X-axis displacement assembly and rotates around a pivot at the joint, and the clamping assembly is fixedly mounted on the rotating assembly.

Preferably, the aging test assembly comprises an interface fixing frame, an aging test interface, a power supply device and two placement blocks, wherein the aging test interface and the power supply device are fixedly mounted on the interface fixing frame, the power supply device is electrically connected with a tested workpiece through the aging test interface, the placement blocks correspond to the aging test interface in position, and the tested workpiece is placed behind the placement blocks and electrically connected with the aging test interface.

Preferably, the arm subassembly includes arm, vacuum chuck and sucking disc lift cylinder, sucking disc lift cylinder fixed mounting is at the front end of arm, vacuum chuck fixed mounting is at the power take off end of sucking disc lift cylinder.

Preferably, fixed subassembly includes fixed disk, dog, burns the record cylinder, burns record interface and a plurality of locating piece, dog detachable fixed mounting is in one side of fixed disk to with being surveyed the work piece contact and being connected, burn record cylinder fixed mounting at the fixed disk opposite side, burn record interface fixed mounting and burn the power take off end of record cylinder, and burn record interface and being surveyed work piece electric connection, it is a plurality of the equal detachable fixed mounting of locating piece is on the fixed disk, and a plurality of locating pieces all with being surveyed the work piece contact and being connected.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a set up the aging testing subassembly, the aging testing subassembly includes interface mount, aging testing interface, power supply ware and two places the piece, the equal fixed mounting of aging testing interface and power supply ware is on the interface mount, the power supply ware passes through aging testing interface and is surveyed work piece electric connection, two it is all corresponding with the position of aging testing interface to place the piece, it places in after placing the piece with aging testing interface electric connection to be surveyed the work piece, through placing the piece and the fixed work piece that is surveyed of interface mount, saves loaded down with trivial details primary and secondary tool and the step of being surveyed the work piece and being connected, saves follow-up tool research and development expense simultaneously, has reached reduction in production cost's effect.

Secondly, the utility model discloses a set up conveying mechanism and go up unloading subassembly, conveying mechanism is used for carrying the workpiece under test to preceding processing mechanism, aging testing mechanism and post-processing mechanism in proper order, go up unloading subassembly and include X axle displacement subassembly, Y axle displacement subassembly, Z axle displacement subassembly, rotating assembly and centre gripping subassembly, Z axle displacement subassembly and Y axle displacement subassembly transmission are connected, X axle displacement subassembly and Z axle displacement subassembly transmission are connected, rotating assembly and X axle displacement subassembly transmission are connected to do the rotation activity with the junction as the fulcrum, centre gripping subassembly fixed mounting is on rotating assembly, conveying mechanism is the assembly line, can be connected with the production line, need not the manpower and go up unloading action, goes up unloading subassembly and is used for taking off the workpiece under test from conveying mechanism to will be measured the workpiece under test with aging testing assembly electric connection, or the workpiece to be tested is taken down from the aging test assembly and is placed on the conveying mechanism, so that the whole process can be automatically carried out, and the effects of saving manpower and improving the production efficiency are achieved.

Three, the utility model discloses a processing agency before setting up, preceding processing agency includes robotic arm assembly, fixed subassembly and burns the control panel, robotic arm assembly is used for snatching from conveying mechanism and is sent to fixed subassembly by the survey work piece, or snatchs from fixed subassembly and send to conveying mechanism by the survey work piece, burn the control panel through fixed subassembly and survey work piece electric connection to write in the ageing tests procedure in by among the survey work piece, need not additionally to be equipped with manpower and equipment and carry out the procedure to being surveyed the work piece and burn, make the applicable in multiple electronic equipment's of this system ageing tests work, especially smart machine, smart machine such as panel computer, reached the wide effect of application.

Drawings

Fig. 1 is one of the schematic structural diagrams of the present invention;

fig. 2 is a second schematic structural diagram of the present invention;

fig. 3 is a third schematic structural diagram of the present invention;

FIG. 4 is a schematic structural view of a middle and front processing mechanism of the present invention;

fig. 5 is one of the schematic structural diagrams of the fixing component of the present invention;

FIG. 6 is a second schematic structural view of the fixing member of the present invention;

fig. 7 is a schematic structural view of the feeding and discharging assembly of the present invention;

FIG. 8 is a schematic structural diagram of the aging test assembly of the present invention;

fig. 9 is a schematic structural view of the test jig of the present invention;

FIG. 10 is a schematic structural view of the NG receiving mechanism of the present invention;

fig. 11 is a schematic structural diagram of a second embodiment of the present invention.

The reference numerals and names in the figures are as follows:

1. a conveying mechanism;

2. a pre-processing mechanism; 21. a mechanical arm assembly; 211. a mechanical arm; 212. a vacuum chuck; 213. a sucker lifting cylinder; 22. a fixing assembly; 221. fixing the disc; 222. a stopper; 223. a burning cylinder; 224. a burning interface; 225. positioning blocks;

3. an aging test mechanism; 31. a feeding and discharging assembly; 311. an X-axis displacement assembly; 312. a Y-axis displacement assembly; 313. a Z-axis displacement assembly; 314. a rotating assembly; 315. a clamping assembly; 32. a burn-in test assembly; 321. an interface fixing frame; 322. an aging test interface; 323. a power supply; 324. placing the blocks; 33. a box body; 34. a test jig; 35. a heat dissipation mechanism;

4. a post-processing mechanism;

5. an NG material receiving mechanism; 51. a material receiving cylinder; 52. a material receiving cabinet; 53. receive material cabinet lifting unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a first embodiment: a full-automatic aging test system comprises a conveying mechanism 1, a front processing mechanism 2, an aging test mechanism 3 and a rear processing mechanism 4, wherein the conveying mechanism 1 is a production line and is used for conveying a tested workpiece to the front processing mechanism 2, the aging test mechanism 3 and the rear processing mechanism 4 in sequence, the front processing mechanism 2, the aging test mechanism 3 and the rear processing mechanism 4 are respectively electrically connected with the tested workpiece, the aging test mechanism 3 comprises a feeding and discharging assembly 31 and an aging test assembly 32, the feeding and discharging assembly 31 is used for taking the tested workpiece off the conveying mechanism 1 and electrically connecting the tested workpiece with the aging test assembly 32 or taking the tested workpiece off the aging test assembly 32 and placing the tested workpiece on the conveying mechanism 1, the front processing mechanism 2 is used for writing an aging test program into the tested workpiece, and the rear processing mechanism 4 is used for unloading the aging test program, the workpiece to be detected is a smart phone.

More specifically, aging testing mechanism 3 still includes box 33, test jig 34 and heat dissipation mechanism 35, test jig 34, heat dissipation mechanism 35 and the equal fixed mounting of last unloading subassembly 31 are in box 33, test jig 34 is located the lower terminal surface of box 33, heat dissipation mechanism 35 fixed mounting is at the rear end face of box 33 to be linked together with box 33, aging testing subassembly 32 is a plurality of, and is a plurality of the equal fixed mounting of aging testing subassembly 32 is on test jig 34.

More specifically, the test frames 34 are arranged in two rows, the two rows of test frames 34 are respectively and fixedly installed on two sides in the box body 33, the number of the aging test assemblies 32 is 1300, and the 1300 aging test assemblies 32 are respectively arranged in a matrix and fixedly installed on the two rows of test frames 34.

Referring to fig. 4 to 6, more specifically, the pre-processing mechanism 2 includes a robot assembly 21, a fixing assembly 22 and a recording control board, the robot assembly 21 is used for grabbing the workpiece to be tested from the conveying mechanism 1 and conveying the workpiece to the fixing assembly 22, or grabbing the workpiece to be tested from the fixing assembly 22 and conveying the workpiece to the conveying mechanism 1, and the recording control board is electrically connected to the workpiece to be tested through the fixing assembly 22 and writes the burn-in test program into the workpiece to be tested.

More specifically, the post-processing mechanism 4 includes a mechanical arm assembly 21, a fixing assembly 22, an unloading control board and an information collecting and uploading module, the mechanical arm assembly 21 is used for grabbing a measured workpiece from the conveying mechanism 1 and conveying the workpiece to the fixing assembly 22, or grabbing the measured workpiece from the fixing assembly 22 and conveying the workpiece to the conveying mechanism 1, the unloading control board and the information collecting and uploading module are both electrically connected with the measured workpiece through the fixing assembly 22, the unloading control board is used for unloading the aging test program from the measured workpiece, and the information collecting and uploading module is used for collecting the code of the measured workpiece, reading the information of the measured workpiece, and uploading the code and the information.

More specifically, the robot arm assembly 21 includes a robot arm 211, a vacuum chuck 212 and a chuck lifting cylinder 213, the chuck lifting cylinder 213 is fixedly installed at the front end of the robot arm 211, the vacuum chuck 212 is fixedly installed at the power output end of the chuck lifting cylinder 213, after the vacuum chuck 212 sucks the workpiece to be tested, the vacuum chuck 212 is lifted by the chuck lifting cylinder 213, and then the robot arm 211 conveys the workpiece to be tested to the corresponding position.

More specifically, the fixing assembly 22 includes a fixing plate 221, a stopper 222, a burning cylinder 223, a burning interface 224 and a plurality of positioning blocks 225, the stopper 222 is detachably and fixedly mounted on one side of the fixing plate 221, and is in contact connection with the workpiece to be tested, the burning cylinder 223 is fixedly installed at the other side of the fixed disc 221, the burning interface 224 is fixedly installed at the power output end of the burning cylinder 223, the burning interface 224 is electrically connected to the tested workpiece, the positioning blocks 225 are detachably and fixedly mounted on the fixing plate 221, the positioning blocks 225 are connected with the workpiece to be tested in a contact way, the position of the workpiece to be tested is fixed by the stop block 222 and the positioning blocks 225, the positioning block 225 can be detached and adjusted in position to adapt to different types of workpieces to be measured conveniently, and after the workpieces to be measured are fixed, the burning cylinder 223 drives the burning interface 224 to be inserted into the interface of the workpiece to be tested, and electrically connected with the workpiece to be tested.

More specifically, the fixed assemblies 22 in the front machining mechanism 2 and the rear machining mechanism 4 are two groups.

Referring to fig. 7, more specifically, the feeding and discharging assembly 31 includes an X-axis displacement assembly 311, a Y-axis displacement assembly 312, a Z-axis displacement assembly 313, a rotating assembly 314, and a clamping assembly 315, the Z-axis displacement assembly 313 is fixedly installed in the box 33 and located between the two rows of test racks 34, the Z-axis displacement assembly 313 is in transmission connection with the Y-axis displacement assembly 312, the X-axis displacement assembly 311 is in transmission connection with the Z-axis displacement assembly 313, the rotating assembly 314 is in transmission connection with the X-axis displacement assembly 311 and rotates around a pivot, and the clamping assembly 315 is fixedly installed on the rotating assembly 314 and is used for clamping and transporting a workpiece to be tested.

Referring to fig. 8 to 9, in more detail, the burn-in test assembly 32 includes an interface fixing frame 321, a burn-in test interface 322, a power supply 323, and two placing blocks 324, where the burn-in test interface 322 and the power supply 323 are both fixedly mounted on the interface fixing frame 321, the power supply 323 is electrically connected to the tested workpiece through the burn-in test interface 322, the two placing blocks 324 are both corresponding to the burn-in test interface 322, and the tested workpiece is placed on the placing blocks 324 and then electrically connected to the burn-in test interface 322.

More specifically, the burning interface 224 and the aging test interface 322 are USB Type-C interfaces, and the burning interface 224 and the aging test interface 322 are made of Peek material, so as to avoid scratching the tested workpiece.

Referring to fig. 10, more specifically, the NG receiving mechanism 5 is further included, the NG receiving mechanism 5 is located at the end of the conveying mechanism 1, the NG receiving mechanism 5 includes a receiving cylinder 51, a receiving cabinet 52 and a receiving cabinet lifting assembly 53, the receiving cabinet 52 is fixedly installed at the power output end of the receiving cabinet lifting assembly 53, the receiving cylinder 51 corresponds to the receiving cabinet 52, the receiving cylinder 51 is in contact connection with the detected workpiece on the conveying mechanism 1 and pushes the detected workpiece into the receiving cabinet 52, and then the receiving cabinet lifting assembly 53 controls the receiving cabinet 52 to ascend or descend.

Referring to fig. 11, the second embodiment of the present invention is basically the same as the first embodiment, except that: the automatic aging test device is characterized by only comprising a conveying mechanism 1, a pre-processing mechanism 2 and an aging test mechanism 3, wherein the conveying mechanism 1 is used for conveying a tested workpiece to the pre-processing mechanism 2 and the aging test mechanism 3 in sequence, the pre-processing mechanism 2 and the aging test mechanism 3 are respectively electrically connected with the tested workpiece, the aging test mechanism 3 comprises a feeding and discharging assembly 31 and an aging test assembly 32, the feeding and discharging assembly 31 is used for taking the tested workpiece off the conveying mechanism 1 and electrically connecting the tested workpiece with the aging test assembly 32, or taking the tested workpiece off the aging test assembly 32 and placing the tested workpiece on the conveying mechanism 1, the pre-processing mechanism 2 is used for writing an aging test program into the tested workpiece, the aging test program is set to be automatically unloaded after the aging test is completed, and the tested workpiece is a smart phone.

More specifically, aging testing mechanism 3 still includes box 33, test jig 34, heat dissipation mechanism 35 and information acquisition and upload module, test jig 34, heat dissipation mechanism 35 and the equal fixed mounting of last unloading subassembly 31 are in box 33, aging testing subassembly 32 is a plurality of, and is a plurality of the equal fixed mounting of aging testing subassembly 32 is on test jig 34, information acquisition and upload module pass through aging testing subassembly 32 and tested workpiece electric connection, and information acquisition and upload module are used for gathering tested workpiece code, reading tested workpiece information to upload code and information.

The working principle is as follows:

the utility model discloses during operation, at first be connected conveying mechanism 1 with the production water line, will be surveyed the work piece and carry to preceding processing agency 2, aging testing mechanism 3 and post processing mechanism 4 in proper order through conveying mechanism 1, arm 211 in the preceding processing agency 2 drives vacuum chuck 212 and will be surveyed the work piece and suck up, and place and fix by dog 222 and locating piece 225 on fixed disk 221, burn afterwards to burn to the cylinder 223 and drive and burn to burn interface 224 and be connected with the work piece to be surveyed, write in the aging testing procedure among the work piece to be surveyed, when the burning of aging testing procedure, arm 211 will be surveyed the work piece and send into another group of fixed subassembly 22; after the burning is finished, the mechanical arm 211 lifts the tested workpiece from the fixed disc 221, puts the tested workpiece into the conveying mechanism 1, and sends the tested workpiece to the aging testing mechanism 3 through the conveying mechanism 1;

the aging test mechanism 3 is internally provided with a feeding and discharging component 31 and a test frame 34, the feeding and discharging component 31 comprises an X-axis displacement component 311, a Y-axis displacement component 312, a Z-axis displacement component 313, a rotating component 314 and a clamping component 315, the Y-axis displacement component 312 is fixedly arranged between two rows of test frames 34, the feeding and discharging component 31 is controlled to carry out Y-axis longitudinal displacement motion, the Z-axis displacement component 313 is fixedly arranged at the power output end of the Y-axis displacement component 312, the feeding and discharging component 31 is controlled to carry out Z-axis vertical displacement motion, the X-axis displacement component 311 is fixedly arranged at the power output end of the Z-axis displacement component 313, the feeding and discharging component 31 is controlled to carry out X-axis transverse displacement motion, the rotating component 314 is fixedly arranged at the power output end of the X-axis displacement component 311, the clamping component 315 is fixedly arranged on the rotating component 314, the rotating component 314 drives the rotating component to rotate and clamps and place the measured workpiece into the placing block 324 from the conveying mechanism 1, connecting the tested workpiece with the aging test interface 322 to perform aging test work; when the aging test is carried out, the feeding and discharging assembly 31 continuously sends the tested workpiece into the aging test assembly 32, takes out the tested workpiece which is subjected to the aging test, puts the tested workpiece into the conveying mechanism 1 and sends the tested workpiece into the post-processing mechanism 4 by the conveying mechanism 1;

the working flow of the post-processing mechanism 4 is basically the same as that of the front-processing mechanism 2, and the difference is that after the post-processing mechanism 4 connects the tested workpiece with the burning interface 224, the aging test program is unloaded by the unloading control board so as to avoid influencing the use of a user, and meanwhile, an information acquisition and uploading module is arranged in the post-processing mechanism 4 and is used for acquiring the code of the tested workpiece, reading the information of the tested workpiece and uploading the code and the information; after the aging test program is unloaded, the mechanical arm 211 lifts the tested workpiece from the fixed disc 221, puts the tested workpiece into the conveying mechanism 1, and sends the tested workpiece to the NG receiving mechanism 5 through the conveying mechanism 1;

the NG receiving mechanism 5 is in signal connection with the aging testing mechanism 3, the aging testing mechanism 3 controls the receiving cylinder 51 in the NG receiving mechanism 5 to operate, defective products on the conveying mechanism 1 are ejected out to the receiving cabinet 52, the receiving cabinet 52 is in a multilayer design, after the receiving cabinet 52 is fully placed on one layer, the receiving cabinet lifting assembly 53 drives the receiving cabinet 52 to ascend or descend, and therefore the empty layer on the receiving cabinet 52 corresponds to the receiving cylinder 51.

The utility model discloses an in the second embodiment, the aging testing procedure is set up to uninstallation by oneself after aging testing accomplishes, so need not post-processing mechanism 4 and carry out procedure uninstallation work, and the information acquisition in the post-processing mechanism 4 reaches and upload the module and shift to among the aging testing mechanism 3 simultaneously for gather by the test work piece code, read by the test work piece information, and upload code and information.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (17)

1. The utility model provides a full-automatic aging testing system which characterized in that: the device comprises a conveying mechanism (1), a pre-processing mechanism (2), an aging testing mechanism (3) and a post-processing mechanism (4), wherein the conveying mechanism (1) is used for conveying a tested workpiece to the pre-processing mechanism (2), the aging testing mechanism (3) and the post-processing mechanism (4) in sequence, the pre-processing mechanism (2), the aging testing mechanism (3) and the post-processing mechanism (4) are respectively electrically connected with the tested workpiece, the aging testing mechanism (3) comprises a feeding and discharging assembly (31) and an aging testing assembly (32), the feeding and discharging assembly (31) is used for taking the tested workpiece off from the conveying mechanism (1) and electrically connecting the tested workpiece with the aging testing assembly (32) or taking the tested workpiece off from the aging testing assembly (32) and placing the tested workpiece on the conveying mechanism (1), the pre-processing mechanism (2) is used for writing an aging testing program into the tested workpiece, the post-processing mechanism (4) is used for unloading the aging test program.

2. The fully automatic burn-in test system of claim 1, wherein: aging testing mechanism (3) still includes box (33), test jig (34) and heat dissipation mechanism (35), test jig (34), heat dissipation mechanism (35) and the equal fixed mounting of last unloading subassembly (31) are in box (33), aging testing subassembly (32) are a plurality of, and are a plurality of the equal fixed mounting of aging testing subassembly (32) is on test jig (34).

3. The fully automatic burn-in test system of claim 1, wherein: the pre-processing mechanism (2) comprises a mechanical arm assembly (21), a fixing assembly (22) and a burning control plate, the mechanical arm assembly (21) is used for grabbing a workpiece to be measured from the conveying mechanism (1) and conveying the workpiece to the fixing assembly (22), or grabbing the workpiece to be measured from the fixing assembly (22) and conveying the workpiece to the conveying mechanism (1), and the burning control plate is electrically connected with the workpiece to be measured through the fixing assembly (22).

4. The fully automatic burn-in test system of claim 1, wherein: the post-processing mechanism (4) comprises a mechanical arm assembly (21), a fixed assembly (22), an unloading control plate and an information acquisition and uploading module, wherein the mechanical arm assembly (21) is used for grabbing a measured workpiece from the conveying mechanism (1) and conveying the workpiece to the fixed assembly (22), or grabbing the measured workpiece from the fixed assembly (22) and conveying the workpiece to the conveying mechanism (1), and the unloading control plate and the information acquisition and uploading module are electrically connected with the measured workpiece through the fixed assembly (22).

5. The fully automatic burn-in test system of claim 1, wherein: still include NG receiving agencies (5), NG receiving agencies (5) are located the end of conveying mechanism (1), and NG receiving agencies (5) are including receiving material cylinder (51), material collecting cabinet (52) and receiving material cabinet lifting unit (53), receiving cabinet (52) fixed mounting is at the power take off end of receiving cabinet lifting unit (53), it is corresponding with the position of receiving cabinet (52) to receive material cylinder (51), and receives material cylinder (51) and be connected by the contact of survey work piece on conveying mechanism (1) to will be surveyed during work piece pushes up into receiving cabinet (52).

6. A fully automatic burn-in test system according to any one of claims 1 to 2, wherein: the feeding and discharging assembly (31) comprises an X-axis displacement assembly (311), a Y-axis displacement assembly (312), a Z-axis displacement assembly (313), a rotating assembly (314) and a clamping assembly (315), the Z-axis displacement assembly (313) is in transmission connection with the Y-axis displacement assembly (312), the X-axis displacement assembly (311) is in transmission connection with the Z-axis displacement assembly (313), the rotating assembly (314) is in transmission connection with the X-axis displacement assembly (311) and is in rotating movement with the connection position as a fulcrum, and the clamping assembly (315) is fixedly mounted on the rotating assembly (314).

7. A fully automatic burn-in test system according to any one of claims 1 to 2, wherein: the aging testing component (32) comprises an interface fixing frame (321), an aging testing interface (322), a power supply device (323) and two placement blocks (324), wherein the aging testing interface (322) and the power supply device (323) are fixedly installed on the interface fixing frame (321), the power supply device (323) is electrically connected with a tested workpiece through the aging testing interface (322), the placement blocks (324) correspond to the aging testing interface (322), and the tested workpiece is placed behind the placement blocks (324) and electrically connected with the aging testing interface (322).

8. A fully automatic burn-in test system according to claim 3 or 4, wherein: the mechanical arm assembly (21) comprises a mechanical arm (211), a vacuum chuck (212) and a chuck lifting cylinder (213), the chuck lifting cylinder (213) is fixedly installed at the front end of the mechanical arm (211), and the vacuum chuck (212) is fixedly installed at the power output end of the chuck lifting cylinder (213).

9. A fully automatic burn-in test system according to claim 3 or 4, wherein: fixed subassembly (22) include fixed disk (221), dog (222), burn and record cylinder (223), burn and record interface (224) and a plurality of locating piece (225), dog (222) detachable fixed mounting is in one side of fixed disk (221) to with being surveyed work piece contact and being connected, burn and record cylinder (223) fixed mounting in fixed disk (221) opposite side, burn and record interface (224) fixed mounting and burn the power take off end of burning and record cylinder (223), and burn and record interface (224) and be surveyed work piece electric connection, it is a plurality of the equal detachable fixed mounting of locating piece (225) is on fixed disk (221), and a plurality of locating pieces (225) all with being surveyed work piece contact and being connected.

10. The utility model provides a full-automatic aging testing system which characterized in that: comprises a conveying mechanism (1), a pre-processing mechanism (2) and an aging testing mechanism (3), the conveying mechanism (1) is used for conveying the tested workpiece to the pre-processing mechanism (2) and the aging testing mechanism (3) in sequence, the pre-processing mechanism (2) and the aging test mechanism (3) are respectively electrically connected with a tested workpiece, the aging test mechanism (3) comprises a feeding and discharging assembly (31) and an aging test assembly (32), the feeding and discharging assembly (31) is used for taking the workpiece to be tested down from the conveying mechanism (1) and electrically connecting the workpiece to be tested with the aging test assembly (32), or the workpiece to be tested is taken down from the aging test component (32) and is placed on the conveying mechanism (1), the pre-processing mechanism (2) is used for writing an aging test program into a workpiece to be tested, and the aging test program is set to be automatically unloaded after the aging test is finished.

11. The fully automated burn-in test system of claim 10, wherein: aging testing mechanism (3) still includes box (33), test jig (34), heat dissipation mechanism (35) and information acquisition and upload module, test jig (34), heat dissipation mechanism (35) and the equal fixed mounting of last unloading subassembly (31) are in box (33), aging testing subassembly (32) are a plurality of, and are a plurality of the equal fixed mounting of aging testing subassembly (32) is on test jig (34), information acquisition and upload module pass through aging testing subassembly (32) and by survey work piece electric connection.

12. The fully automated burn-in test system of claim 10, wherein: the pre-processing mechanism (2) comprises a mechanical arm assembly (21), a fixing assembly (22) and a burning control plate, the mechanical arm assembly (21) is used for grabbing a workpiece to be measured from the conveying mechanism (1) and conveying the workpiece to the fixing assembly (22), or grabbing the workpiece to be measured from the fixing assembly (22) and conveying the workpiece to the conveying mechanism (1), and the burning control plate is electrically connected with the workpiece to be measured through the fixing assembly (22).

13. The fully automated burn-in test system of claim 10, wherein: still include NG receiving agencies (5), NG receiving agencies (5) are located the end of conveying mechanism (1), and NG receiving agencies (5) are including receiving material cylinder (51), material collecting cabinet (52) and receiving material cabinet lifting unit (53), receiving cabinet (52) fixed mounting is at the power take off end of receiving cabinet lifting unit (53), it is corresponding with the position of receiving cabinet (52) to receive material cylinder (51), and receives material cylinder (51) and be connected by the contact of survey work piece on conveying mechanism (1) to will be surveyed during work piece pushes up into receiving cabinet (52).

14. A fully automatic burn-in test system according to any one of claims 10 to 11, wherein: the feeding and discharging assembly (31) comprises an X-axis displacement assembly (311), a Y-axis displacement assembly (312), a Z-axis displacement assembly (313), a rotating assembly (314) and a clamping assembly (315), the Z-axis displacement assembly (313) is in transmission connection with the Y-axis displacement assembly (312), the X-axis displacement assembly (311) is in transmission connection with the Z-axis displacement assembly (313), the rotating assembly (314) is in transmission connection with the X-axis displacement assembly (311) and is in rotating movement with the connection position as a fulcrum, and the clamping assembly (315) is fixedly mounted on the rotating assembly (314).

15. A fully automatic burn-in test system according to any one of claims 10 to 11, wherein: the aging testing component (32) comprises an interface fixing frame (321), an aging testing interface (322), a power supply device (323) and two placement blocks (324), wherein the aging testing interface (322) and the power supply device (323) are fixedly installed on the interface fixing frame (321), the power supply device (323) is electrically connected with a tested workpiece through the aging testing interface (322), the placement blocks (324) correspond to the aging testing interface (322), and the tested workpiece is placed behind the placement blocks (324) and electrically connected with the aging testing interface (322).

16. The fully automated burn-in test system of claim 12, wherein: the mechanical arm assembly (21) comprises a mechanical arm (211), a vacuum chuck (212) and a chuck lifting cylinder (213), the chuck lifting cylinder (213) is fixedly installed at the front end of the mechanical arm (211), and the vacuum chuck (212) is fixedly installed at the power output end of the chuck lifting cylinder (213).

17. The fully automated burn-in test system of claim 12, wherein: fixed subassembly (22) include fixed disk (221), dog (222), burn and record cylinder (223), burn and record interface (224) and a plurality of locating piece (225), dog (222) detachable fixed mounting is in one side of fixed disk (221) to with being surveyed work piece contact and being connected, burn and record cylinder (223) fixed mounting in fixed disk (221) opposite side, burn and record interface (224) fixed mounting and burn the power take off end of burning and record cylinder (223), and burn and record interface (224) and be surveyed work piece electric connection, it is a plurality of the equal detachable fixed mounting of locating piece (225) is on fixed disk (221), and a plurality of locating pieces (225) all with being surveyed work piece contact and being connected.

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