CN214750604U - Remote aging system of electronic product - Google Patents

Abstract

The utility model discloses a long-range ageing system of electronic product, long-range ageing system includes a production pallet, and a tunnel is stamped the machine, a AGV dolly, one row at least ageing support to and a rear end control system. The production pallet in the remote aging system of the utility model is provided with the UPS power supply and the socket, so that the assembled electronic product can be directly connected with the power supply to be electrified and started on the production pallet to match the aging test of the electronic product; moreover, under the control of a back-end control system, a plurality of production pallets can be cached on the aging bracket and transferred to the next procedure; the aging test can be carried out on the production pallet in advance without stopping the production pallet on the production line, and automatic production can be realized, so that the production efficiency of electronic products is greatly improved.

Description

Remote aging system of electronic product

Technical Field

The utility model relates to a production technology of electronic product especially relates to a long-range ageing system of electronic product.

Background

The production of electronic products enters the later stage and needs to go through the following procedures: sorting spare parts, distributing spare parts, sleeving spare parts together, caching after sleeving, assembling products, aging products, testing products, packaging products and warehousing products. And sorting spare parts to testing products are finished on a production pallet, and the production pallets are continuously connected through the production lines of all the procedures, so that a complete product production line is formed.

Among these, aging of products is of great importance for electronic products, since electronic products may find many defects after use, for example, ten hours, a month, a year, or three years, which are not detectable in the test without a certain aging setting. Therefore, in order to avoid the problems which may occur in the subsequent use of the electronic product, the original components, the parts, the complete machine and the like need to be subjected to aging tests, so that the problems of the product reaching the hands of the consumer are reduced as much as possible or the reliability of the product is improved.

However, the aging test also brings problems to the production of electronic products, the aging test requires the electronic products to be powered on and started up, and the aging test requires a large accommodation area and a long time period, and the requirements cannot be met by the existing production line and are also the main reasons for low production efficiency in the existing production line.

In view of this, the present designer is able to make a deep conception on the defects and inconveniences caused by the imperfect production process of the electronic products, and actively research, improve and try to develop and design the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a long-range ageing system of electronic product for improve electronic product's production efficiency.

In order to achieve the above purpose, the solution of the present invention is:

a remote aging system of electronic products is used for being matched with a production line for assembling the electronic products and comprises a production pallet, wherein the production pallet flows on the production line, and a UPS (uninterrupted power supply) and a socket electrically connected with a power supply terminal in the UPS are installed on the production pallet; the tunnel stacker is provided with a transfer loader; the AGV trolley is provided with a jacking machine, and is respectively connected with the production line and the transfer machine through the jacking machine and used for transferring the production pallet; the aging support is matched beside the roadway stack machine, and a plurality of placing frames for containing production pallets are arranged on the aging support; and the rear end control system is in communication connection with the electronic product, the AGV and the tunnel stacker.

The aging support comprises a plurality of pairs of stand columns which are arranged in rows; the rear ends of two adjacent pairs of upright posts are connected through the plurality of transverse supporting rods; the upper part and the lower part of the two paired upright posts are respectively connected through the two longitudinal support rods; the two ends of each inclined supporting rod are respectively fixed on the two paired stand columns and are sequentially connected end to end; wherein, a plurality of racks are equidistantly installed between two pairs of adjacent stand columns in a layered manner.

The rack is provided with two power supply terminals which are electrically connected with the anode and the cathode of the commercial power respectively; two current-conducting plates are installed to the bottom of production pallet, two current-conducting plates respectively with the positive negative pole electric connection of charging terminal in the UPS power, two current-conducting plates still press respectively on two power supply terminals.

The tunnel stacker comprises a rail, wherein the rail is arranged on the ground and is positioned beside an aging bracket; the monorail car is matched on the track and runs back and forth along the track;

the vertical lifter is arranged on a monorail car, and the monorail car drives the vertical lifter to move back and forth along the rail; the transverse arm is arranged on the vertical lift, the transfer machine is arranged on the transverse arm, and the vertical lift drives the transfer machine to move up and down through the transverse arm; and the stacker crane controller is electrically connected with the single-track vehicle, the vertical lift and the transfer machine respectively and is used for controlling the single-track vehicle, the vertical lift and the transfer machine.

The top of the aging bracket is fixedly provided with a mounting bracket; the tunnel stacker further comprises a top guide rail, guide wheel seats and guide wheels arranged in pairs, wherein the top guide rail is arranged at the bottom of the mounting bracket; the guide wheel seat is arranged at the top of the vertical lifter; the guide wheels arranged in pairs are mounted on the guide wheel seats and clamp the top guide rail between the two guide wheels.

The rail comprises a rail main body, a rail clamping piece and a rail base plate; the track base plate is arranged on the ground; the track main body is arranged on the track base plate and is clamped and fixed on the track base plate through the track clamping piece.

The transfer machine comprises a mounting seat, and the mounting seat is mounted on the cross arm; the guide rail assembly is arranged on the mounting seat; the supporting plate cantilever is movably matched on the guide rail assembly; the transmission rack is arranged at the bottom of the supporting plate cantilever; the servo motor is arranged on the mounting seat; and the transmission gear set is rotatably installed on the guide rail assembly, and is in transmission connection with the servo motor and meshed with the transmission rack.

The supporting plate cantilever comprises an inner layer cantilever which is movably matched on the guide rail assembly, and the transmission rack is arranged at the bottom of the inner layer cantilever; an outer cantilever; and the outer layer cantilever is movably matched on the inner layer cantilever through the two sets of linkage assemblies, so that the inner layer cantilever is driven to move when moving.

The two groups of linkage assemblies comprise fixed terminals which are arranged on the guide rail assembly; the linkage gear is rotatably arranged at one end of the inner layer cantilever;

the linkage terminal is fixed at one end of the outer layer cantilever;

one end of the linkage chain is connected to the fixed terminal, and the other end of the linkage chain is connected to the linkage terminal after bypassing the linkage gear; the linkage gear and the linkage terminal are respectively positioned at two ends of the supporting plate cantilever, and the installation directions of the two groups of linkage assemblies are opposite.

The rear-end control system is provided with a wireless WIFI module, the wireless WIFI module is matched with an electronic product which is powered on and started up to use, and the rear-end control system is in communication connection with the electronic product through the wireless WIFI module.

After the scheme is adopted, the production pallet in the remote aging system is provided with the UPS power supply and the socket, so that the assembled electronic product can be directly connected with the power supply to be electrified and started on the production pallet to match the aging test of the electronic product; moreover, under the control of a back-end control system, a plurality of production pallets can be cached on the aging bracket and transferred to the next procedure; the aging test can be carried out on the production pallet in advance without stopping the production pallet on the production line, and automatic production can be realized, so that the production efficiency of electronic products is greatly improved.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is a side view of the preferred embodiment of the present invention;

FIG. 3 is a schematic view of a mounting bracket according to a preferred embodiment of the present invention;

fig. 4 is a schematic structural view of a burn-in stand according to a preferred embodiment of the present invention;

fig. 5 is a schematic structural view of a placement frame according to a preferred embodiment of the present invention;

fig. 6 is a first schematic structural view of a pallet according to a preferred embodiment of the present invention;

fig. 7 is a second schematic structural view of the pallet according to the preferred embodiment of the present invention;

fig. 8 is a first schematic structural diagram of a tunnel stacker according to a preferred embodiment of the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at A;

fig. 10 is a schematic structural diagram of a tunnel stacker according to a preferred embodiment of the present invention;

fig. 11 is a schematic structural view of a transfer machine according to a preferred embodiment of the present invention;

fig. 12 is an exploded view of the transfer machine according to the preferred embodiment of the present invention;

FIG. 13 is a schematic diagram of an AGV according to the preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 13, a preferred embodiment of a remote aging system for electronic products according to the present invention is a remote aging system for electronic products, which is used in conjunction with a production line for assembling electronic products and includes a production pallet 1, wherein the production pallet 1 flows on the production line, and a UPS power source 11 and a socket 12 electrically connected to a power supply terminal of the UPS power source 11 are installed on the production pallet 1; the tunnel stacker 2 is provided with a transfer machine 21, and the transfer machine is arranged on the tunnel stacker 2; the AGV comprises an AGV trolley 3, wherein a jacking machine 31 is arranged on the AGV trolley 3, and the AGV trolley 3 is respectively connected with the production line and the transfer machine 21 through the jacking machine 31 and is used for transferring the production pallet 1; the aging supports 4 are matched beside the tunnel stacker 2, and a plurality of placing frames 41 for containing the production pallet 1 are arranged on the aging supports 4; and a back-end control system (not shown in the figure), wherein the back-end control system is in communication connection with the electronic product, the AGV trolley 3 and the tunnel stacker 2.

When the electronic product assembling device is used, parts of electronic products are arranged on the production pallet 1 in a sleeved mode, the production pallet 1 flows on a production line and flows through a plurality of assembling stations, and assembling workers complete assembling of the electronic products on the assembling stations. After the assembly is completed, a power line of the electronic product can be plugged into the socket 12, and the UPS 11 supplies power to the electronic product, so that the electronic product can be powered on and started on the production pallet 1; and the electronic product after being started is communicated with the back-end control system, and the back-end control system is used for carrying out aging test on the electronic product and recording test data. The rear end control system can also control the AGV trolley 3 to run to one end of the production line, and then the jacking machine 31 rises to a position flush with the production line so that the production pallet 1 flows into the jacking machine 31; then, the AGV trolley 3 transports the production pallet 1 to one side of the transfer machine 21; then, under the control of the back-end control system, the transfer machine 21 extends into the jacking machine 31, the production pallet 1 on the jacking machine 31 is moved onto the transfer machine 21, then the laneway stacker 2 runs along the aging bracket 4, moves to the side of the vacant rack 41, and the laneway stacker 2 cooperates with the transfer machine 21 to move and place the production pallet 1 on the rack 41; after that, the electronic product completes the aging test on the placing rack 41, and then the tunnel stacker 2 and the transfer machine 21 cooperate with each other to remove the production pallet 1 from the placing rack 41, and transfer the production pallet to the next process by the AGV cart 3.

The utility model is characterized in that the production pallet 1 in the remote aging system of the utility model is provided with the UPS power supply 11 and the socket 12, so that the assembled electronic product can be directly connected with the power supply to be powered on and started on the production pallet 1 to match the aging test of the electronic product; moreover, under the control of the back-end control system, a plurality of production pallets 1 can be cached on the aging bracket 4 and transferred to the next procedure; not only can avoid the production pallet 1 to stagnate on the production line, carry out aging testing in advance, but also can realize automated production to great improvement electronic product's production efficiency.

The aging bracket 4 comprises a plurality of pairs of upright posts 42, and the upright posts 42 are arranged in rows; the rear ends of two adjacent pairs of upright posts 42 are connected through a plurality of transverse supporting rods 43; the upper part and the lower part of the two paired upright posts 42 are respectively connected through the two longitudinal struts 44; the two ends of each inclined supporting rod 45 are respectively fixed on the two paired upright posts 42 and are sequentially connected end to end; wherein, a plurality of racks 41 are installed between two pairs of adjacent upright posts 42 at equal intervals in layers.

The utility model provides an ageing support 4 comprises stand 42, cross-bar 43, vertical branch 44 and bearing diagonal pole 45, and it has simple structure, the convenient advantage of equipment to ageing support 4 overall structure is firm, stable.

The rack 41 is provided with two power supply terminals 411 which are electrically connected with the positive electrode and the negative electrode of the commercial power respectively; two conductive plates 13 are installed at the bottom of the production pallet 1, the two conductive plates 13 are respectively electrically connected with the positive and negative electrodes of the charging terminals in the UPS power supply 11, and the two conductive plates 13 are also respectively pressed against the two power supply terminals 411.

During the use, can charge to UPS power 11 through supply terminal 411 and current conducting plate 13, perhaps directly to the electronic product power supply, at first, different electronic product's consumption is different, and the electric quantity in UPS power 11 can not necessarily satisfy required electric quantity of electronic product aging testing, long, so, through being equipped with supply terminal 411 and current conducting plate 13, can effectual solution above-mentioned problem, satisfies the required electric quantity of different electronic product in aging testing, thereby makes the utility model discloses a production pallet 1 can the different electronic product of adaptation. Secondly, the production pallet 1 of the utility model can be used for charging or supplying power on the aging bracket 4, thereby solving the problem of charging the UPS 11, and the UPS 11 does not need to be taken down from the production line for charging, thereby having the advantages of simplicity and quickness for charging the UPS 11, and further improving the production efficiency of electronic products; in addition, the charging can be completed on the raw aging bracket 4, so that the storage capacity of the UPS power supply 11 can be reduced, the production cost of the UPS power supply 11 can be reduced, and the production cost of the production pallet 1 can be further reduced.

Inclined baffles 412 are bent at the front and rear ends of the rack 41. The utility model discloses a through being equipped with oblique baffle 412 on the rack 41, can play limiting displacement to production pallet 1, avoid production pallet 1 to shift, drop.

The tunnel stacker 2 comprises a rail 22, wherein the rail 22 is arranged on the ground and is positioned beside the aging bracket 4; the monorail car 23, the monorail car 23 cooperates on the orbit 22, go back and forth along the orbit 22; the vertical lifter 24 is arranged on the monorail car 23, and the monorail car 23 drives the vertical lifter 24 to move back and forth along the rail 22; the transverse arm 25, the transverse arm 25 is installed on vertical elevator 24, the transfer machine is installed on the transverse arm 25, the vertical elevator 24 drives the transfer machine 21 to move up and down through the transverse arm 25; and a stacker controller 26, the stacker controller 26 being electrically connected to the monorail car 23, the vertical lift 24 and the transfer machine, respectively, for controlling the monorail car 23, the vertical lift 24 and the transfer machine.

In use, under the control of the rear-end control system, the stacker controller 26 controls the monorail vehicle 23 to travel back and forth along the rails 22, and controls the vertical elevator 24 to drive the transfer machine to move up and down through the cross arm 25, so that the transfer machine 21 can move to the front end of each rack 41, and then the production pallet 1 is transferred onto the rack 41 or the production pallet 1 is taken down from the rack 41 through the transfer machine 21.

A mounting bracket 46 is fixed on the top of the aging bracket 4; stacker 2 further includes a top rail 27, a guide wheel seat 28, and guide wheels 29 arranged in pairs, where top rail 27 is mounted at the bottom of mounting bracket 46; a guide wheel seat 28 is mounted on top of the vertical lift 24; guide wheels 29 arranged in pairs are mounted on the guide wheel housings 28 and sandwich the top rail 27 between the guide wheels 29.

In use, the monorail car 23 runs back and forth along the rail 22, and the guide wheels 29 arranged in pairs also move back and forth along the top guide rail 27, wherein the vertical lift 24 is clamped on the top guide rail 27 through the two guide wheels 29, so that the vertical lift 24 is prevented from being deviated in a direction perpendicular to the top guide rail 27, and the structure of the tunnel stacker 2 is more stable.

The rail 22 includes a rail body 221, a rail catch 222, and a rail pad 223; the rail pad 223 is installed on the ground; the rail body 221 is placed on the rail pad 223 and is clamped and fixed on the rail pad 223 by the rail clamp 222.

The transfer machine comprises a mounting seat 211, wherein the mounting seat 211 is mounted on the cross arm 25; a rail assembly 212, the rail assembly 212 being mounted on the mounting base 211; a pallet cantilever 213, the pallet cantilever 213 being movably fitted on the rail assembly 212; the transmission rack 214, the transmission rack 214 is installed at the bottom of the supporting plate cantilever 213; the servo motor 215, the servo motor 215 is installed on the mount pad 211; and a transmission gear set 216, wherein the transmission gear set 216 is rotatably mounted on the guide rail assembly 212, and the transmission gear set 216 is in transmission connection with the servo motor 215 and is meshed with the transmission rack 214.

In use, the servo motor 215 drives the transmission gear set 216 to rotate, and the transmission gear set 216 drives the supporting plate cantilever 213 to move on the guide rail assembly 212 through the transmission rack 214. The different driving directions of the servo motor 215 also determine the different moving directions of the pallet boom 213, i.e. the pallet boom 213 can be extended or retracted to cooperate with moving the production pallet 1.

The transfer machine 21 further comprises a first guide wheel set 217, and a first guide wheel groove 2130 is arranged on the pallet cantilever 213; the first guide wheel set 217 is rotatably mounted on the guide rail assembly 212, and the pallet cantilever 213 is movably sleeved on the first guide wheel set 217 through a first guide wheel groove 2130.

The supporting plate cantilever 213 of the utility model is movably sleeved on the first guide wheel set 217 through the first guide wheel groove 2130, so that the friction force between the supporting plate cantilever 213 and the guide rail component 212 can be reduced, and the movement of the supporting plate cantilever 213 is smoother; in addition, the guide rail assembly 212 can support the pallet cantilever 213 through the first guide wheel set 217, so that the overhanging pallet cantilever 213 has a firmer and more stable structure.

The supporting plate suspension arm 213 comprises an inner suspension arm 2131, the inner suspension arm 2131 is movably matched on the guide rail assembly 212, and the transmission rack 214 is arranged at the bottom of the inner suspension arm 2131; outer layer cantilevers 2132; and two sets of linkage assemblies 2133, wherein the outer layer suspension arms 2132 are movably engaged with the inner layer suspension arms 2131 through the two sets of linkage assemblies 2133, so that the inner layer suspension arms 2131 drive the outer layer suspension arms 2132 to move when moving.

When the device is used, under the driving of the servo motor 215, the transmission gear set 216 can drive the inner layer cantilever 2131 to move and extend out on the guide rail assembly 212; the inner cantilever 2131 moves the in-process, can drive outer cantilever 2132 again through two sets of interlock subassemblies 2133 and move on inner cantilever 2131 and stretch out to form the secondary and stretch out, lengthened the overhanging length of layer board cantilever 213, thereby make layer board cantilever 213 can hold the great area in production pallet 1 bottom, form stable support to production pallet 1.

The two groups of linkage assemblies 2133 comprise fixed terminals 2136, and the fixed terminals 2136 are arranged on the guide rail assemblies 212; a linking gear 2137, wherein the linking gear 2137 is rotatably mounted at one end of the inner layer suspension arm 2131; an interlocking terminal 2138, the interlocking terminal 2138 being fixed to one end of the outer layer suspension 2132; a link chain 2139, one end of the link chain 2139 is connected to the fixed terminal 2136, and the other end is connected to the link terminal 2138 after bypassing the link gear 2137; the interlocking gears 2137 and the interlocking terminals 2138 are respectively positioned at two ends of the supporting plate cantilever 213, and the installation directions of the two groups of interlocking assemblies 2133 are opposite.

When the inner layer suspension arm 2131 extends towards the placing frame 41, the inner layer suspension arm 2131 drives the interlocking gear 2137 in the group of interlocking assemblies 2133 to move towards the placing frame 41, the interlocking gear 2137 drives the interlocking chain 2139 in the group of interlocking assemblies 2133 to move towards the placing frame 41 in the moving process, and the interlocking chain 2139 pulls the outer layer suspension arm 2132 to move towards the placing frame 41 through the interlocking terminal 2138 in the group of interlocking assemblies 2133, so that secondary extension towards the placing frame 41 is formed. On the contrary, when the inner suspension arm 2131 retracts, the inner suspension arm 2131 drives the interlocking gear 2137 of the other set of interlocking assembly 2133 to move in the opposite direction of the placement frame 41, the interlocking chain 2139 of the set of interlocking assembly 2133 is driven to move in the opposite direction of the placement frame 41 during the movement of the interlocking gear 2137, and the interlocking chain 2139 pulls the outer suspension arm 2132 to move in the opposite direction of the placement frame 41 through the interlocking terminal 2138 of the set of interlocking assembly 2133, so as to form a secondary retraction.

The supporting plate suspension arm 213 further includes a second guide wheel set 2134, and the inner layer suspension arm 2131 is provided with a second guide wheel groove 2135; the second guide wheel set 2134 is rotatably mounted on the outer layer suspension arm 2132, and the outer layer suspension arm 2132 is movably mounted in the second guide wheel groove 2135 through the second guide wheel set 2134.

The outer layer cantilever 2132 of the utility model is movably arranged in the second guide wheel groove 2135 through the second guide wheel set 2134, which can reduce the friction between the outer layer cantilever 2132 and the inner layer cantilever 2131, so that the movement of the outer layer cantilever 2132 is smoother; the inner cantilevers 2131 can support the outer cantilevers 2132 through the second guide wheel groove 2135, so that the outer cantilevers 2132 that are extended outward have a stronger and more stable structure.

The rear-end control system is provided with the wireless WIFI module 5, the wireless WIFI module 5 is matched with an electronic product which is powered on and started up to use, and the rear-end control system is in communication connection with the electronic product through the wireless WIFI module 5.

Through being equipped with wireless WIFI module 5 for rear end control system can realize wireless communication with electronic product, need not to lay the communication cable, because the electronic product that is located on production pallet 1 needs often to remove on the production flow line, can solve the problem that the communication cable can hinder electronic product to remove through wireless communication.

The foregoing description of the specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application, to thereby enable others skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be suited to the particular use contemplated and contemplated by those skilled in the art without departing from the scope of the invention.

Claims (10)

1. A remote aging system of electronic products is characterized in that: the remote aging system is used for being matched with a production line for assembling electronic products and comprises

The production pallet flows on the production line, and is provided with a UPS (uninterrupted power supply) and a socket which is electrically connected with a power supply terminal in the UPS;

the tunnel stacker is provided with a transfer loader;

the AGV trolley is provided with a jacking machine, and is respectively connected with the production line and the transfer machine through the jacking machine and used for transferring the production pallet;

the aging support is matched beside the roadway stack machine, and a plurality of placing frames for containing production pallets are arranged on the aging support;

and the rear end control system is in communication connection with the electronic product, the AGV and the tunnel stacker.

2. A remote aging system for electronic products according to claim 1, characterized in that: the aging bracket comprises

A plurality of pairs of upright posts arranged in rows;

the rear ends of two adjacent pairs of upright posts are connected through the plurality of transverse supporting rods;

the upper part and the lower part of the two paired upright posts are respectively connected through the two longitudinal support rods;

the two ends of each inclined supporting rod are respectively fixed on the two paired stand columns and are sequentially connected end to end;

wherein, a plurality of racks are equidistantly installed between two pairs of adjacent stand columns in a layered manner.

3. A remote aging system for electronic products according to claim 1, characterized in that: the rack is provided with two power supply terminals which are electrically connected with the anode and the cathode of the commercial power respectively; two current-conducting plates are installed to the bottom of production pallet, two current-conducting plates respectively with the positive negative pole electric connection of charging terminal in the UPS power, two current-conducting plates still press respectively on two power supply terminals.

4. A remote aging system for electronic products according to claim 1, characterized in that: the tunnel stamping machine comprises

The rail is arranged on the ground and is positioned beside the aging bracket;

the monorail car is matched on the track and runs back and forth along the track;

the vertical lifter is arranged on a monorail car, and the monorail car drives the vertical lifter to move back and forth along the rail;

the transverse arm is arranged on the vertical lift, the transfer machine is arranged on the transverse arm, and the vertical lift drives the transfer machine to move up and down through the transverse arm;

and the stacker crane controller is electrically connected with the single-track vehicle, the vertical lift and the transfer machine respectively and is used for controlling the single-track vehicle, the vertical lift and the transfer machine.

5. The remote aging system for electronic products of claim 4, wherein: the top of the aging bracket is fixedly provided with a mounting bracket; the tunnel stacker further comprises a top guide rail, guide wheel seats and guide wheels arranged in pairs, wherein the top guide rail is arranged at the bottom of the mounting bracket; the guide wheel seat is arranged at the top of the vertical lifter; the guide wheels arranged in pairs are mounted on the guide wheel seats and clamp the top guide rail between the two guide wheels.

6. The remote aging system for electronic products of claim 4, wherein: the rail comprises a rail main body, a rail clamping piece and a rail base plate; the track base plate is arranged on the ground; the track main body is arranged on the track base plate and is clamped and fixed on the track base plate through the track clamping piece.

7. The remote aging system for electronic products of claim 4, wherein: the transfer machine comprises

The mounting seat is mounted on the cross arm;

the guide rail assembly is arranged on the mounting seat;

the supporting plate cantilever is movably matched on the guide rail assembly;

the transmission rack is arranged at the bottom of the supporting plate cantilever;

the servo motor is arranged on the mounting seat;

and the transmission gear set is rotatably installed on the guide rail assembly, and is in transmission connection with the servo motor and meshed with the transmission rack.

8. A remote aging system for electronic products according to claim 7, wherein: the supporting plate cantilever comprises

The inner cantilever is movably matched on the guide rail assembly, and the transmission rack is arranged at the bottom of the inner cantilever;

an outer cantilever;

and the outer layer cantilever is movably matched on the inner layer cantilever through the two sets of linkage assemblies, so that the inner layer cantilever is driven to move when moving.

9. A remote aging system for electronic products according to claim 8, wherein: two sets of linkage components both comprise

A fixed terminal mounted on the rail assembly;

the linkage gear is rotatably arranged at one end of the inner layer cantilever;

the linkage terminal is fixed at one end of the outer layer cantilever;

one end of the linkage chain is connected to the fixed terminal, and the other end of the linkage chain is connected to the linkage terminal after bypassing the linkage gear;

the linkage gear and the linkage terminal are respectively positioned at two ends of the supporting plate cantilever, and the installation directions of the two groups of linkage assemblies are opposite.

10. A remote aging system for electronic products according to claim 1, characterized in that: the rear-end control system is provided with a wireless WIFI module, the wireless WIFI module is matched with an electronic product which is powered on and started up to use, and the rear-end control system is in communication connection with the electronic product through the wireless WIFI module.

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