CN214566642U - Intelligent flexible manufacturing system of electronic information product - Google Patents

Abstract

The utility model discloses an intelligent flexible manufacturing system of electronic information products, which comprises a material sorting mechanism, a distribution cache mechanism, an assembly line, a three-dimensional aging mechanism, a testing line and a packaging line; the utility model discloses a flexible manufacturing system of intelligence can be according to the production order of electronic information product, sets up the required accessories of various products, then sorts out the complete sets of accessories of a product and carries to the production water line, through delivery, buffer memory, equipment, ageing, test and packing in proper order, carries at last to the finished product storehouse and deposits, can the adaptation produce multiple electronic information product, need not additionally to set up other production lines, and then reduction in production cost.

Description

Intelligent flexible manufacturing system of electronic information product

Technical Field

The utility model relates to a technical field of electronic information product production especially relates to the flexible manufacturing system of intelligence of electronic information product.

Background

The existing electronic information products have various types and large demands, such as servers, computers, mobile phones, tablet computers and the like, and the market demands also make the production requirements of the electronic information products higher and higher.

However, the existing electronic information product production line can only produce one product, the produced product is single, and if other products need to be produced, the whole production line needs to be greatly changed, so that the production cost is greatly increased.

In view of this, the present designer is able to make a deep conception on the defects and inconveniences caused by the perfection of the production process of the electronic information 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 flexible manufacturing system of intelligence of electronic information product for it is various and reduction in production cost to realize producing the product.

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

an intelligent flexible manufacturing system of electronic information products comprises a material sorting mechanism, a distribution caching mechanism, an assembly line, a three-dimensional aging mechanism, a testing line and a packaging line; the material sorting mechanism is provided with a feeding frame; the placing frame is placed on the feeding frame, and spare and accessory parts of the electronic information product are placed in the placing frame; the system comprises a first tunnel stacker, wherein a first transfer machine and an intelligent material taking unit are mounted on the first tunnel stacker, the first transfer machine is used for transferring a placing frame, and the intelligent material taking unit is used for taking spare and accessory parts in the placing frame; the material supports are matched beside the first tunnel stacker, and a plurality of first placing frames for containing placing frames are arranged on the material supports; the distribution cache mechanism is provided with a production pallet, spare and accessory parts of electronic information products are contained in the production pallet, and a UPS power supply and a socket electrically connected with a power supply terminal in the UPS power supply are installed on the production pallet; at least one distribution line for transporting production pallets; the production pallet distribution system comprises a distribution assembly line, a plurality of production pallets and a cache case, wherein the production pallet is distributed on the distribution assembly line; the assembly line is connected with the distribution line, and a plurality of assembly stations are arranged on the assembly line; the three-dimensional aging mechanism is provided with a second tunnel stacker, and a second transfer machine is mounted on the second tunnel stacker; the AGV trolley is provided with a jacking machine, and is respectively connected with the assembly line and the second transfer machine through the jacking machine and used for transferring the production pallet; the aging supports are matched beside the tunnel stacker, and a plurality of second placing racks for containing the production pallet are arranged on the aging supports; the test assembly line is connected with the AGV trolley, and a plurality of test stations and a product detector are arranged on the test assembly line; one end of the packaging assembly line is connected with the testing assembly line, the other end of the packaging assembly line is connected to the finished product warehouse, and a plurality of packaging stations and an automatic case sealer are arranged on the packaging assembly line.

The first tunnel stacker comprises a first rail, wherein the first rail is arranged on the ground and is positioned beside a material support; the first monorail car is matched on the first rail and runs back and forth along the first rail; the intelligent material taking machine set comprises two first vertical lifters, two second vertical lifters and a plurality of second single-track vehicles, wherein the two first vertical lifters are both arranged on the first single-track vehicle, the first single-track vehicle drives the two first vertical lifters to move back and forth along a first track, and the intelligent material taking machine set is arranged on one first vertical lifter; the first transverse arm is arranged on the other first vertical lifter, the first transfer machine is arranged on the first transverse arm, and the first vertical lifter drives the first transfer machine to move up and down through the first transverse arm; and the first stacker crane is electrically connected with the first single-rail vehicle, the two first vertical lifters and the first transfer machine respectively and used for controlling the first single-rail vehicle, the two first vertical lifters and the first transfer machine.

The intelligent material taking unit comprises a material taking box body, and the material taking box body is arranged on the first vertical lifter; the material management system is arranged in the material taking box body; and the material taking and code scanning gun is arranged in the material taking box and is electrically connected with the material management system.

Intelligence reclaimer group still includes intelligence and gets material robot, intelligence is got material robot and is arranged in getting the workbin to with material management system electric connection, get the material and sweep a yard rifle and install on intelligence is got material robot.

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

The second tunnel stacker comprises a second rail which is arranged on the ground and is positioned beside the ageing bracket; the second monorail car is matched on the second rail and runs back and forth along the second rail; the second vertical lifter is arranged on a second monorail car, and the second monorail car drives the second vertical lifter to move back and forth along a second rail; the second transverse arm is arranged on a second vertical lifting machine, the second transfer machine is arranged on the second transverse arm, and the second vertical lifting machine drives the second transfer machine to move up and down through the second transverse arm; and the second stacker controller is respectively electrically connected with the second single-track vehicle, the two second vertical lifters and the second transfer machine and used for controlling the second single-track vehicle, the two second vertical lifters and the second transfer machine.

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

The second placing frame 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 first transplanting machine and the second transplanting machine are identical in structure and respectively comprise mounting seats, and the mounting seats are mounted on a first cross arm and a second 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.

After the scheme of the oil field is adopted, the utility model discloses a flexible manufacturing system of intelligence can be according to the production order of electronic information product, and the required accessories of various products are prepared, then the complete set accessories of a kind of product of sorting out is carried to the production water line, through delivery, buffer memory, equipment, ageing, test and packing in proper order, carries to the finished product storehouse at last and deposits, can the adaptation produce multiple electronic information product, need not additionally to set up other production lines, and then reduction in production cost.

Drawings

FIG. 1 is a plan view of a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a material sorting mechanism according to a preferred embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of a first tunnel stacker according to a preferred embodiment of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

fig. 6 is a schematic structural diagram of a distribution buffer mechanism according to a preferred embodiment of the present invention;

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

fig. 8 is a second schematic structural view of the pallet according to the preferred embodiment of the present invention;

fig. 9 is a schematic structural view of a three-dimensional aging mechanism according to a preferred embodiment of the present invention;

fig. 10 is a side view of the aging mechanism in accordance with the preferred embodiment of the present invention;

fig. 11 is a schematic structural view of a burn-in stand according to a preferred embodiment of the present invention;

fig. 12 is a schematic structural view of a second rack according to a preferred embodiment of the present invention;

fig. 13 is a schematic structural diagram of a second tunnel stacker according to a preferred embodiment of the present invention;

fig. 14 is a schematic structural view of a second tunnel stacker according to a preferred embodiment of the present invention after removing a second rail;

fig. 15 is a schematic structural view of a first transfer machine and a second transfer machine according to a preferred embodiment of the present invention;

fig. 16 is an exploded view of the first transfer machine and the second transfer machine according to the preferred embodiment of the present invention;

FIG. 17 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 17, a preferred embodiment of the intelligent flexible manufacturing system for electronic information products of the present invention includes a material sorting mechanism 1, a distribution buffer mechanism 2, an assembly line 3, a stereo aging mechanism 4, a testing line 5, and a packaging line 6; the material sorting mechanism 1 is provided with a feeding frame 11; the placing frame 12 is placed on the feeding frame 11, and spare and accessory parts of the electronic information product are placed in the placing frame 12; the first stacker 13, wherein a first transfer machine 131 and an intelligent material taking unit 132 are mounted on the first stacker 13, the first transfer machine 131 is used for transferring the placement frame 12, and the intelligent material taking unit 132 is used for taking parts and accessories in the placement frame 12; the material supports 14 are matched beside the first stacker 13, and a plurality of first placing frames 141 for accommodating the placing frames 12 are arranged on the material supports 14 in an array manner; the distribution cache mechanism 2 is provided with a production pallet 21, the production pallet 21 is provided with spare and accessory parts for accommodating electronic information products, and the production pallet 21 is provided with a UPS (uninterrupted power supply) 211 and a socket 212 which is electrically connected with a power supply terminal 4311 in the UPS 211; at least one distribution line 22, the distribution line 22 being for transporting the production pallet 21; the buffer case 23 is internally provided with a plurality of buffer racks 231 for accommodating the production pallet 21 and buffer manipulators 232, and the buffer manipulators 232 are used for moving the production pallet 21 from the distribution pipeline 22 to the buffer racks 231; the assembly line 3 is connected with the distribution line 22, and a plurality of assembly stations 31 are arranged on the assembly line 3; the stereoscopic aging mechanism 4 is provided with a second stacker 41, and a second transfer machine 411 is mounted on the second stacker 41; the AGV trolley 42 is provided with a jacking machine 421, and the AGV trolley 42 is respectively connected with the assembly line 3 and the second transfer machine 411 through the jacking machine 421 and is used for transferring the production pallet 21; and at least one row of aging supports 43, wherein the aging supports 43 are matched beside the roadway stacker, and a plurality of second placing racks 431 for accommodating the production pallet 21 are arranged on the aging supports 43; the test assembly line 5 is connected with the AGV trolley 42, and a plurality of test stations 51 and a product detector 52 are arranged on the test assembly line 5; one end of the packaging assembly line 6 is connected with the testing assembly line 5, the other end of the packaging assembly line is connected to a finished product warehouse, and a plurality of packaging stations 61 and an automatic box sealing machine 62 are arranged on the packaging assembly line 6.

The utility model discloses a flexible manufacturing system of intelligence adopts the flexible manufacturing method of intelligence of following electronic information product to carry out the production of electronic information product, and this flexible manufacturing method of intelligence includes following step:

step A: the parts required by purchasing are classified according to the production order of the electronic information product, and the classified parts are respectively placed in the placing frames 12 on the material support 14 through a first transfer machine 131 on the tunnel stacker;

and B: sorting out spare and accessory parts of a whole set of electronic information products through an intelligent material taking machine on a tunnel stacker and placing the spare and accessory parts on a production pallet 21;

and C: conveying the production pallet 21 to the assembly line 3 through the distribution buffer mechanism 2;

step D: the assembly of the electronic information product is completed on the assembly line 3;

step E: receiving the production pallet 21 flowing out of the assembly line 3 through the three-dimensional aging mechanism 4, and aging the electronic information product;

step F: the three-dimensional aging mechanism 4 conveys the electronic information products which are aged to the test assembly line 5 and tests the electronic information products;

step G: and the production pallet 21 flowing out of the test assembly line 5 is received through the packaging assembly line 6, qualified electronic information products are packaged, and the packaged electronic information products are conveyed to a finished product warehouse for storage.

In the specific production process, the production part acquires and purchases required spare and accessory parts according to the production order of the electronic information product, classifies the spare and accessory parts and respectively places the spare and accessory parts in the placing frames 12; then, the placing frame 12 is placed on the loading frame 11; then, the first stacker 13 moves to the side of the upper rack 11, and the placing frame 12 is taken by the first transfer machine 131; then, the first stacker 13 moves to the side of the material support 14, and the placing frame 12 is placed on the first placing rack 141 by the first transfer machine 131; according to the method, all the spare parts can be placed on the first placing frame 141 of the material support 14 through the placing frame 12; then, according to the production requirement, sorting out the spare and accessory parts of the whole set of electronic information products by an intelligent material taking machine on the tunnel stacker and placing the spare and accessory parts on the production pallet 21; then, the production pallet 21 is transported from the distribution pipeline 22 to the assembly pipeline 3, and of course, according to the assembly progress, the buffer manipulator 232 may first grab and move the aligned production pallet 21 to the buffer rack 231 of the buffer case 23; then, the assembly worker completes the assembly of the electronic information product on the corresponding assembly station 31, the power line of the electronic information product can be inserted into the socket 212 after the assembly is completed, and the UPS 211 supplies power to the electronic information product, so that the electronic information product can be started to cooperate with the aging test; then, the AGV cart 42 receives the production pallet 21 on the assembly line 3 through the lifter 421, and transfers the production pallet 21 to the second transfer machine 411; then, the second palletizer 41 moves to the side of the aging rack 43, and places the production pallet 21 on the second rack 431 by the second transfer machine 411 to age the electronic information product; after the aging is finished, the production pallet 21 is transferred to the test production line 5 through the cooperation of the second tunnel stacker 41 and the AGV trolley 42; then, the electronic information product is tested on the test station 51 through the product detection machine 52; the electronic information products which are qualified in the test flow line 5 flow to the packaging flow line 6 to package and case the electronic information products, and the automatic case sealer 62 is used for sealing the cases; thus, the production of the electronic information product can be completed.

The utility model discloses a focus on, the utility model discloses a flexible manufacturing system of intelligence can be according to the production order of electronic information product, and the required accessories of various products are put in reserve, then the complete set accessories of a sort out product is carried to the production water line, carries to the finished product storehouse through delivery, buffer memory, equipment, ageing, test and packing in proper order at last and deposits, can the adaptation produce multiple electronic information product, need not additionally to set up other production lines, and then reduction in production cost.

The first stacker 13 includes a first rail 133, and the first rail 133 is installed on the ground and is located beside the material support 14; a first monorail car 134, the first monorail car 134 being fitted on the first rail 133 and running back and forth along the first rail 133; two first vertical lifters 135, both the two first vertical lifters 135 are mounted on a first monorail car 134, the first monorail car 134 drives the two first vertical lifters 135 to move back and forth along a first rail 133, wherein the intelligent material taking unit 132 is mounted on one of the first vertical lifters 135; a first cross arm 136, the first cross arm 136 being mounted on another first vertical lifter 135, the first transfer unit 131 being mounted on the first cross arm 136, the first vertical lifter 135 driving the first transfer unit 131 to move up and down via the first cross arm 136; and a first stacker controller 137, where the first stacker controller 137 is electrically connected to the first single-rail car 134, the two first vertical elevators 135, and the first transfer unit 131, respectively, to control the first single-rail car 134, the two first vertical elevators 135, and the first transfer unit 131.

When the placing frame 12 is used, the first stacker controller 137 controls the first monorail vehicle 134 to travel back and forth along the first rail 133, and the two first vertical elevators 135 respectively drive the first transfer machine 131 and the intelligent material taking unit 132 to move up and down, so that the first transfer machine 131 and the intelligent material taking unit 132 can move to the front ends of the first placing frames 141, the placing frame 12 is moved to the first placing frame 141 by matching with the first transfer machine 131, or the placing frame 12 is taken down from the first placing frame 141, and spare and accessory parts in the placing frame 12 are also taken by matching with the intelligent material taking unit 132.

The intelligent material extracting set 132 comprises a material extracting box 1321, wherein the material extracting box 1321 is arranged on the first vertical lift 135; a material management system 1322, the material management system 1322 being mounted in the material take-out bin 1321; and a material taking and code scanning gun 1323, wherein the material taking and code scanning gun 1323 is arranged in the material taking box 1321 and is electrically connected with the material management system 1322.

When the material taking box is used, the material taking box body 1321 is firstly lowered through the first vertical lifter 135, and material taking personnel enter the material taking box body 1321; then, the electronic information product enters a material management system 1322, and a complete set of parts of certain electronic information product which needs to be taken are determined according to production requirements; then, the material taking and code scanning gun 1323 is utilized to sequentially take all the parts; and finally placed on the production pallet 21.

The intelligent material taking unit 132 further comprises an intelligent material taking robot 1324, the intelligent material taking robot 1324 is arranged in the material taking box and electrically connected with the material management system 1322, and the material taking and code scanning gun 1323 is installed on the intelligent material taking robot 1324.

During the use, get material personnel through intelligence material robot 1324 replacement to realize automated production, further improve the production efficiency of electronic information product.

The material support 14 includes a plurality of pairs of first vertical columns 142, and the plurality of pairs of first vertical columns 142 are arranged in rows; a plurality of first cross struts 143, and the rear ends of two adjacent pairs of first upright posts 142 are connected by the plurality of first cross struts 143; two ends of each first inclined supporting rod 144 are respectively fixed on the two paired first upright posts 142 and are sequentially connected end to end; wherein, a plurality of first racks 141 are installed between two pairs of adjacent first upright posts 142 at equal intervals in layers.

The utility model provides a material support 14 comprises first stand 142, first cross strut 143 and first bracing piece 144, and it has simple structure, the convenient advantage of equipment to ageing support 43 overall structure is firm, stable.

The second stacker 41 includes a second rail 412, and the second rail 412 is installed on the ground and is located beside the aging rack 43; a second monorail vehicle 413, wherein the second monorail vehicle 413 is matched on the second rail 412 and runs back and forth along the second rail 412; a second vertical lift 414, wherein the second vertical lift 414 is mounted on a second monorail car 413, and the second monorail car 413 drives the second vertical lift 414 to move back and forth along the second rail 412; a second cross arm 415, wherein the second cross arm 415 is installed on the second vertical lifter 414, the second transfer machine 411 is installed on the second cross arm 415, and the second vertical lifter 414 drives the second transfer machine 411 to move up and down through the second cross arm 415; and a second stacker controller 416, where the second stacker controller 416 is electrically connected to the second single-rail car 413, the two second vertical elevators 414, and the second transfer unit 411, respectively, so as to control the second single-rail car 413, the two second vertical elevators 414, and the second transfer unit 411.

In use, the second stacker controller 416 controls the second monorail vehicle 413 to travel back and forth along the second rail 412, and the second vertical lift 414 drives the second transfer machine 411 to move up and down, so that the second transfer machine 411 can move to the front end of each second rack 431, so as to cooperate with the second transfer machine 411 to transfer the production pallet 21 onto the second rack 431 or to remove the placement frame 12 from the second rack 431.

The aging bracket 43 includes a plurality of pairs of second posts 432, and the plurality of pairs of second posts 432 are arranged in rows; the rear ends of two adjacent pairs of second upright posts 432 are connected through the plurality of second cross struts 433; two second longitudinal struts 434, wherein the upper and lower parts of the two paired second pillars 432 are connected by the two second longitudinal struts 434 respectively; two ends of each second inclined supporting rod 435 are respectively fixed on the two paired second upright posts 432 and are sequentially connected end to end; wherein, a plurality of second racks 431 are arranged between two pairs of adjacent second upright posts 432 at equal intervals in layers.

The utility model provides an ageing support 43 comprises second stand 432, second cross-strut 433, the vertical branch 434 of second and second bearing diagonal 435, and it has simple structure, the convenient advantage of equipment to ageing support 43 overall structure is firm, stable.

The second rack 431 is provided with two power supply terminals 4311 electrically connected with the positive and negative electrodes of the commercial power respectively; the bottom of the production pallet 21 is installed with two conductive plates 213, the two conductive plates 213 are electrically connected to the positive and negative electrodes of the charging terminal of the UPS power source 211, and the two conductive plates 213 are pressed against the two power supply terminals 4311.

During the use, can charge to UPS power 211 through supply terminal 4311 and current conducting plate 213, perhaps directly to the electronic information product power supply, at first, the consumption of different electronic information products is different, and electric quantity in UPS power 211 can not necessarily satisfy the required electric quantity of electronic information product aging testing, long, so, through being equipped with supply terminal 4311 and current conducting plate 213, can effectual above-mentioned problem of solution, satisfy the required electric quantity of different electronic information products in aging testing, thereby make the utility model discloses a production pallet 21 can the different electronic information products of adaptation. Secondly, also use the utility model discloses a production pallet 21 also can charge or supply power on ageing support 43 to solve the problem that UPS 211 charges, need not to take UPS 211 off to charge, charge for UPS 211 has simple, swift advantage, and further also can improve the production efficiency of electronic information product; in addition, the charging can be completed on the raw aging bracket 43, so that the storage capacity of the UPS power supply 211 can be reduced, the production cost of the UPS power supply 211 can be reduced, and the production cost of the production pallet 21 can be further reduced.

The first transfer machine 131 and the second transfer machine 411 have the same structure, and each of the first transfer machine and the second transfer machine includes a mounting seat 71, and the mounting seats 71 are mounted on the first cross arm 136 and the second cross arm 415; a rail assembly 72, the rail assembly 72 being mounted on the mount 71; a pallet boom 73, the pallet boom 73 being movably fitted on the rail assembly 72; the transmission rack 74 is arranged at the bottom of the supporting plate cantilever 73; the servo motor 75, the servo motor 75 is installed on the mount 71; and a transmission gear set 76, wherein the transmission gear set 76 is rotatably mounted on the guide rail assembly 72, and the transmission gear set 76 is in transmission connection with the servo motor 75 and is meshed with the transmission rack 74.

In use, the servo motor 75 drives the transmission gear set 76 to rotate, and the transmission gear set 76 drives the supporting plate cantilever 73 to move on the guide rail assembly 72 through the transmission rack 74. The different driving directions of the servo motor 75 also determine the different moving directions of the pallet boom 73, i.e. the pallet boom 73 can be extended or retracted to cooperate with moving the placement frame 12 or the production pallet 21.

The first transfer machine 131 and the second transfer machine 411 further include a first guide wheel set 77, and a first guide wheel groove 731 is disposed on the pallet cantilever 73; the first guide wheel set 77 is rotatably mounted on the guide rail assembly 72, and the supporting plate cantilever 73 is movably sleeved on the first guide wheel set 77 through the first guide wheel groove 731.

The supporting plate cantilever 73 of the utility model is movably sleeved on the first guide wheel group 77 through the first guide wheel groove 731, so that the friction force between the supporting plate cantilever 73 and the guide rail component 72 can be reduced, and the movement of the supporting plate cantilever 73 is smoother; in addition, the guide rail assembly 72 can support the pallet cantilever 73 through the first guide roller set 77, so that the overhanging pallet cantilever 73 has a firmer and more stable structure.

The pallet boom 73 comprises an inner boom 732, the inner boom 732 is movably fitted on the rail assembly 72, and the driving rack 74 is installed at the bottom of the inner boom 732; an outer cantilever 733; and two sets of linkage components 734, the outer cantilever 733 is movably fitted on the inner cantilever 732 through the two sets of linkage components 734, so that the inner cantilever 732 moves to drive the outer cantilever 733 to move.

When in use, under the driving of the servo motor 75, the transmission gear set 76 can drive the inner layer cantilever 732 to move and extend on the guide rail assembly 72; the inner cantilever 732 can move and extend through the two sets of linkage assemblies 734 to drive the outer cantilever 733 to move and extend on the inner cantilever 732, so as to form a secondary extension, and extend the extension length of the supporting plate cantilever 73, so that the supporting plate cantilever 73 can support the large area at the bottom of the placing frame 12 or the production pallet 21, and the placing frame 12 or the production pallet 21 can be stably supported.

The two sets of linkage assemblies 734 each include a fixed terminal 7341, and the fixed terminals 7341 are mounted on the rail assembly 72; a link gear 7342, the link gear 7342 being rotatably attached to one end of the inner cantilever 732; a linking terminal 7343, the linking terminal 7343 being fixed to one end of the outer cantilever 733; and a link chain 7344, one end of the link chain 7344 is connected to the fixed terminal 7341, and the other end is connected to the link terminal 7343 after bypassing the link gear 7342; the interlocking gear 7342 and the interlocking terminal 7343 are respectively located at two ends of the supporting plate suspension arm 73, and the installation directions of the two sets of interlocking components 734 are opposite.

When the inner cantilever 732 extends towards the placing frame, the inner cantilever 732 drives the linkage gear 7342 in the linkage assembly 734 to move towards the placing frame, the linkage gear 7342 drives the linkage chain 7344 in the linkage assembly 734 to move towards the placing frame in the moving process, and the linkage chain 7344 pulls the outer cantilever 733 to move towards the placing frame through the linkage terminal 7343 in the linkage assembly 734, so as to form a secondary extension towards the placing frame. On the contrary, when the inner cantilever 732 retracts, the inner cantilever 732 drives the linkage gear 7342 of the other linkage assembly 734 to move in the opposite direction of the rack, the linkage chain 7344 of the linkage assembly 734 is driven to move in the opposite direction of the rack during the movement of the linkage gear 7342, the linkage chain 7344 pulls the outer cantilever 733 to move in the opposite direction of the rack through the linkage terminal 7343 of the linkage assembly 734, and thus a secondary retraction is formed.

The pallet boom 73 further includes a second guide wheel set 735, and the inner layer boom 732 is provided with a second guide wheel groove 7321; the second guide wheel set 735 is rotatably mounted on the outer cantilever 733, and the outer cantilever 733 is movably mounted in the second guide wheel groove 7321 through the second guide wheel set 735.

The outer cantilever 733 of the present invention is movably mounted in the second guide wheel groove 7321 through the second guide wheel set 735, which can reduce the friction between the outer cantilever 733 and the inner cantilever 732, so that the outer cantilever 733 can move more smoothly; in addition, the inner cantilever 732 can support the outer cantilever 733 through the second guide wheel groove 7321, so that the outer cantilever 733 extending outward is structurally more stable and stable.

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 (9)

1. An intelligent flexible manufacturing system of electronic information products is characterized in that: the intelligent flexible manufacturing system comprises a material sorting mechanism, a delivery caching mechanism, an assembly line, a three-dimensional aging mechanism, a testing line and a packaging line;

the material sorting mechanism is provided with

A feeding frame;

the placing frame is placed on the feeding frame, and spare and accessory parts of the electronic information product are placed in the placing frame;

the system comprises a first tunnel stacker, wherein a first transfer machine and an intelligent material taking unit are mounted on the first tunnel stacker, the first transfer machine is used for transferring a placing frame, and the intelligent material taking unit is used for taking spare and accessory parts in the placing frame;

the material supports are matched beside the first tunnel stacker, and a plurality of first placing frames for containing placing frames are arranged on the material supports;

the distribution cache mechanism is provided with

The production pallet is used for accommodating spare and accessory parts of an electronic information product, and is provided with a UPS (uninterrupted power supply) and a socket which is electrically connected with a power supply terminal in the UPS;

at least one distribution line for transporting production pallets;

the production pallet distribution system comprises a distribution assembly line, a plurality of production pallets and a cache case, wherein the production pallet is distributed on the distribution assembly line;

the assembly line is connected with the distribution line, and a plurality of assembly stations are arranged on the assembly line;

the three-dimensional aging mechanism is provided with

The second tunnel stacker is provided with a second transfer machine;

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

the aging supports are matched beside the tunnel stacker, and a plurality of second placing racks for containing the production pallet are arranged on the aging supports;

the test assembly line is connected with the AGV trolley, and a plurality of test stations and a product detector are arranged on the test assembly line;

one end of the packaging assembly line is connected with the testing assembly line, the other end of the packaging assembly line is connected to the finished product warehouse, and a plurality of packaging stations and an automatic case sealer are arranged on the packaging assembly line.

2. The intelligent flexible manufacturing system for electronic information products according to claim 1, characterized in that: the first tunnel stacker comprises

The first rail is arranged on the ground and is positioned beside the material support;

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

the intelligent material taking machine set comprises two first vertical lifters, two second vertical lifters and a plurality of second single-track vehicles, wherein the two first vertical lifters are both arranged on the first single-track vehicle, the first single-track vehicle drives the two first vertical lifters to move back and forth along a first track, and the intelligent material taking machine set is arranged on one first vertical lifter;

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

and the first stacker crane is electrically connected with the first single-rail vehicle, the two first vertical lifters and the first transfer machine respectively and used for controlling the first single-rail vehicle, the two first vertical lifters and the first transfer machine.

3. The intelligent flexible manufacturing system for electronic information products according to claim 2, characterized in that: the intelligent material taking unit comprises

The material taking box body is arranged on the first vertical lifter;

the material management system is arranged in the material taking box body;

and the material taking and code scanning gun is arranged in the material taking box and is electrically connected with the material management system.

4. The intelligent flexible manufacturing system for electronic information products according to claim 3, characterized in that: intelligence reclaimer group still includes intelligence and gets material robot, intelligence is got material robot and is arranged in getting the workbin to with material management system electric connection, get the material and sweep a yard rifle and install on intelligence is got material robot.

5. The intelligent flexible manufacturing system for electronic information products according to claim 1, characterized in that: the material support comprises

A plurality of pairs of first upright columns arranged in rows;

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

the two ends of each first inclined supporting rod are respectively fixed on the two first vertical columns in pairs and are sequentially connected end to end; wherein, a plurality of first racks are equidistantly installed between two pairs of adjacent first stand columns in a layered manner.

6. The intelligent flexible manufacturing system for electronic information products according to claim 2, characterized in that: the second stacker comprises

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

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

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

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

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

7. The intelligent flexible manufacturing system for electronic information products according to claim 1, characterized in that: the aging bracket comprises

A plurality of pairs of second columns arranged in rows;

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

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

the two ends of each second inclined supporting rod are respectively fixed on the two paired second stand columns and are sequentially connected end to end; wherein, a plurality of second racks are equidistantly and hierarchically arranged between two adjacent pairs of second upright posts.

8. The intelligent flexible manufacturing system for electronic information products according to claim 1, characterized in that: the second placing frame 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.

9. The intelligent flexible manufacturing system for electronic information products according to claim 6, characterized in that: the first transplanting machine and the second transplanting machine have the same structure and both comprise

The mounting seats are mounted on the first cross arm and the second 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.

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