CN111874316A - Two-in-one high-speed braider - Google Patents
Two-in-one high-speed braider Download PDFInfo
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- CN111874316A CN111874316A CN202010850366.3A CN202010850366A CN111874316A CN 111874316 A CN111874316 A CN 111874316A CN 202010850366 A CN202010850366 A CN 202010850366A CN 111874316 A CN111874316 A CN 111874316A
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- 238000001514 detection method Methods 0.000 claims abstract description 40
- 239000000463 material Substances 0.000 claims abstract description 37
- 230000002950 deficient Effects 0.000 claims description 56
- 239000000523 sample Substances 0.000 claims description 40
- 238000007789 sealing Methods 0.000 claims description 39
- 238000012937 correction Methods 0.000 claims description 34
- 238000007664 blowing Methods 0.000 claims description 33
- 238000012360 testing method Methods 0.000 claims description 33
- 238000004806 packaging method and process Methods 0.000 claims description 10
- 238000012216 screening Methods 0.000 claims description 9
- 238000005520 cutting process Methods 0.000 claims description 4
- 238000003825 pressing Methods 0.000 claims description 3
- 238000009954 braiding Methods 0.000 abstract description 20
- 230000002146 bilateral effect Effects 0.000 abstract description 6
- 238000004519 manufacturing process Methods 0.000 abstract description 6
- 239000000047 product Substances 0.000 description 46
- 230000001502 supplementing effect Effects 0.000 description 9
- 238000000034 method Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 238000009826 distribution Methods 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 230000001737 promoting effect Effects 0.000 description 2
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000009471 action Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 239000003292 glue Substances 0.000 description 1
- 238000009940 knitting Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 239000013589 supplement Substances 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B15/00—Attaching articles to cards, sheets, strings, webs, or other carriers
- B65B15/04—Attaching a series of articles, e.g. small electrical components, to a continuous web
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Abstract
The invention relates to a two-in-one high-speed braider, which is used for braiding SMD components and comprises a circular vibration disc, two flow rails and two detection braiding work stations, wherein one ends of the two flow rails are connected with the circular vibration disc, the other ends of the two flow rails are respectively connected with the two detection braiding work stations, and the circular vibration disc supplies materials for the two detection braiding work stations through the two flow rails. The scheme that a circular vibration disc is provided with two flow rails is adopted, the circular vibration disc supplies materials for two detection braiding workstations through the two flow rails, the two detection braiding workstations are preferably distributed in a bilateral staggered and symmetrical structure, two conventional braiding machines in the past are integrated on one machine, bilateral simultaneous working on one machine is achieved, therefore, the occupied space is saved, the production cost and the input cost of equipment are reduced, meanwhile, the production efficiency is improved, and the performance of the whole machine is obviously improved.
Description
Technical Field
The invention relates to the technical field of braid packaging of electronic components, in particular to a two-in-one high-speed braider.
Background
After the color separation and light splitting treatment is performed on the SMD components, in order to facilitate collecting statistics and other processes such as welding, the SMD components need to be uniformly arranged according to the pin direction, subjected to electrical test, subjected to bottom surface pin and surface appearance detection, and subjected to taping packaging. The existing full-automatic braider (also called a detection braiding workstation) generally comprises a vibration disc, a flow rail, an indexing disc component, a correction clamp component, a probe testing component, a defective product blowing component, a rotary direction adjusting component, a bottom vision component, a surface vision component, an automatic material taking and supplementing component, a sealing component and a material receiving component.
The vibration disc can automatically feed materials and convey the SMD components to the tail end (discharge port) of the runner one by one, and the indexing disc part is used for taking the SMD components out one by one from the tail end of the runner (the front surface and the light-emitting surface of the SMD components are absorbed by using a vacuum suction head, and the surface is smooth and suitable for absorption because the surface is a plane) and operating to each station; the correcting clamp part is used for correcting the position of the SMD component sucked by the index plate part; the probe test component is used for performing electrical test on the SMD components so as to screen defective products and obtain the direction of the electrode of the SMD components; the defective product blowing component is used for blowing the SMD components with the unqualified electrical tests away from the index plate component; the rotating direction-adjusting component is used for rotating the SMD components with the opposite electrodes for 180 degrees in direction adjustment in the electrical property test; the bottom vision component is used for carrying out machine vision automatic detection on the bottom appearance of the SMD component and screening defective products; the surface vision component is used for carrying out machine vision automatic detection on the surface appearance of the SMD component and screening defective products, the tape sealing component is used for carrying out tape packaging on the SMD component, the surface vision component is arranged above the middle part of the tape sealing component (the surface appearance cannot be detected because the index plate component absorbs the front surface of the SMD component, and the surface appearance can only be detected when the SMD component is placed on the tape sealing component and the front surface is exposed), and when the surface appearance of the SMD component entering a tape sealing area is detected to be defective, the automatic material feeding component is used for taking out the defective SMD component and putting in a qualified SMD component; and the receiving component is used for collecting the SMD component coil materials after the braid is packaged. The full-automatic braider occupies a large area, has low yield which is generally 40-45K/H and needs to be improved.
Disclosure of Invention
The invention aims to provide a two-in-one high-speed braider which occupies small area and has high braiding efficiency.
The technical scheme provided by the invention is as follows: the utility model provides a two unification high-speed braiders for to SMD components and parts braid, includes circular vibration dish, two rails, two detect the braid workstation, two rails one end are connected with circular vibration dish, and the other end is connected with two detect the braid workstation respectively, and circular vibration dish is two detect the braid workstation feed simultaneously through two rails.
The detection braid working station comprises an indexing disc component, a first correction clamp component, a probe testing component, a first defective product blowing component, a rotary direction adjusting component, a second correction clamp component, a bottom vision component, a surface vision component, a second defective product blowing component, a tape sealing component and a material receiving component; the first correcting clamp part, the probe testing part, the first defective product blowing part, the rotary direction adjusting part, the second correcting clamp part, the bottom vision part and the second defective product blowing part are sequentially arranged around the dividing plate part to form a plurality of stations; the index plate part is used for taking out SMD components one by one from the tail end of the runner and operating to each station; the first correcting clamp part is used for correcting the position of the SMD component sucked by the index plate part; the probe testing component is used for performing electrical testing on the SMD components so as to screen defective products and judge the direction of electrodes; the first defective product blowing component is used for blowing the SMD components which are unqualified in electrical test away from the index plate component; the rotating direction-adjusting component is used for rotating the SMD components with the opposite electrodes for 180 degrees in direction adjustment in the electrical property test; the second correction clamp part is used for correcting the position of the SMD component in the rotation direction again; the bottom vision component is used for carrying out machine vision automatic detection on the bottom appearance of the SMD component and screening defective products; the surface vision component is used for carrying out machine vision automatic detection on the surface appearance of the SMD component and screening defective products; the second defective product blowing component is used for blowing off the SMD components which are unqualified in the bottom appearance detection and the SMD components which are unqualified in the surface appearance detection from the index plate component; the surface vision component is arranged above a feeding port of the sealing component, the sealing component is used for carrying out tape packaging on the SMD component, when the indexing disc component places the SMD component at the feeding port of the sealing component, the sealing component moves the SMD component to the position below the surface vision component for surface appearance detection, when the detection is qualified, the tape packaging is carried out, when the detection is unqualified, the sealing component returns the SMD component to the feeding port, and the indexing disc component takes the SMD component unqualified product away from the feeding port of the sealing component; and the receiving component is used for collecting the SMD component coil materials after the braid is packaged.
The dividing plate component comprises an dividing plate, a dividing plate fixing shaft, a cam divider and vacuum suction nozzles, wherein the dividing plate fixing shaft is fixed on a rotating shaft of the cam divider, the dividing plate is fixed on the dividing plate fixing shaft, and the vacuum suction nozzles are uniformly distributed and fixed on the dividing plate.
The first correction clamp part and the second correction clamp part respectively comprise a correction fixing base, a correction motor and a correction assembly, the correction motor fixing base is arranged on the correction fixing base, the correction motor is arranged on the correction motor fixing base, the correction assembly is also arranged on the correction motor fixing base, and the correction motor drives the correction assembly to work.
The probe testing component comprises a probe fixing base, a probe adjusting plate and a probe assembly, wherein the probe adjusting plate is fixed on the probe fixing base, and the probe assembly is fixed on the probe adjusting plate.
The rotary direction-adjusting component comprises a direction-adjusting fixed base, a direction-adjusting motor fixed base and a direction-adjusting assembly, the direction-adjusting motor fixed base is fixed on the direction-adjusting fixed base, the direction-adjusting motor is fixed on the direction-adjusting motor fixed base, the direction-adjusting assembly is also arranged on the direction-adjusting motor fixed base, and the direction-adjusting motor drives the direction-adjusting assembly to rotate 180 degrees.
The bottom vision part and the surface vision part respectively comprise a vision fixing base, a light source assembly and a CCD camera.
The tape sealing component comprises a carrier tape guide rail component, a tape sealing component and a tape cutting component.
The material receiving component comprises a material receiving motor fixing seat, a material clamping disc component, a material pressing component and a material receiving motor.
The invention has the beneficial effects that: the two-in-one high-speed braider adopts the scheme that a circular vibration disc is provided with two flow rails (also called two-in-one double-rail high-speed vibration disc), the circular vibration disc simultaneously supplies materials for two detection braiding workstations through the two flow rails, the two detection braiding workstations preferably adopt a distribution structure with bilateral dislocation symmetry, two conventional braiders in the past are integrated on one braider, the bilateral simultaneous work on one braider is realized, the occupied space is saved, the production cost and the input cost of equipment are reduced (partial equipment can be shared, such as a computer and a display), the production efficiency is improved, and the performance of the whole machine is obviously improved.
Drawings
FIG. 1 is a perspective view of the overall structure of an embodiment of the two-in-one high speed braider of the present invention;
FIG. 2 is a perspective view of a portion of the structure of an embodiment of the two-in-one high speed braider of the present invention;
FIG. 3 is a top view of the overall structure of an embodiment of the two-in-one high speed braider of the present invention;
FIG. 4 is a top view of a portion of a two-in-one high speed braider embodiment of the present invention;
FIG. 5 is a schematic perspective view of the indexing disk assembly of the present invention;
FIG. 6 is a schematic perspective view of the surface vision part, the belt sealing part and the receiving part according to the present invention;
FIG. 7 is a schematic perspective view of a probe test assembly according to the present invention;
FIG. 8 is a perspective view of a first alignment clip member according to the present invention;
fig. 9 is a perspective view of the direction-adjusting member of the present invention.
Wherein, 1, the dividing disc part; 11. an index plate; 12. the dividing plate is fixed on the shaft; 13. a cam divider; 14. a vacuum nozzle; 2. a first corrective clip member; 21. correcting the fixed base; 22. correcting the motor fixing seat; 23. correcting the motor; 24. a correction component; 3. a probe test part; 31. a probe fixing base; 32. a probe adjusting plate; 33. a probe assembly; 4. a first defective product blowing part; 5. a rotation direction adjusting component; 51. adjusting the direction of the fixed base; 52. a direction-adjusting motor; 53. a direction-adjusting motor fixing seat; 54. a direction adjusting component; 6. a second correction clip component; 7. a bottom vision component; 8. a surface vision component; 9. a second defective product blowing part; 91. a tape sealing member; 911. carrying a guide rail component; 912. a tape sealing assembly; 913. cutting the belt assembly; 92. a receiving member; 100. a circular vibrating disk; 200. a flow rail; 300. and detecting the braid workstation.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
As an embodiment of the two-in-one high-speed braider according to the present invention, the two-in-one high-speed braider is used for braiding SMD components, as shown in fig. 1 to 9, and includes a circular vibration tray 100, two flow rails 200, and two detection braiding stations 300, wherein one end of each of the two flow rails 200 is connected to the circular vibration tray 100, and the other end thereof is respectively connected to the two detection braiding stations 300, and the circular vibration tray 100 simultaneously supplies the two detection braiding stations 300 through the two flow rails 200.
The two-in-one high-speed braider adopts the scheme that one circular vibration disc 100 is provided with two flow rails 200 (also called two-in-one double-rail high-speed vibration disc), the circular vibration disc 100 simultaneously supplies materials to two detection braiding workstations 300 through the two flow rails 200, the two detection braiding workstations 300 preferably adopt a bilateral staggered symmetrical distribution structure, two conventional braiders are integrated on one machine in the past, bilateral simultaneous working on one machine is realized, therefore, the occupied space is saved, the production cost of equipment and the input cost (partial equipment can be shared, such as a computer and a display) are reduced, the production efficiency is improved, and the performance of the whole machine is obviously improved.
In the prior art, the automatic material taking and supplementing part is arranged above the middle of the tape sealing part, and is arranged at a position 20 particles behind the material inlet of the tape sealing part, and the material inlet cannot be returned after the appearance of the detected surface is unqualified, so that a defective product cannot be replaced by the automatic material taking and supplementing part, the automatic material taking and supplementing part generally absorbs the defective product by using transmission parts such as a guide rail, a belt and a motor and then supplements the defective product with the defective product, the whole action process is long in period, multiple in steps, long in time consumption, and seriously affects the yield, and the stability of a machine table is also affected.
In order to solve the problem, optimize the automatic material supplementing process and improve the material supplementing efficiency, in this embodiment, the detecting taping workstation 300 includes an index plate member 1, a first correcting clamp member 2, a probe testing member 3, a first defective product blowing member 4, a rotary direction adjusting member 5, a second correcting clamp member 6, a bottom vision member 7, a surface vision member 8, a second defective product blowing member 9, a sealing tape member 91 and a material receiving member 92; the first correcting clamp part 2, the probe testing part 3, the first defective product blowing part 4, the rotary direction adjusting part 5, the second correcting clamp part 6, the bottom vision part 7 and the second defective product blowing part 9 are sequentially arranged around the dividing plate part 1 to form a plurality of stations; the index plate part 1 is used for taking out SMD components one by one from the tail end of the flow rail 200 and operating to each station; the first correcting clamp part 2 is used for correcting the position of the SMD component sucked by the index part 1; the probe test component 3 is used for performing electrical test on SMD components so as to screen defective products and judge the direction of electrodes; the first defective product blowing component 4 is used for blowing the SMD components which are unqualified in the electrical test away from the index plate component 1; the rotating direction-adjusting component 5 is used for rotating the SMD components with the opposite electrodes for 180 degrees in direction adjustment in the electrical test; the second correcting clamp part 6 is used for correcting the position of the SMD component with the rotation direction adjusted again; the bottom vision component 7 is used for performing machine vision automatic detection on the bottom appearance of the SMD component and screening defective products; the surface vision component 8 is used for carrying out machine vision automatic detection on the surface appearance of the SMD component and screening defective products; the second defective product blowing component 9 is used for blowing off the SMD components which are unqualified in the bottom appearance detection and the SMD components which are unqualified in the surface appearance detection from the index plate component 1; the surface vision part 8 is arranged above a feeding port of the sealing part 91, the sealing part 91 is used for carrying out tape packaging on the SMD component, when the indexing disc part 1 places the SMD component at the feeding port of the sealing part 91, the sealing part 91 moves the SMD component to the position below the surface vision part 8 for carrying out surface appearance detection, when the detection is qualified, the tape packaging is carried out, when the detection is unqualified, the sealing part 91 returns the SMD component to the feeding port, and the indexing disc part 1 takes the SMD component defective product away from the feeding port of the sealing part 91; the receiving member 92 collects the SMD component roll after the tape package.
In the present embodiment, the indexing disk member 1 includes an indexing disk 11, an indexing disk fixing shaft 12, a cam divider 13, and vacuum suction nozzles 14, the indexing disk fixing shaft 12 is fixed on a rotating shaft of the cam divider 13, the indexing disk 11 is fixed on the indexing disk fixing shaft 12, and the vacuum suction nozzles 14 are uniformly distributed and fixed on the indexing disk 11. The number of vacuum nozzles 14 is greater than the number of work stations, so that there are excess vacuum nozzles that are free to suck off the defective products detected by the surface vision components 8.
In the present embodiment, each of the first correction clip member 2 and the second correction clip member 6 includes a correction fixing base 21, a correction motor fixing base 22, a correction motor 23, and a correction assembly 24, the correction motor fixing base 22 is disposed on the correction fixing base 21, the correction motor 23 is disposed on the correction motor fixing base 22, the correction assembly 24 is also disposed on the correction motor fixing base 22, and the correction motor 23 drives the correction assembly 24 to operate.
In this embodiment, the probe test part 3 includes a probe fixing base 31, a probe adjustment plate 32, and a probe assembly 33, the probe adjustment plate 32 is fixed on the probe fixing base 31, and the probe assembly 33 is fixed on the probe adjustment plate 32.
In this embodiment, the direction-adjusting component 5 includes a direction-adjusting fixing base 51, a direction-adjusting motor 52, a direction-adjusting motor fixing base 53, and a direction-adjusting assembly 54, the direction-adjusting motor fixing base 53 is fixed on the direction-adjusting fixing base 51, the direction-adjusting motor 52 is fixed on the direction-adjusting motor fixing base 53, the direction-adjusting assembly 54 is also arranged on the direction-adjusting motor fixing base 53, and the direction-adjusting motor 52 drives the direction-adjusting assembly 54 to rotate 180 degrees.
In the present embodiment, the bottom vision part 7 and the surface vision part 8 each include a vision fixing base, a light source assembly, and a CCD camera.
In this embodiment, the tape sealing member 91 includes a carrier tape guide assembly 911, a tape sealing assembly 912, and a tape cutting assembly 913.
In this embodiment, the material receiving component 92 includes a material receiving motor fixing seat, a material clamping disc assembly, a material pressing assembly and a material receiving motor.
The present application does not make much improvement to the index member, the alignment clip member, the probe test member, the defective product blowing member, the rotary direction adjusting member, the bottom vision member, the surface vision member, the tape sealing member and the receiving member, basically following the structure in the prior art, and therefore is not described in detail.
The following is a brief description of the working process of the detection braiding station: the circular vibration disk 100 and the two rails 200 are mainly used for sending SMD components to the front ends of the rails 200 one by one, and each time one of the index disk parts 1 is taken away, one of the SMD components is rapidly supplemented; the index plate part 1 is used for picking and placing SMD components at the front end of the runner 200 one by one and operating to each station (more specifically, the index plate 11 is driven by the cam divider 13 to lift, and the vacuum suction nozzle 14 adsorbs or releases the SMD components); the first correcting clamp part 2 corrects the position of the SMD component sucked by the index plate part 1, so that the next station can be performed smoothly; the probe testing component 3 mainly has the function of testing SMD components to distinguish defective products, if the SMD components are defective products, the next station does not work, and if the SMD components are defective products, the defective products are blown away and collected by the first defective product blowing component 4 at the next station; the rotating direction-adjusting component 5 is used for arranging the SMD components in a unified electrode direction, the electrode direction of the SMD components can be known in an electrical property test, if the electrode direction is correct, the next station does not work, if the electrode direction is reverse, the next station can rotate and adjust the direction, and after the rotating and adjusting direction, the positioning precision is reduced, so that the second correcting clamp component 6 is needed to be repositioned; the bottom vision part 7 is used for detecting the appearance of the bottom surface of the SMD component, particularly the shape and the area of pins, screening defective products, not performing braiding and feeding, but continuously rotating to the second defective product blowing part 9, blowing and collecting, and performing braiding and feeding only on the defective products; the surface vision part 8 detects the surface appearance (fluorescent glue, light-emitting chips and the like) of the SMD component, screens defective products, enters the tape sealing part 91 for tape knitting packaging if the SMD component is a defective product, returns the defective product to a feeding port if the SMD component is a defective product, absorbs the defective product by using a spare vacuum suction nozzle 14 in the index plate part 1 (the vacuum suction nozzle is a part existing in the existing index plate part and is not newly added), then continues to operate the index plate part 1, and puts the next new SMD component into a carrier tape of the tape sealing part 91; the tape sealing part 91 packages the SMD component tape; the receiving member 92 collects the packaged SMD component roll.
The two-in-one high-speed braider cancels the automatic material taking and supplementing component, changes the detection position of the surface vision component 8, optimizes the mechanism arrangement, improves the supplementing flow, further simplifies the structure, saves time and improves the supplementing efficiency.
In this application, the output of braider is very big partly to depend on cam divider's performance, and it is especially important to improve cam divider performance, and the cam divider up-and-down motion stroke in the past is 3.8mm, and in order to save time, this application reduces cam divider's up-and-down stroke to 2.6mm, and efficiency also obtains effectively promoting. The unilateral conveying ability of circular vibration dish can reach 65K/H, and the whole braider's whole conveying ability reaches 130K/H, compares prior art, and speed has obtained promoting by a wide margin.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.
Claims (9)
1. The utility model provides a two unification high speed braiders for to SMD components and parts braid, its characterized in that, includes circular vibration dish, two runners, two detect the braid workstation, two runners one end is connected with circular vibration dish, and the other end is connected with two respectively detect the braid workstation, and circular vibration dish is two through two runners feed for two detect the braid workstations simultaneously.
2. The two-in-one high-speed braider according to claim 1, characterized in that the detecting braider station comprises an index plate part, a first correcting clamp part, a probe test part, a first defective product blowing part, a rotary direction adjusting part, a second correcting clamp part, a bottom vision part, a surface vision part, a second defective product blowing part, a tape sealing part and a material receiving part; the first correcting clamp part, the probe testing part, the first defective product blowing part, the rotary direction adjusting part, the second correcting clamp part, the bottom vision part and the second defective product blowing part are sequentially arranged around the dividing plate part to form a plurality of stations; the index plate part is used for taking out SMD components one by one from the tail end of the runner and operating to each station; the first correcting clamp part is used for correcting the position of the SMD component sucked by the index plate part; the probe testing component is used for performing electrical testing on the SMD components so as to screen defective products and judge the direction of electrodes; the first defective product blowing component is used for blowing the SMD components which are unqualified in electrical test away from the index plate component; the rotating direction-adjusting component is used for rotating the SMD components with the opposite electrodes for 180 degrees in direction adjustment in the electrical property test; the second correction clamp part is used for correcting the position of the SMD component in the rotation direction again; the bottom vision component is used for carrying out machine vision automatic detection on the bottom appearance of the SMD component and screening defective products; the surface vision component is used for carrying out machine vision automatic detection on the surface appearance of the SMD component and screening defective products; the second defective product blowing component is used for blowing off the SMD components which are unqualified in the bottom appearance detection and the SMD components which are unqualified in the surface appearance detection from the index plate component; the surface vision component is arranged above a feeding port of the sealing component, the sealing component is used for carrying out tape packaging on the SMD component, when the indexing disc component places the SMD component at the feeding port of the sealing component, the sealing component moves the SMD component to the position below the surface vision component for surface appearance detection, when the detection is qualified, the tape packaging is carried out, when the detection is unqualified, the sealing component returns the SMD component to the feeding port, and the indexing disc component takes the SMD component unqualified product away from the feeding port of the sealing component; and the receiving component is used for collecting the SMD component coil materials after the braid is packaged.
3. The two-in-one high-speed braider according to claim 2, wherein the index plate member includes an index plate, an index plate fixing shaft, a cam divider and vacuum suction nozzles, the index plate fixing shaft is fixed on a rotating shaft of the cam divider, the index plate is fixed on the index plate fixing shaft, and the vacuum suction nozzles are uniformly distributed and fixed on the index plate.
4. The two-in-one high-speed braider according to claim 2, wherein the first correcting clamp part and the second correcting clamp part each comprise a correcting fixed base, a correcting motor fixing seat, a correcting motor and a correcting component, the correcting motor fixing seat is arranged on the correcting fixed base, the correcting motor is arranged on the correcting motor fixing seat, the correcting component is also arranged on the correcting motor fixing seat, and the correcting motor drives the correcting component to work.
5. The two-in-one high-speed braider of claim 2, wherein the probe testing component includes a probe fixing base, a probe adjusting plate fixed on the probe fixing base, and a probe assembly fixed on the probe adjusting plate.
6. The two-in-one high-speed braider according to claim 2, characterized in that the rotation direction-adjusting component comprises a direction-adjusting fixed base, a direction-adjusting motor fixed base and a direction-adjusting assembly, wherein the direction-adjusting motor fixed base is fixed on the direction-adjusting fixed base, the direction-adjusting motor is fixed on the direction-adjusting motor fixed base, the direction-adjusting assembly is also arranged on the direction-adjusting motor fixed base, and the direction-adjusting motor drives the direction-adjusting assembly to rotate 180 degrees.
7. The two-in-one high speed braider of claim 2, wherein the bottom vision component and the surface vision component each include a vision mount, a light source assembly, and a CCD camera.
8. The two-in-one high speed braider of claim 2, wherein the taping feature includes a carrier rail assembly, a taping assembly and a tape cutting assembly.
9. The two-in-one high-speed braider of claim 2, wherein the material receiving component comprises a material receiving motor fixing seat, a material clamping disc component, a material pressing component and a material receiving motor.
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CN112499357A (en) * | 2020-11-10 | 2021-03-16 | 昆山展亮电子材料有限公司 | Special jacking type decollator transmission unit for carrier band |
CN112874862A (en) * | 2021-01-29 | 2021-06-01 | 深圳市辉睿达科技有限公司 | Semiconductor braider structure without polarity rotating device |
CN113800027A (en) * | 2021-07-15 | 2021-12-17 | 江苏蓝沛新材料科技有限公司 | Integrally-formed inductive device test belt mounting system and method |
CN115258236A (en) * | 2022-08-09 | 2022-11-01 | 苏州佳祺仕信息科技有限公司 | Packaging equipment |
CN115258273A (en) * | 2022-08-09 | 2022-11-01 | 苏州佳祺仕信息科技有限公司 | Packaging equipment, control method, device and equipment of packaging equipment and storage medium |
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CN112499357B (en) * | 2020-11-10 | 2024-03-05 | 昆山展亮电子材料有限公司 | Special jacking type divider transmission unit for carrier tape |
CN112874862A (en) * | 2021-01-29 | 2021-06-01 | 深圳市辉睿达科技有限公司 | Semiconductor braider structure without polarity rotating device |
CN113800027A (en) * | 2021-07-15 | 2021-12-17 | 江苏蓝沛新材料科技有限公司 | Integrally-formed inductive device test belt mounting system and method |
CN115258236A (en) * | 2022-08-09 | 2022-11-01 | 苏州佳祺仕信息科技有限公司 | Packaging equipment |
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