CN219029873U

CN219029873U - Chip inductor sensing packaging machine

Info

Publication number: CN219029873U
Application number: CN202223364319.1U
Authority: CN
Inventors: 胡杰; 于志江
Original assignee: Zhuhai Keris Technology Co ltd
Current assignee: Zhuhai Keris Technology Co ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-05-16
Anticipated expiration: 2032-12-15

Abstract

The utility model aims to provide a patch inductor packaging machine capable of simultaneously completing six-sided coplanarity AOI detection, electrical property detection, laser lettering and automatic packaging for patch inductors. The automatic packaging machine comprises a main machine table (1), wherein a feeding mechanism, a large turntable detection mechanism, a small turntable laser marking detection mechanism and an automatic packaging mechanism are uniformly arranged on the main machine table (1) in an adaptive mode, the feeding mechanism is connected with the large turntable detection mechanism, the large turntable detection mechanism is connected with the small turntable laser marking detection mechanism, and the small turntable laser marking detection mechanism is connected with the automatic packaging mechanism. The utility model is suitable for the field of chip inductance detection packaging.

Description

Chip inductor sensing packaging machine

Technical Field

The utility model relates to a chip inductor packaging machine.

Background

The chip inductor is also called as power inductor, high current inductor and surface mounting high power inductor, and has the characteristics of miniaturization, high quality, high energy storage, low resistance and the like. In the production manufacturing process of the chip inductor, six-sided coplanarity AOI detection, electrical property detection, top surface laser marking and packaging are all necessary steps, but six-sided coplanarity AOI detection, electrical property detection, laser marking and automatic packaging of the chip inductor cannot be completed at the same time by using production detection equipment aiming at the chip inductor in the market at present, so that the design of equipment capable of completing six-sided coplanarity AOI detection, electrical property detection, laser marking and automatic packaging for the chip inductor is necessary.

Disclosure of Invention

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a patch inductance packaging machine capable of simultaneously completing six-sided coplanarity AOI detection, electrical detection, laser lettering and automatic packaging for patch inductance.

The technical scheme adopted by the utility model is as follows: the automatic packaging machine comprises a main machine table, wherein a feeding mechanism, a large turntable detection mechanism, a small turntable laser engraving detection mechanism and an automatic packaging mechanism are uniformly and adaptively arranged on the main machine table, the feeding mechanism is connected with the large turntable detection mechanism, the large turntable detection mechanism is connected with the small turntable laser engraving detection mechanism, and the small turntable laser engraving detection mechanism is connected with the automatic packaging mechanism.

The feeding mechanism comprises a feeding track, a lifting translation feeding manipulator and a feeding direct vibration track, wherein the feeding track and the feeding direct vibration track are respectively arranged on the host computer platform in an adaptive manner, and the lifting translation feeding manipulator is arranged on the host computer platform in an adaptive manner and is movably arranged between the feeding track and the feeding direct vibration track.

The large turntable detection mechanism comprises a multi-station material sucking turntable device, the multi-station material sucking turntable device comprises a fixing frame and a multi-station material sucking turntable, the fixing frame is adapted and fixedly arranged on a host computer bench, the multi-station material sucking turntable is connected to the fixing frame through a rotating shaft in an adapting mode, a plurality of vacuum station suction nozzles are uniformly adapted on the multi-station material sucking turntable, the large turntable detection mechanism further comprises a product correction device, a direct current resistance detection device, an inductance test device, a front automatic optical detection device, a back automatic optical detection device, a first product correction rotating device, a left automatic optical detection device, a right automatic optical detection device, a bottom automatic optical detection device, a suction nozzle cleaning device and an appearance detection defective product blanking device, the upper uniform adaptation of the multi-station material sucking turntable is provided with a plurality of vacuum station suction nozzles, the discharging end of the upper material loading direct vibration track is adapted in the host computer bench and is arranged in a position of the vacuum station suction nozzles in an adapting mode, the vacuum station suction nozzles are arranged below the vacuum station cleaning device, and the appearance detection defective products are arranged below the vacuum station cleaning device.

The small turntable laser marking detection mechanism comprises a multiplex position object turntable, a top surface laser marking device, a product top surface automatic optical detection device, a top surface detection qualified product blanking conveying manipulator, a top surface detection unqualified product blanking manipulator and a top surface detection unqualified product placement tray, wherein a plurality of product placement seats are uniformly adapted on the multiplex position object turntable, the top surface laser marking device, the product top surface automatic optical detection device, the top surface detection qualified product blanking conveying manipulator and the top surface detection unqualified product blanking manipulator are sequentially arranged along the circumferential direction of the multiplex position object turntable and respectively correspond to the adaptation in the upper part of the product placement seats, and the appearance detection qualified product discharging station is adapted to one side of the top surface laser marking device and corresponds to the product placement seats.

The automatic packaging mechanism comprises a carrier tape track table, a packaging adhesive tape feeding wheel set, a double-stroke hot-pressing packaging device and a carrier tape receiving wheel set, wherein the carrier tape track table is adapted to the host computer table, the packaging adhesive tape feeding wheel set, the double-stroke hot-pressing packaging device and the carrier tape receiving wheel set are sequentially adapted to the carrier tape track table, two ends of the carrier tape track table are respectively provided with a carrier tape driven driving wheel, the head end of the carrier tape track table is provided with a first carrier tape pressing wheel, the first carrier tape pressing wheel is adapted to move and is arranged at the head end above the carrier tape driven driving wheels, two carrier tape limiting guide tools are adapted to the carrier tape driven wheels, each carrier tape limiting guide tool comprises a limiting guide plate and a guide plate translation slide rail, the two guide plates are adapted to be parallel and fixedly arranged on the carrier tape track table, two ends of each limiting guide plate are respectively and movably arranged on the two guide plate translation slide rails, the carrier tape guide plates are provided with two guide plates with guide holes, and the carrier tape is provided with a material carrying stop guide plate positioning groove, and the carrier tape positioning groove is arranged on the carrier tape guide plate positioning groove, and the carrier tape positioning groove is positioned on the carrier tape positioning groove.

The packaging adhesive tape feeding wheel set comprises a wheel set supporting plate, and a packaging adhesive tape roll placing wheel, a packaging adhesive tape horizontal tensioning wheel and a packaging adhesive tape vertical tensioning wheel are sequentially arranged on the wheel set supporting plate.

The double-stroke hot-pressing packaging device comprises a hot-pressing supporting frame, a first lifting cylinder is arranged at the upper section of the hot-pressing supporting frame, lifting moving parts are fixedly connected to the bottom output ends of the first lifting cylinders, the lifting moving parts are movably arranged on the hot-pressing supporting frame through lifting guide rail adaptation, a hot-pressing cutter outer cover body is fixedly connected to the bottom of the lifting moving parts, a second lifting cylinder is fixedly arranged on the lifting moving parts through a connecting plate, hot-pressing cutters are connected to the bottom output ends of the second lifting cylinders in an adaptation mode, the hot-pressing cutters are adapted to the hot-pressing cutter outer cover body, the hot-pressing cutter outer cover body is movably arranged above the rear sections of the two limiting guide plates, and the hot-pressing cutters are movably arranged above the carrier band in a space.

The carrier band material collecting wheel group comprises a carrier band material collecting supporting plate, the carrier band material collecting supporting plate is fixedly arranged at the tail end of the carrier band track platform, a carrier band material collecting wheel, a carrier band material collecting motor, a carrier band material collecting tensioning wheel and a second carrier band compression wheel are respectively arranged on the carrier band material collecting supporting plate, the carrier band material collecting wheel is fixedly connected to the output end of the carrier band material collecting motor, and the second carrier band compression wheel is suitably arranged at the tail end above the carrier band driven driving wheel.

The beneficial effects are that: in the utility model, the direct current resistance detection and the inductance detection of the chip inductance product and the automatic optical detection of the four sides and the bottom surface are completed through the large turntable detection mechanism; the laser engraving detection mechanism of the small turntable is used for completing the automatic optical detection of the top surface and the laser engraving of the chip inductor; and finally, completing the heat-sealing packaging of the loading belt of the inductance patch through an automatic packaging mechanism. Thereby realize six coplanarity AOI detection, electrical property detection, laser inscription and automatic packing face collection in an organic whole with the paster inductance, effectively improve the detection packaging efficiency of paster inductance, also guaranteed the stability of the detection quality of paster inductance.

Drawings

FIG. 1 is a schematic perspective view of the whole of the present utility model;

FIG. 2 is a schematic overall top view of the present utility model;

FIG. 3 is a schematic diagram of a large turntable detecting mechanism according to the present utility model;

fig. 4 is a schematic view of the structure of the automatic packing mechanism in the present utility model.

Detailed Description

As shown in fig. 1, 2, 3 and 4, the utility model comprises a main machine table 1, wherein a feeding mechanism, a large turntable detecting mechanism, a small turntable laser engraving detecting mechanism and an automatic packaging mechanism are uniformly and adaptively arranged on the main machine table 1, the feeding mechanism is connected with the large turntable detecting mechanism, the large turntable detecting mechanism is connected with the small turntable laser engraving detecting mechanism, and the small turntable laser engraving detecting mechanism is connected with the automatic packaging mechanism.

The feeding mechanism comprises a feeding track 21, a lifting translation feeding mechanical arm 22 and a feeding direct vibration track 23, wherein the feeding track 21 and the feeding direct vibration track 23 are respectively arranged on the main machine table 1 in an adaptive manner, and the lifting translation feeding mechanical arm 22 is arranged on the main machine table 1 in an adaptive manner and is movably arranged between the feeding track 21 and the feeding direct vibration track 23 in an adaptive manner.

The large turntable detection mechanism comprises a multi-station material sucking turntable device, the multi-station material sucking turntable device comprises a fixing frame 31 and a multi-station material sucking turntable 32, the fixing frame 31 is adapted and fixedly arranged on a main machine table 1, the multi-station material sucking turntable 32 is adapted and rotatably connected to the fixing frame 31 through a rotating shaft 311, a plurality of vacuum station suction nozzles 321 are uniformly adapted and arranged on the multi-station material sucking turntable 32, the large turntable detection mechanism further comprises a product correction device 41, a direct current resistance detection device 42, an inductance test device 43, a front automatic optical detection device 44, a back automatic optical detection device 45, a first product correction rotating device 46, a left automatic optical detection device 47, a right automatic optical detection device 48, a bottom automatic optical detection device 49, a suction nozzle cleaning device 491 and an appearance detection defective product blanking device 492, a feeding station 40 is arranged between the appearance detection defective product blanking device 492 and the product correction station 41, a discharge end of the feeding direct vibration track 23 is adapted and arranged in the main machine table 1 along the circumferential direction of the multi-station material sucking turntable 32 and uniformly corresponds to the positions of the plurality of vacuum station suction nozzles 321, and the discharge end of the feeding direct vibration track 23 is adapted and arranged between the vacuum station 40 and the vacuum station cleaning device 491 and the vacuum station device 493.

The small turntable laser marking detection mechanism comprises a multiplex position object turntable 51, a top surface laser marking device 52, a product top surface automatic optical detection device 53, a top surface detection qualified product discharging and conveying manipulator 54, a top surface detection unqualified product discharging manipulator 55 and a top surface detection unqualified product placing tray 56, wherein a plurality of product placing seats 511 are uniformly and adaptively arranged on the multiplex position object turntable 51, the top surface laser marking device 52, the product top surface automatic optical detection device 53, the top surface detection qualified product discharging and conveying manipulator 54 and the top surface detection unqualified product discharging manipulator 55 are sequentially arranged along the circumferential direction of the multiplex position object turntable 51 and respectively correspondingly arranged above the product placing seats 511, an appearance detection qualified product discharging station 493 is adaptively arranged on one side of the top surface laser marking device 52 and corresponds to the product placing seats 511, and the top surface detection unqualified product placing tray 56 is adaptively arranged on one side of the top surface detection unqualified product discharging manipulator 55. In this embodiment, the top surface detecting qualified product discharging and conveying manipulator 54 is a PPU product conveying manipulator.

The automatic packaging mechanism comprises a carrier tape track table 61, a packaging adhesive tape feeding wheel set, a double-stroke hot-pressing packaging device and a carrier tape receiving wheel set, wherein the carrier tape track table 61 is suitably arranged on a host table 1, the packaging adhesive tape feeding wheel set, the double-stroke hot-pressing packaging device and the carrier tape receiving wheel set are sequentially and adaptively arranged on the carrier tape track table 61, two ends of the carrier tape track table 61 are respectively provided with a carrier tape driven driving wheel 611, the head end of the carrier tape track table 61 is provided with a first carrier tape pressing wheel 612, the first carrier tape pressing wheel 612 is adaptively and movably arranged above the head end carrier tape driven driving wheel 611, a carrier tape limiting guide jig is adaptively arranged between the two carrier tape driven wheels 611, the carrier tape limiting guide jig comprises a limiting guide plate 613 and a guide plate translational slide rail 614, two guide plate 614 are adaptively and fixedly arranged on the carrier tape track table 61 in parallel, two ends of the two limiting guide plates 613 are respectively and movably arranged on the two guide plate translational slide rails 614, a carrier tape block 613 is reserved between the two limiting guide plates 613, a carrier tape is arranged on a carrier tape passing through a positioning hole 616 arranged on the upper surface of a carrier tape positioning mechanism, and a carrier tape is arranged on a carrier tape positioning hole 616, and a product is correspondingly arranged on a carrier tape positioning mechanism top surface 616. The distance between the two limit guide plates 613, i.e., the size of the carrier tape space, can be adjusted according to the actual width of the carrier tape.

The packaging adhesive tape feeding wheel set comprises a wheel set supporting plate 71, and a packaging adhesive tape roll placing wheel 72, a packaging adhesive tape horizontal tensioning wheel 73 and a packaging adhesive tape vertical tensioning wheel 74 are sequentially arranged on the wheel set supporting plate 71.

The double-stroke hot-pressing packaging device comprises a hot-pressing supporting frame 81, a first lifting cylinder 82 is arranged at the upper section of the hot-pressing supporting frame 81, a lifting moving part 83 is fixedly connected to the bottom output end of the first lifting cylinder 82, the lifting moving part 83 is movably arranged on the hot-pressing supporting frame 81 through a lifting guide rail in an adapting mode, a hot-pressing cutter outer cover body 85 is fixedly connected to the bottom of the lifting moving part 83 through a connecting plate 831, a second lifting cylinder 86 is fixedly arranged on the lifting moving part 83, a hot-pressing cutter is connected to the bottom output end of the second lifting cylinder 86 in an adapting mode, the hot-pressing cutter is arranged in the hot-pressing cutter outer cover body 85 in an adapting mode, the hot-pressing cutter outer cover body 85 is movably arranged above the rear sections of the two limiting guide plates 613 in an adapting mode, and the hot-pressing cutter is movably arranged above a carrier band in a space.

The carrier band material receiving wheel group comprises a carrier band material receiving supporting plate 91, the carrier band material receiving supporting plate 91 is fixedly arranged at the tail end of the carrier band track table 61, a carrier band material receiving wheel 92, a carrier band material receiving motor 95, a carrier band material receiving tensioning wheel 93 and a second carrier band compression wheel 94 are respectively arranged on the carrier band material receiving supporting plate 91, the carrier band material receiving wheel 92 is fixedly connected to the output end of the carrier band material receiving motor 95, and the second carrier band compression wheel 94 is suitably arranged above the tail end carrier band driven driving wheel 611.

The carrier tape 11 discharged from the discharge end of the external carrier tape is movably arranged in the space between the two limiting guide plates 613 of the carrier tape limiting guide jig, and is movably buckled on the carrier tape driven driving wheel 611 in an adapting way, the tail end of the carrier tape 11 is finally connected to the carrier tape receiving wheel 92, and the carrier tape receiving tensioning wheel 93 plays a role in receiving and tensioning the carrier tape 11. The tape on the package tape roll-setting wheel 72 is covered on the upper surface of the carrier tape 11 below the hot-press blade housing body 85.

The working principle of the utility model is as follows:

the external chip inductor 10 is fed from the feeding track 21, and the lifting and translation feeding manipulator 22 takes the chip inductor 10 in the feeding track 21 to the feeding direct vibration track 23. The feeding direct vibration rail 23 sends the patch inductor 10 to a discharging end, namely, is arranged below a vacuum station suction nozzle 321 of a feeding station 40 of the multi-station suction turntable 32. The vacuum station suction nozzle 321 sucks up the chip inductor 10, sends the chip inductor 10 to the product correction device 41 for position correction under the drive of the rotation of the multi-station suction turntable 32, sends the chip inductor to the direct current resistance detection device 42 for direct current resistance detection, sends the chip inductor to the inductance test device 43 for inductance test, sequentially sends the chip inductor to the front automatic optical detection device 44 and the back automatic optical detection device 45 for front detection and back detection, sequentially sends the chip inductor to the first product correction rotation device 46 for first position rotation and correction, and sequentially sends the chip inductor to the left automatic optical detection device 47, the right automatic optical detection device 48 and the bottom automatic optical detection device 49 for left detection, right detection and bottom detection. The qualified chip inductor 10 is transferred to the qualified product discharging station 493, and is sent to the product placing seat 511 of the feeding station of the multi-station turntable 51 by the vacuum station nozzle 321, and finally the vacuum station nozzle 321 is transferred to the nozzle cleaning device 491 for cleaning. If the chip inductor 10 detected as defective is transferred to the defective product discharging device 492 for discharging.

The chip inductor on the product placement base 511 is sent to the top surface laser engraving device 52 through the rotation of the multi-position object turntable 51, and the top surface laser engraving device 52 performs laser engraving on the top surface of the chip inductor. After the lettering is finished, the lettering is sent to the automatic optical detection device 53 for top surface detection, if the lettering is qualified, the lettering is sent to the carrier tape limiting guide jig on the carrier tape track table 61 through the top surface detection qualified product blanking carrying manipulator 54, and is placed on the carrier tape 11 through the feeding positioning hole 616, and the carrier tape receiving motor 95 is started to drive the carrier tape 11 to perform receiving and moving. If the chip inductor is determined to be unqualified after the top surface detection, the chip inductor is transferred to the top surface detection unqualified product blanking manipulator 55, and the top surface detection unqualified product blanking manipulator 55 offloads the unqualified chip inductor into the top surface detection unqualified product placing tray 56.

The chip inductor 10 firstly reaches the lower part of the hot pressing cutter outer cover body 85 under the driving of the carrier tape, the first lifting cylinder 82 starts to drive the hot pressing cutter outer cover body 85 to descend to the surface of the carrier tape 11, then the second lifting cylinder 86 drives the heated hot pressing cutter to press down, the adhesive tape is hot-pressed on the upper surface of the carrier tape 11, and the chip inductor 11 is also packaged at the same time. The carrier tape of the packaged chip inductor is finally wound up on the carrier tape take-up reel 92.

The utility model is suitable for the field of chip inductance detection packaging.

Claims

1. A chip inductor sensing chartered plane which characterized in that: including host computer platform (1), even adaptation is provided with feed mechanism, carousel detection mechanism, little carousel laser marking detection mechanism and automatic packaging mechanism on host computer platform (1), feed mechanism with carousel detection mechanism is connected, carousel detection mechanism with little carousel laser marking detection mechanism is connected, little carousel laser marking detection mechanism with automatic packaging mechanism is connected.

2. The patch-induced packaging machine of claim 1, wherein: the feeding mechanism comprises a feeding track (21), a lifting translation feeding manipulator (22) and a feeding direct vibration track (23), wherein the feeding track (21) and the feeding direct vibration track (23) are respectively arranged on the host computer platform (1) in an adaptive mode, and the lifting translation feeding manipulator (22) is arranged on the host computer platform (1) in an adaptive mode and is movably arranged between the feeding track (21) and the feeding direct vibration track (23).

3. The patch-induced packaging machine of claim 2, wherein: the large turntable detection mechanism comprises a multi-station material sucking turntable device, the multi-station material sucking turntable device comprises a fixing frame (31) and a multi-station material sucking turntable (32), the fixing frame (31) is adapted and fixedly arranged on a host computer (1), the multi-station material sucking turntable (32) is connected to the fixing frame (31) through a rotating shaft (311) in an adapting and rotating mode, a plurality of vacuum station suction nozzles (321) are uniformly adapted and arranged on the multi-station material sucking turntable (32), the large turntable detection mechanism further comprises a product correction device (41), a direct current resistance detection device (42), an inductance test device (43), a front automatic optical detection device (44), a back automatic optical detection device (45), a first product correction rotating device (46), a left automatic optical detection device (47), a right automatic optical detection device (48), an automatic bottom surface optical detection device (49), a cleaning device (492) and an appearance defective product detection device (491) which are uniformly arranged along the circumferential direction of the multi-station material sucking turntable (32) and the positions of the vacuum station suction nozzles (321) are uniformly corresponding to each other, the product correction device (41) is a defective product between the defective product detection device and the defective product detection device (41), the discharging end of the feeding direct vibration rail (23) is adapted to the feeding station (40) and is adapted to the lower part of the vacuum station suction nozzle (321), and an appearance detection qualified product discharging station (493) is arranged between the bottom automatic optical detection device (49) and the suction nozzle cleaning device (491).

4. A chip inductor packaging machine as claimed in claim 3 wherein: the small turntable laser marking detection mechanism comprises a multiplex position object turntable (51), a top surface laser marking device (52), a product top surface automatic optical detection device (53), a top surface detection qualified product blanking carrying manipulator (54), a top surface detection unqualified product blanking manipulator (55) and a top surface detection unqualified product placing tray (56), a plurality of product placing trays (511) are uniformly arranged on the multiplex position object turntable (51) in an adapting mode, the top surface laser marking device (52), the product top surface automatic optical detection device (53), the top surface detection qualified product blanking carrying manipulator (54) and the top surface detection unqualified product blanking manipulator (55) are sequentially arranged along the circumferential direction of the multiplex position object turntable (51) and respectively correspondingly adapted to the upper side of the product placing trays (511), an appearance detection unqualified product discharging station (493) is adapted to one side of the top surface laser marking device (52) and corresponds to the product placing trays (511), and the top surface detection unqualified product placing tray (56) is adapted to one side of the detection unqualified product blanking manipulator (55).

5. The patch-induced packaging machine of claim 4, wherein: the automatic packaging mechanism comprises a carrier tape track table (61), a packaging adhesive tape feeding wheel group, a double-stroke hot-pressing packaging device and a carrier tape collecting wheel group, wherein the carrier tape track table (61) is adapted to the host table (1), the packaging adhesive tape feeding wheel group, the double-stroke hot-pressing packaging device and the carrier tape collecting wheel group are sequentially adapted to be arranged on the carrier tape track table (61), the two ends of the carrier tape track table (61) are respectively provided with a carrier tape driven belt wheel (611), the head end of the carrier tape track table (61) is provided with a first carrier tape pressing wheel (612), the first carrier tape pressing wheel (612) is adapted to be movably arranged at the head end above the carrier tape driven belt wheel (611), two carrier tape limiting guide tools are adapted to be arranged between the carrier tape driven belt wheels (611), each carrier tape limiting guide tool comprises a limiting guide plate (613) and a guide plate translation slide rail (614), the two guide plate translation slide rails (614) are adapted to be arranged on the two carrier tape guide blocks (613) in parallel, the two guide blocks (613) are arranged between the two guide blocks (613) in the space between the two guide blocks (615), the loading locating hole (616) is adapted to be arranged above the carrier band passing space, and the top surface detection qualified product blanking and conveying mechanical arm (54) is adapted to be movably arranged above the loading locating hole (616).

6. The patch-induced packaging machine of claim 5, wherein: the packaging adhesive tape feeding wheel set comprises a wheel set supporting plate (71), and the wheel set supporting plate (71) is sequentially provided with a packaging adhesive tape roll placing wheel (72), a packaging adhesive tape horizontal tensioning wheel (73) and a packaging adhesive tape vertical tensioning wheel (74).

7. The die attach sensing bagging machine of claim 6, wherein: the double-stroke hot-pressing packaging device comprises a hot-pressing supporting frame (81), a first lifting cylinder (82) is arranged at the upper section of the hot-pressing supporting frame (81), a lifting moving part (83) is fixedly connected to the bottom output end of the first lifting cylinder (82), the lifting moving part (83) is movably arranged on the hot-pressing supporting frame (81) through a lifting guide rail, a hot-pressing cutter outer cover body (85) is fixedly connected to the bottom of the lifting moving part (83), a second lifting cylinder (86) is fixedly arranged on the lifting moving part (83) through a connecting plate (831), a hot-pressing cutter is connected to the bottom output end of the second lifting cylinder (86) in an adaptive manner, the hot-pressing cutter outer cover body (85) is movably arranged above the rear section of the limiting guide plate (613) in an adaptive manner, and the hot-pressing cutter is movably arranged above the carrier band.

8. The die attach sensing bagging machine of claim 7, wherein: the carrier band material collecting wheel group comprises a carrier band material collecting supporting plate (91), the carrier band material collecting supporting plate (91) is fixedly arranged at the tail end of the carrier band track platform (61), a carrier band material collecting wheel (92), a carrier band material collecting motor (95), a carrier band material collecting tensioning wheel (93) and a second carrier band compacting wheel (94) are respectively arranged on the carrier band material collecting supporting plate (91), the carrier band material collecting wheel (92) is fixedly connected to the output end of the carrier band material collecting motor (95), and the second carrier band compacting wheel (94) is suitable for being arranged at the tail end above the carrier band driven belt wheel (611).