CN111153124A - Efficient carousel formula chip burns record equipment - Google Patents

Abstract

The invention discloses high-efficiency rotating disc type chip burning equipment which comprises a chip supply module, a chip processing module, a carrying module and a material receiving and packaging module, wherein the chip supply module is used for supplying a chip to a chip burning device; the carrying module comprises a vertical carrying mechanism and a transverse driving mechanism; the chip processing module comprises an information input assembly, the information input assembly comprises a burning turntable and a first rotating driving mechanism, a plurality of groups of burning units are arranged on the burning turntable, and each group of burning units comprises a plurality of burning seats; and the vertical carrying mechanism is provided with a plurality of suction ports corresponding to the burning seats. The invention can accelerate the transfer speed of the chip, thereby improving the processing efficiency of chip burning and having compact structure.

Description

Efficient carousel formula chip burns record equipment

Technical Field

The invention relates to chip processing equipment, in particular to efficient rotating disc type chip burning equipment.

Background

With the progress of science and technology, more and more electronic products are presented to people, and chips are important components in most electronic products and are used for storing operation data. Before the chip is put into use, corresponding data needs to be burned on the chip in advance through burning equipment, so that the burning equipment is very important for processing the chip.

The chip burning device generally comprises a material sending module, a material receiving module, a chip burning module and a carrying mechanism, and even further comprises an information identification module, a defective product eliminating module and the like; in the layout of the equipment, a plurality of processing modules are generally arranged at different positions, and a group of chip carrying mechanisms is arranged between each processing module; when chips are transferred among different processing modules, the chips need to pass through corresponding carrying routes, and the carrying and transfer are realized by the chip carrying mechanism, so that the carrying efficiency and the processing efficiency of the chips determine the production efficiency of the whole equipment; in addition, the processing technology and the position precision of the chip determine the yield of the chip; because the general chip burning time is longer, the burning equipment in the prior art adopts a mode of parallel processing of a plurality of groups of burners to realize the improvement of the whole efficiency.

The utility model discloses a utility model patent that grant publication number is CN208767261U discloses "two-dimentional transport formula chip burns record equipment", should burn record equipment and burn the seat through the multiunit that sets up with in the processing module to shorten the transfer of each chip between each processing unit and carry, and then accelerate production efficiency. However, the following problems still remain:

1. the multiple groups of burning seats are arranged in the longitudinal direction, so that the occupied space is large, and the longitudinal lengths of other processing modules of the burning equipment are shorter than that of the burning unit, so that the volume of the whole equipment is increased to meet the requirement of the longitudinal size of the burning unit, and the gaps in the equipment are increased;

2. because the multiple groups of burning seats in the burning unit are arranged in the longitudinal direction, after all the burning seats are filled with chips, all the burning seats in the whole burning unit need to move back to the initial position, and the carrying module can transfer a group of chips which complete information input firstly, so that the burning unit needs to perform longitudinal idle stroke once every other period in the whole processing process, the processing speed of the whole burning equipment is influenced, and the production efficiency is reduced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the high-efficiency rotating disc type chip burning equipment which can accelerate the chip transfer speed so as to improve the chip burning processing efficiency.

The purpose of the invention is realized by the following technical scheme:

an efficient rotating disc type chip burning device is characterized by comprising a chip supply module, a chip processing module, a carrying module and a material receiving and packaging module; the chip supply module is arranged at the upstream of the chip processing module, and the material receiving and packaging module is arranged at the downstream of the chip processing module along the transverse moving direction of chip transfer; the conveying module comprises a vertical conveying mechanism arranged above the chip processing module and a transverse driving mechanism for driving the vertical conveying mechanism to transversely move; the chip processing module comprises an information input assembly, the information input assembly comprises a burning turntable and a first rotation driving mechanism for driving the burning turntable to rotate on the horizontal plane, a plurality of groups of burning units are arranged on the burning turntable and are arranged at equal intervals along the circumferential direction of the burning turntable, and each group of burning units comprises a single burning seat or a plurality of burning seats arranged along the radial direction of the burning turntable; the vertical carrying mechanism is provided with a plurality of suction ports corresponding to the burning seats of each group of burning units; the burning turntable is provided with a carrying position corresponding to the vertical carrying mechanism of the carrying module, and the burning seat corresponding to the carrying position is positioned on the same straight line with the supply position of the chip supply module and the receiving position of the receiving packaging module.

The working principle of the efficient rotating disc type chip burning device is as follows:

firstly, a chip supply module conveys a group of chips to be burned to a supply position, then the vertical conveying mechanism sucks up the group of chips, conveys the group of chips to a burning seat corresponding to a group of burning units on a burning turntable under the drive of a transverse driving mechanism, and simultaneously starts to carry out information recording (burning) on the group of chips; then, the first rotation driving mechanism drives the burning turntable to rotate for one grid, so that the other adjacent group of burning units rotate to positions corresponding to the chip supply position and the chip receiving position along with the burning turntable, and the next group of chips positioned at the supply position of the chip supply module are conveyed to the corresponding burning seats in the same way, so that the burning seats on the burning turntable are continuously filled, and information is recorded into the chips in the rotation process of the burning turntable; when the first group of chips completing the information input rotate to the initial position along with the burning turntable, the vertical carrying mechanism carries the group of chips completing the information input away, and the chips are carried to the receiving position under the driving of the transverse driving mechanism, and the receiving and packaging of the chips are realized by the receiving packaging module. The burning turntable is connected with an external main power supply and a host computer through a slip ring, so that power supply and communication of the burning turntable are realized.

In a preferred embodiment of the present invention, the processing module further includes a plurality of chip processing assemblies, the plurality of chip processing assemblies and the information input assembly are arranged along a transverse direction, and chip fixing positions on the plurality of chip processing assemblies are on the same line as the supply position and the receiving position; the chip processing assemblies, the information input assembly, the supply position and the receiving position are arranged at equal intervals, and the intervals are fixed distances; the vertical carrying mechanisms on the carrying module are provided with a plurality of groups, the plurality of groups of vertical carrying mechanisms are arranged at equal intervals along the transverse direction, and the interval between two adjacent groups of vertical carrying mechanisms is equal to the stop motion distance.

Preferably, the carrying module further comprises a moving plate, the plurality of vertical carrying mechanisms arranged at equal intervals are all arranged on the moving plate, and a power output shaft of the transverse driving mechanism is connected with the moving plate; every vertical handling mechanism of group all includes the vertical actuating mechanism who is used for absorbing the absorption pole of chip and drives and absorbs the pole and carry out vertical motion, it is connected with negative pressure device through the connecting pipe to absorb the pole, it constitutes to absorb the lower tip of pole absorb the port.

Preferably, the plurality of chip processing assemblies comprise a laser coding assembly, and the laser coding assembly is arranged at the downstream of the information input assembly; the laser coding assembly comprises a laser turntable and a second rotation driving mechanism for driving the laser turntable to rotate; the laser turntable is provided with a plurality of groups of laser units, the laser units are arranged at equal intervals along the circumferential direction of the laser turntable, and each group of laser units comprises a plurality of laser fixing seats arranged along the radial direction of the laser turntable; and the laser fixing seat corresponding to the vertical carrying mechanism on the laser turntable is positioned on the same straight line with the carrying position.

Preferably, the plurality of chip processing assemblies comprise an information detection assembly, and the information detection assembly is arranged at the downstream of the laser coding assembly; the information detection assembly comprises a detection turntable and a third rotation driving mechanism for driving the detection turntable to rotate; a plurality of groups of detection units are arranged on the detection turntable at equal intervals along the circumferential direction of the detection turntable, and each group of detection units comprises a plurality of detection fixing seats arranged along the radial direction of the detection turntable; and the detection fixing seat corresponding to the vertical conveying mechanism on the detection turntable is positioned on the same straight line with the conveying position.

In a preferred aspect of the present invention, the chip supply module includes a supply transition component and an intermediate handling mechanism, the supply transition component is disposed upstream of the information recording component; the feeding transition assembly comprises a feeding turntable and a fourth rotation driving mechanism for driving the feeding turntable to rotate; a plurality of groups of feeding units are arranged on the feeding turntable, the groups of feeding units are arranged at equal intervals along the circumferential direction of the feeding turntable, and each group of feeding units comprises a plurality of feeding fixing seats arranged along the radial direction of the feeding turntable; the feeding position is arranged on the feeding turntable; the middle carrying mechanism comprises a feeding suction assembly and a feeding driving mechanism for driving the feeding suction assembly to move.

According to a preferred scheme of the invention, the material receiving packaging module comprises a material receiving transition assembly and a material receiving conveying mechanism; the receiving transition assembly comprises a receiving frame, a plurality of receiving fixing seats and a fifth rotary driving mechanism for driving the receiving fixing seats to rotate, the receiving fixing seats are rotatably arranged on the receiving frame, and the receiving fixing seats form receiving positions; the material receiving and carrying mechanism comprises a material receiving and sucking assembly and a material receiving driving mechanism for driving the material receiving and sucking assembly to move.

In a preferred embodiment of the present invention, there are two burning seats in each group of burning units.

In a preferred embodiment of the present invention, there are four sets of detecting units on the detecting turntable.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention arranges a plurality of groups of burning units on the burning turntable, and realizes the position movement of the chip on each group of burning units through the rotation of the burning turntable; after the burning turntable rotates for a circle, the chip which finishes information input returns to the position which can be transported and transferred in the transporting module again so as to transport the chip; the transfer turntable only needs to rotate intermittently in the whole process, so that continuous carrying and transfer of the chips can be realized, idle stroke is avoided, the carrying efficiency of the chips is improved, and the production efficiency of chip burning is improved.

2. The multiple groups of burning units are arranged on the burning turntable at equal intervals along the circumferential direction, and compared with a linear arrangement mode, more groups of burning units can be arranged, so that the information recording duration of the chip can be prolonged, and more information can be written in.

3. The burning equipment adopts a disc mode to complete the installation of the burning seats, is arranged in groups along the circumferential direction and is arranged one by one along the radial direction, so that the space can be fully and effectively utilized, and more burning seats are arranged in the same equipment size range, thereby realizing the improvement of the burning efficiency; meanwhile, the arrangement and installation mode can shorten the length in the longitudinal direction and reduce the equipment gap, so that the equipment structure is more compact and the volume is smaller.

Drawings

Fig. 1-2 are schematic diagrams of top views of an embodiment of an efficient turntable chip burning apparatus according to the present invention, wherein 16 burning units on the burning turntable in fig. 1 are shown, and 32 burning units on the burning turntable in fig. 2 are shown.

Fig. 3 is a top view of the chip handling module of fig. 1.

FIG. 4 is a top view of the feed transition assembly of FIG. 3.

Detailed Description

The present invention will be further described with reference to the following examples and drawings, but the embodiments of the present invention are not limited thereto.

Referring to fig. 1 to 4, the efficient turntable type chip burning apparatus of the present embodiment includes a chip supply module 1, a chip processing module, a carrying module, and a material receiving and packaging module 7; along the transverse moving direction of chip transfer, the chip supply module 1 is arranged at the upstream of the chip processing module, and the material receiving and packaging module 7 is arranged at the downstream of the chip processing module; the conveying module comprises a vertical conveying mechanism arranged above the chip processing module and a transverse driving mechanism for driving the vertical conveying mechanism to transversely move; the chip processing module comprises an information recording component 3, the information recording component 3 comprises a recording turntable 16 and a first rotation driving mechanism for driving the recording turntable 16 to rotate on a horizontal plane, a plurality of groups of recording units are arranged on the recording turntable 16 and are arranged at equal intervals along the circumferential direction of the recording turntable 16, and each group of recording units comprises a single recording seat 17 or a plurality of recording seats 17 arranged along the radial direction of the recording turntable 16; the vertical carrying mechanism is provided with a plurality of suction ports corresponding to the burning seats 17 of each group of burning units; a conveying position 15 is arranged at a position, corresponding to the vertical conveying mechanism of the conveying module, in the burning turntable 16, and a burning seat 17 corresponding to the conveying position 15, a supply position 18 of the chip supply module 1 and a material receiving position of the material receiving packaging module 7 are positioned on the same straight line.

Referring to fig. 1 to 3, the processing module further includes a plurality of chip processing assemblies, the chip processing assemblies and the information input assembly 3 are arranged along a transverse direction, and chip fixing positions on the chip processing assemblies are in the same line with the supply position 18 and the receiving position; the plurality of chip processing assemblies, the information input assembly 3, the supply position 18 and the receiving position are arranged at equal intervals, and the intervals are fixed distances; the vertical carrying mechanisms on the carrying module are provided with a plurality of groups, the plurality of groups of vertical carrying mechanisms are arranged at equal intervals along the transverse direction, and the interval between two adjacent groups of vertical carrying mechanisms is equal to the stop motion distance.

The carrying module is favorable for improving the carrying of the chip between each chip processing component and the information input component 3, improving the transfer efficiency of the chip and realizing the stop-motion conveying of the chip. Specifically, the method comprises the following steps: each group of vertical carrying mechanisms corresponds to the plurality of chip processing assemblies, the information input assembly 3, the supply position 18 and the receiving position one by one; when all the chip processing assemblies and all the burning seats 17 on the information input assembly 3 are provided with chips, and all the chip processing assemblies complete chip processing on the chips, the corresponding vertical carrying mechanisms simultaneously suck the chips, the transverse driving mechanism drives all the vertical carrying mechanisms to transversely move for one grid (transversely move for one station), so that all the sucked chips are moved to the positions corresponding to the next chip processing positions (or material receiving positions) from the previous chip processing positions (or supply positions 18), and then the chips are accurately placed on the corresponding positions through the vertical carrying mechanisms, so that the carrying and transferring of all the chips can be completed, and the fixed grid conveying of the chips is realized; in the process, a group of chips to be burned and processed on the supply position 18 is refilled to the first chip processing position, and the chip on the last chip processing position is transported to the receiving position of the receiving packaging module 7; and finishing the loading, transferring and receiving of the whole chip burning processing process.

The carrying module of the embodiment further comprises a moving plate, the plurality of vertical carrying mechanisms arranged at equal intervals are all arranged on the moving plate, and a power output shaft of the transverse driving mechanism is connected with the moving plate; every vertical handling mechanism of group all includes the vertical actuating mechanism who is used for absorbing the absorption pole of chip and drives and absorbs the pole and carry out vertical motion, it is connected with negative pressure device through the connecting pipe to absorb the pole, it constitutes to absorb the lower tip of pole absorb the port.

Referring to fig. 1-3, the plurality of chip processing assemblies include a laser coding assembly 4, and the laser coding assembly 4 is arranged at the downstream of the information input assembly 3; the laser coding assembly 4 comprises a laser turntable 9 and a second rotation driving mechanism for driving the laser turntable 9 to rotate; a plurality of groups of laser units are arranged on the laser turntable 9, the laser units are arranged at equal intervals along the circumferential direction of the laser turntable 9, and each group of laser units comprises a plurality of laser fixing seats 12 arranged along the radial direction of the laser turntable 9; the laser fixing seat 12 corresponding to the vertical conveying mechanism on the laser turntable 9 is positioned on the same straight line with the conveying position 15. By arranging the laser coding component 4, after the information input of the chip is finished, the surface of the chip is subjected to laser coding processing; because the time required for carrying out laser coding on the surface of the chip is shorter than the time for inputting the information of the chip, the position transition transfer of a rotating disc type is also adopted, the matching with the information inputting assembly 3 is realized, and the stop-motion conveying transfer of the chip on each chip processing assembly is realized.

Referring to fig. 1 to 3, the plurality of chip processing assemblies include an information detection assembly 5, and the information detection assembly 5 is disposed downstream of the laser coding assembly 4; the information detection assembly 5 comprises a detection turntable 10 and a third rotation driving mechanism for driving the detection turntable 10 to rotate; a plurality of groups of detection units are arranged on the detection rotary table 10, the detection units are arranged at equal intervals along the circumferential direction of the detection rotary table 10, and each group of detection units comprises a plurality of detection fixed seats 11 arranged along the radial direction of the detection rotary table 10; the detection fixing seat 11 corresponding to the vertical conveying mechanism on the detection turntable 10 is positioned on the same straight line with the conveying position 15. Through setting up information detection subassembly 5, after the information entry and the laser coding of accomplishing the chip, detect the information in the chip, ensure that information entry is errorless, be favorable to improving the chip and burn the record precision.

Referring to fig. 1-3, the chip supply module 1 comprises a supply transition assembly 2 and an intermediate handling mechanism, the supply transition assembly 2 being disposed upstream of the information recording assembly 3; the supply transition assembly 2 comprises a feeding turntable 8 and a fourth rotation driving mechanism for driving the feeding turntable 8 to rotate; a plurality of groups of feeding units are arranged on the feeding turntable 8, the groups of feeding units are arranged at equal intervals along the circumferential direction of the feeding turntable 8, and each group of feeding units comprises a plurality of feeding fixing seats 13 arranged along the radial direction of the feeding turntable 8; the feeding position 18 is arranged on the feeding turntable 8; the middle carrying mechanism comprises a feeding suction assembly and a feeding driving mechanism for driving the feeding suction assembly to move. Through the arrangement of the supply transition assembly 2 and the intermediate conveying mechanism, the chips to be processed can be conveniently transferred to the corresponding processing stations through the conveying module; in addition, set up middle transport mechanism in addition alone for the transport module need not to be responsible for the chip and shifts the process on supplying transition subassembly 2 from charging tray or material area, be responsible for alone by middle transport mechanism, make the material loading of chip can with the chip shift alternate segregation on processing module, need not synchronous shift, thereby be favorable to accelerating the chip and shift to the speed of supplying transition subassembly 2 from the charging tray, and can be better with the position setting of transport module and chip supply module 1, make whole equipment structure compacter.

Referring to fig. 3, the supply transition assembly 2 is further provided with a loading position 14, the loading position 14 and the supply position 18 are staggered, and the loading position 14 corresponds to a chip on a chip material belt or a chip tray, so that the intermediate conveying mechanism can convey the chips.

Referring to fig. 1-3, the material receiving and packaging module 7 includes a material receiving transition assembly 6 and a material receiving and conveying mechanism, and the material receiving transition assembly 6 is disposed upstream of the information detection assembly 5; the material receiving transition assembly 6 comprises a material receiving frame 20, a plurality of material receiving fixing seats 19 and a fifth rotation driving mechanism for driving the material receiving fixing seats 19 to rotate, the plurality of material receiving fixing seats 19 are rotatably arranged on the material receiving frame 20, and the material receiving fixing seats 19 form material receiving positions; the material receiving and carrying mechanism comprises a material receiving and sucking assembly and a material receiving driving mechanism for driving the material receiving and sucking assembly to move. After the chip that accomplishes each item processing shifts to receipts material fixing base 19 of receiving material transition subassembly 6 through carrying the module on, fifth rotation drive mechanism drive receives material fixing base 19 and rotates ninety degrees for the chip that accomplishes each item processing also rotates ninety degrees thereupon, and then by receiving the chip after transport transfer mechanism will rotate from receiving material fixing base 19 on the chip blank material area shift to the chip blank material area, correspond with the chip position in chip blank material area, so that subsequent encapsulation processing.

Referring to fig. 1-3, in the embodiment, two of the writing seats 17 of each set of writing units are provided with two writing seats, so that the number of the writing seats on the same-size writing turntable is increased by multiple times, which is beneficial to improving the chip writing efficiency.

Referring to fig. 1 to 3, in the present embodiment, there are four sets of detecting units on the detecting turntable 10.

The chip supply module 1, the carrying module, and the material receiving and packaging module 7 of the present embodiment can be referred to as the chip supply module, the carrying module, and the material receiving and packaging module in the "two-dimensional conveying type chip burning apparatus" of the utility model with the publication number of CN 208767261U; or refer to the chip supply module, the carrying module and the material receiving and packaging module in the utility model 'a freeze-frame conveying type chip burning device' with the publication number of CN 208706586U; or see other chip loading modules and receiving packaging modules in the prior art.

The writing seat 17 and the detecting fixing seat 11 in this embodiment can be referred to as the writing seat in the "two-dimensional conveying type chip writing device" of the utility model with the publication number of CN 208767261U. The laser fixing seat 12, the feeding fixing seat 13, and the receiving fixing seat 19 in this embodiment can all refer to the chip positioning seat in the utility model patent with the publication number of CN208767261U, namely, "a two-dimensional conveying type chip burning device". The intermediate conveying mechanism and the material receiving conveying mechanism in the embodiment can refer to a chip conveying device or a chip transfer device in the prior art.

Referring to fig. 1 to 4, the working principle of the high-efficiency rotating disc type chip burning device of the present embodiment is as follows:

firstly, an intermediate carrying mechanism in a chip supply module 1 sequentially conveys a plurality of groups of chips to be burned to a supply position 18 of a feeding turntable 8 until the feeding turntable 8 is filled with the chips; in the processing process, as long as the feeding fixing seat 13 on the supply position 18 is empty, the intermediate carrying mechanism can carry the chip to be burned to the feeding fixing seat 13. Then the vertical conveying mechanism sucks up the group of chips, conveys the group of chips to a burning seat 17 of a burning unit corresponding to the conveying position on a burning turntable 16 under the driving of a transverse driving mechanism, and simultaneously starts to perform information recording (burning) on the group of chips; then, the first rotation driving mechanism drives the burning turntable 16 to rotate one grid, so that the other adjacent group of burning units rotates to the positions corresponding to the chip supply position 18 and the chip receiving position along with the burning turntable 16, and the next group of chips positioned at the supply position 18 of the chip supply module 1 are conveyed to the corresponding burning seats 17 in the same way, so that the burning seats 17 on the burning turntable 16 are continuously filled, and information is recorded on the chips in the rotation process of the burning turntable 16; when the first group of chips completing information input rotates to the initial position along with the burning turntable 16, the vertical carrying mechanism carries the group of chips completing information input to the laser fixing seat 12 of the laser turntable 9, and so on until the laser turntable 9 and the detection turntable 10 are filled with chips. At the moment, each group of vertical conveying mechanisms corresponds to the supply position 18 of the supply transition assembly 2, the conveying position 15 of the information input assembly 3, the laser transfer position 21 of the laser coding assembly 4, the detection transfer position 22 of the information detection assembly 5 and the material receiving position of the material receiving transition assembly 6 one by one; meanwhile, the corresponding vertical carrying mechanisms suck up the chips at the same time, the transverse driving mechanism drives all the vertical carrying mechanisms to transversely move one grid (transversely move one station), so that all the sucked up chips are moved to the positions corresponding to the next chip processing position (or material receiving position) from the last chip processing position (or supply position 18), and then the vertical carrying mechanisms accurately place the chips at the corresponding positions, so that the carrying and transferring of all the chips can be completed, and the fixed grid conveying of the chips is realized; in the process, a group of chips to be burned on the supply position 18 is refilled at the conveying position 15 of the information recording component 3, the chips at the detection transfer position 22 are conveyed to the receiving position of the receiving packaging module 7, and finally the chips at the receiving position are conveyed to the blank belt of the receiving packaging module by the receiving conveying mechanism. The burning turntable, the detection turntable and the like are connected with an external main power supply and a main computer through a slip ring, so that power supply and communication are realized.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.

Claims (9)

1. An efficient rotating disc type chip burning device is characterized by comprising a chip supply module, a chip processing module, a carrying module and a material receiving and packaging module; the chip supply module is arranged at the upstream of the chip processing module and the material receiving and packaging module is arranged at the downstream of the chip processing module along the transverse moving direction of chip transfer; the conveying module comprises a vertical conveying mechanism arranged above the chip processing module and a transverse driving mechanism for driving the vertical conveying mechanism to transversely move; the chip processing module comprises an information input assembly, the information input assembly comprises a burning turntable and a first rotation driving mechanism for driving the burning turntable to rotate on the horizontal plane, a plurality of groups of burning units are arranged on the burning turntable and are arranged at equal intervals along the circumferential direction of the burning turntable, and each group of burning units comprises a single burning seat or a plurality of burning seats arranged along the radial direction of the burning turntable; the vertical carrying mechanism is provided with a plurality of suction ports corresponding to the burning seats of each group of burning units; the burning turntable is provided with a carrying position corresponding to the vertical carrying mechanism of the carrying module, and the burning seat corresponding to the carrying position is positioned on the same straight line with the supply position of the chip supply module and the receiving position of the receiving packaging module.

2. The efficient turntable type chip burning device according to claim 1, wherein the processing module further comprises a plurality of chip processing assemblies, the plurality of chip processing assemblies and the information input assembly are arranged along a transverse direction, and chip fixing positions on the plurality of chip processing assemblies are in the same line with the supply position and the receiving position; the chip processing assemblies, the information input assembly, the supply position and the receiving position are arranged at equal intervals, and the intervals are fixed distances; the vertical carrying mechanisms on the carrying module are provided with a plurality of groups, the plurality of groups of vertical carrying mechanisms are arranged at equal intervals along the transverse direction, and the interval between two adjacent groups of vertical carrying mechanisms is equal to the stop motion distance.

3. The efficient rotating disc type chip burning device according to claim 2, wherein the carrying module further comprises a moving plate, the plurality of vertical carrying mechanisms arranged at equal intervals are arranged on the moving plate, and a power output shaft of the horizontal driving mechanism is connected with the moving plate; every vertical handling mechanism of group all includes the vertical actuating mechanism who is used for absorbing the absorption pole of chip and drives and absorbs the pole and carry out vertical motion, it is connected with negative pressure device through the connecting pipe to absorb the pole, it constitutes to absorb the lower tip of pole absorb the port.

4. The efficient rotating disk type chip burning device according to claim 2, wherein the plurality of chip processing assemblies comprise a laser coding assembly, and the laser coding assembly is arranged at the downstream of the information recording assembly; the laser coding assembly comprises a laser turntable and a second rotation driving mechanism for driving the laser turntable to rotate; the laser turntable is provided with a plurality of groups of laser units, the laser units are arranged at equal intervals along the circumferential direction of the laser turntable, and each group of laser units comprises a plurality of laser fixing seats arranged along the radial direction of the laser turntable; and the laser fixing seat corresponding to the vertical carrying mechanism on the laser turntable is positioned on the same straight line with the carrying position.

5. The efficient turntable type chip burning device as claimed in claim 2 or 4, wherein the plurality of chip processing assemblies comprise an information detection assembly disposed downstream of the laser coding assembly; the information detection assembly comprises a detection turntable and a third rotation driving mechanism for driving the detection turntable to rotate; a plurality of groups of detection units are arranged on the detection turntable at equal intervals along the circumferential direction of the detection turntable, and each group of detection units comprises a plurality of detection fixing seats arranged along the radial direction of the detection turntable; and the detection fixing seat corresponding to the vertical conveying mechanism on the detection turntable is positioned on the same straight line with the conveying position.

6. The efficient turntable type chip burning device as claimed in claim 1 or 2, wherein the chip supply module comprises a supply transition assembly and an intermediate handling mechanism, the supply transition assembly is disposed upstream of the information recording assembly; the feeding transition assembly comprises a feeding turntable and a fourth rotation driving mechanism for driving the feeding turntable to rotate; a plurality of groups of feeding units are arranged on the feeding turntable, the groups of feeding units are arranged at equal intervals along the circumferential direction of the feeding turntable, and each group of feeding units comprises a plurality of feeding fixing seats arranged along the radial direction of the feeding turntable; the feeding position is arranged on the feeding turntable; the middle carrying mechanism comprises a feeding suction assembly and a feeding driving mechanism for driving the feeding suction assembly to move.

7. The efficient turntable type chip burning device as claimed in claim 1 or 2, wherein the material receiving packaging module comprises a material receiving transition assembly and a material receiving and carrying mechanism; the receiving transition assembly comprises a receiving frame, a plurality of receiving fixing seats and a fifth rotary driving mechanism for driving the receiving fixing seats to rotate, the receiving fixing seats are rotatably arranged on the receiving frame, and the receiving fixing seats form receiving positions; the material receiving and carrying mechanism comprises a material receiving and sucking assembly and a material receiving driving mechanism for driving the material receiving and sucking assembly to move.

8. The efficient turntable type chip burning device of claim 1, wherein there are two burning seats in each set of burning units.

9. The efficient rotating disk type chip burning device according to claim 5, wherein there are four sets of detecting units on the detecting rotating disk.

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