CN210723649U - Novel USB type-c male finished product assembling equipment - Google Patents

Abstract

The utility model discloses a novel public first finished product equipment of USB type-c, it includes: the upper end of the machine base is provided with a feeding track and a feeding device; the semi-finished product feeding device is used for conveying the USB type-c male semi-finished product to the feeding track and is arranged on one side of the front end of the feeding track; the clamping hook assembling device is used for installing a clamping hook into a USB type-c male semi-finished product and is arranged on the other side of the front end of the feeding track; the EMI shell assembling device is used for installing the EMI shell into a USB type-c male semi-finished product and is arranged on the side edge of the feeding track; the iron shell assembling device is used for installing an iron shell on the periphery of the USB type-c male semi-finished product to form a USB type-c male finished product and is installed at the tail end of the feeding track; a balance device for putting the public first finished product of USB type-c in the charging tray, it installs in iron-clad assembly device side. The utility model discloses work is automatic completion to this can reduce intensity of labour, improves high work efficiency, guarantees the productivity, and guarantees the quality of the product of equipment formation.

Description

Novel USB type-c male finished product assembling equipment

The technical field is as follows:

the utility model relates to an automation equipment technical field refers in particular to a novel public first finished product equipment of USB type-c.

Background art:

USB, an abbreviation of Universal Serial BUS, is a standard for external BUS, and is used to standardize connection and communication between computer and external device, and is an interface technology applied in PC field. USB was proposed by a combination of companies such as Intel, Conjun, IBM, Microsoft, etc., at the end of 1994. The USB has high transmission speed and is very convenient to use. The USB interface also has the advantages of supporting the plug-and-play and hot plug functions of the equipment, being flexible in connection, independent in power supply and the like, can be connected with a mouse, a keyboard, a printer, a scanner, a camera, a flash disk, an MP3 player, a mobile phone, a digital camera, a mobile hard disk, an external optical floppy drive, a USB network card, an ADSL Modem, a Cable Modem and the like, almost all external equipment is provided with the USB interface, and the USB interface is very widely used.

The USB Type-C male connector is a connecting interface of a USB interface, can be inserted without dividing a front surface and a back surface, has the size of about 8.3mm multiplied by 2.5mm, and supports the functions of charging, data transmission, display output and the like of the USB standard like other interfaces. The USBType-C is mainly oriented to thinner and thinner equipment, improves usability and lays a good way for performance enhancement of future USB versions.

The USB Type-C common head in the prior art is assembled manually, the overall productivity output value is influenced because deviation and efficiency problems exist in human factor assembly, wherein the assembly of small parts is very difficult to human tool assembly, the requirement on the proficiency of workers is high, and the quality of products is easily influenced.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide a novel public first finished product equipment of USB type-c.

In order to solve the technical problem, the utility model discloses a following technical scheme: this public first finished product equipment of novel USB type-c includes: the upper end of the base is provided with a feeding track and a feeding device arranged in the feeding track; the semi-finished product feeding device is used for conveying the USB type-c male semi-finished product to the feeding track and is arranged on one side of the front end of the feeding track; the clamping hook assembling device is used for installing a clamping hook into a USB type-c male semi-finished product and is arranged on the other side of the front end of the feeding track; the EMI shell assembling device is used for installing the EMI shell into a USB type-c male semi-finished product and is arranged on the side edge of the feeding track; the iron shell assembling device is used for installing an iron shell on the periphery of the USB type-c male semi-finished product to form a USB type-c male finished product and is installed at the tail end of the feeding track; a balance device for putting the public first finished product of USB type-c in the charging tray, it installs in iron-clad assembly device side.

Furthermore, in the above technical solution, the semi-finished product feeding device includes a first vibrator installed on the base, a first feeding rail installed on the first vibrator, a first material transferring rail installed at a tail end of the first feeding rail, a first material pushing rod installed in the first material transferring rail, a first material pushing cylinder for driving the first material pushing rod to move in the first material transferring rail, a first material discharging rail installed at a side of the first material transferring rail, a second material pushing rod installed in the first material discharging rail, a second material pushing cylinder for driving the second material pushing rod to move in the first material discharging rail, and a first pneumatic manipulator for sucking and transporting the USBtype-c male semi-finished product discharged from the first material transferring rail to the first material discharging rail, wherein the first feeding rail is externally connected with a first vibrating disk.

Furthermore, in the above technical solution, the feeding device includes a slide rail installed below the feeding track, a plurality of shifting blocks fixedly installed on the slide rail, a first lifting cylinder for driving the slide rail to lift relative to the feeding track, and a third pushing cylinder for driving the slide rail to horizontally move relative to the feeding track, two troughs for loading the USB type-c male head semi-finished product are provided at the upper end of the shifting block, and the upper end of the shifting block extends into the feeding track.

Furthermore, in the above technical solution, the feeding device is further provided with a reversing mechanism, and the reversing mechanism is located beside the EMI casing assembly device.

Furthermore, among the above-mentioned technical scheme, the trip assembly quality is including trip material area feeding mechanism, install on this frame and with trip material area feeding mechanism complex first guide rail, with the second feed rail of first guide rail butt joint, install the first material feeding mechanism of dialling on second feed rail, set up in the breach of feeding of second feed rail side, install in the breach of feeding and be arranged in the first material clamp of the trip that presss from both sides tight trip material area and install in this second feed rail tip and be used for deciding the first mechanism of deciding in trip material area, first ejection of compact rail tip is arranged in this breach of feeding.

Furthermore, in the above technical scheme, the first cutting mechanism includes a first cutting knife, a lever for driving the first cutting knife to move up and down to realize the cutting action, a first cylinder for driving the lever to swing up and down, and a second cylinder for driving the first cylinder to move back and forth.

Further, in the above technical solution, the EMI case assembling apparatus includes a first EMI case assembling mechanism, a second EMI case assembling mechanism, a third EMI case assembling mechanism, a fourth EMI case assembling mechanism, a first EMI case material tape supplying mechanism for supplying the first EMI case assembling mechanism and the second EMI case assembling mechanism with the EMI case material tape, and a second EMI case material tape supplying mechanism for supplying the third EMI case assembling mechanism and the fourth EMI case assembling mechanism with the EMI case material tape, and the first EMI case assembling mechanism, the second EMI case assembling mechanism, the third EMI case assembling mechanism, and the fourth EMI case assembling mechanism have the same structure.

Furthermore, in the above technical solution, the first EMI shell assembling mechanism includes a third feeding rail butted with the feeding rail, a second guiding rail installed at the other end of the third feeding rail and butted with the first EMI shell material belt supplying mechanism, a second material shifting and feeding mechanism installed on the third feeding rail, a second cutting knife installed in the third feeding rail and used for cutting the EMI shell material belt, a third cylinder used for driving the second cutting knife to move up and down to realize the cutting action, a rotating mechanism installed above the third feeding rail, a first suction head installed at the lower end of the rotating mechanism and used for adsorbing and positioning the EMI shell, a second lifting cylinder used for driving the rotating mechanism to lift, and a fourth cylinder used for driving the rotating mechanism to move horizontally.

Further, in the above technical solution, the iron case assembling device includes a first carrying seat, a second carrying seat, a third carrying seat, a fourth carrying seat, a fifth carrying seat distributed at equal intervals, a second air suction manipulator for transferring the products in the first carrying seat, the second carrying seat, the third carrying seat, the fourth carrying seat and the fifth carrying seat, a third material guiding rail installed on the first carrying seat, a second vibrating tray butted with the third material guiding rail, a pre-positioning mechanism installed on the second carrying seat, an iron case assembling mechanism installed on one side of the third carrying seat and used for assembling the iron case on the USB type-c male semi-finished product, and a scrap shaking mechanism installed on the other side of the third carrying seat.

Further, in the above technical scheme, the end of the feeding track is also provided with an NC discharging box.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: when the utility model works, the semi-finished product feeding device is adopted to convey the USB type-c male semi-finished product to the feeding track, then the two hooks are respectively arranged into the two USB type-c male semi-finished products by the hook assembling device, then the feeding device conveys the USB type-c male semi-finished product in the feeding track to the EMI shell assembling device, the EMI shell assembling device arranges the two EMI shells into the USB type-c male semi-finished product, then the USB type-c male semi-finished product is conveyed to the iron shell assembling device, the iron shell assembling device arranges the iron shell at the periphery of the USB type-c male semi-finished product to form the USB type-c male finished product, finally the USB type-c male finished product is arranged in the material tray by the swinging disc device, thereby completing the assembly of the USB type-c male, and the work is all automatic, with this can reduce intensity of labour, improve high work efficiency, guarantee the productivity, it is just very easy to the automatic assembly to the assembly of tiny part to guarantee the quality of the product of equipment formation, order the utility model discloses extremely market competition has.

Description of the drawings:

FIG. 1 is an exploded view of a male USB type-c finish;

fig. 2 is a perspective view of the present invention;

FIG. 3 is a perspective view of the feeding device for the intermediate product of the present invention;

fig. 4 is a perspective view of the middle hook assembly device of the present invention;

fig. 5 is a perspective view of the other viewing angle of the hook assembly device of the present invention;

fig. 6 is a perspective view of a first EMI can assembly mechanism of the present invention;

fig. 7 is a perspective view of another perspective of the first EMI can assembly mechanism of the present invention;

fig. 8 is a perspective view of the iron case assembling apparatus of the present invention;

fig. 9 is an assembly view of the feeding rail and the feeding device of the present invention;

fig. 10 is an assembly view of the feeding rail and the feeding device at another view angle according to the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1-10, a new USB type-c male end product assembling apparatus is provided, which includes: the device comprises a machine base 1, wherein the upper end of the machine base 1 is provided with a feeding track 2 and a feeding device 3 arranged in the feeding track 2; the semi-finished product feeding device 4 is used for conveying the USB type-c male semi-finished product 101 to the feeding track 2 and is arranged on one side of the front end of the feeding track 2; the clamping hook assembling device 5 is used for installing the clamping hook 102 into the USB type-c male semi-finished product 101 and is arranged on the other side of the front end of the feeding track 2; an EMI case assembling device 6 for installing the EMI case 103 into the USB type-c male half finished product, which is installed at the side of the feeding rail 2; an iron shell assembling device 7 for installing the iron shell 104 on the periphery of the USB type-c male semi-finished product to form the USB type-c male finished product, which is installed at the tail end of the feeding track 2; and the tray placing device 8 is used for placing the USB type-c male finished product in the material tray and is arranged beside the iron shell assembling device 7. When the utility model works, the USBtype-c male semi-finished product 101 is conveyed to the feeding track 2 by the semi-finished product feeding device 4, then the two hooks 102 are respectively loaded into the two USB type-c male semi-finished products 101 by the hook assembling device 5, then the USB type-c male semi-finished product 101 in the feeding track 2 is conveyed to the EMI shell assembling device 6 by the feeding device 3, and the USB type-c male semi-finished product 101 is loaded into the two EMI shells by the EMI shell assembling device 6, then the USB type-c male semi-finished product 101 is conveyed to the iron shell assembling device 7, the iron shell assembling device 7 loads the iron shell 104 at the periphery of the USB type-c male semi-finished product to form the USB type-c male finished product, finally the USB type-c male finished product is placed in the material tray by the swinging disk device 8, thereby completing the USB type-c male assembly, above-mentioned work is automatic completion to this can reduce intensity of labour, improves high work efficiency, guarantees the productivity, and is just very easy to the automatic assembly to the assembly of tiny part, and guarantees the quality of the product of equipment formation, makes the utility model discloses extremely market competition has.

The semi-finished product feeding device 4 comprises a first vibrator 41 arranged on the machine base 1, a first feeding rail 42 arranged on the first vibrator 41, a first material transferring rail 43 arranged at the tail end of the first feeding rail 42, a first material pushing rod 44 arranged in the first material transferring rail 43, a first material pushing cylinder 45 used for driving the first material pushing rod 44 to move in the first material transferring rail 43, a first material discharging rail 46 arranged at the side of the first material transferring rail 43, a second material pushing rod 47 arranged in the first material discharging rail 46, a second material pushing cylinder 48 used for driving the second material pushing rod 47 to move in the first material discharging rail 46, and a first air suction manipulator 49 used for sucking and carrying a USB type-c male semi-finished product discharged from the first material transferring rail 43 to the first material discharging rail 46, wherein the first feeding rail 42 is externally connected with a first vibrating disk. When in work, the first vibrating disk transmits the USB type-c male semi-finished product to the first feeding rail 42 in a vibrating way, the first feeding rail 42 is vibrated by the first vibrator 41 to transmit the USB type-c male half product vibration to the first transferring rail 43, the first pushing cylinder 45 is used for driving the first pushing rod 44 to move in the first transferring rail 43 so as to transfer the USB type-c male semi-finished product to the end of the first transferring rail 43, the first pneumatic manipulator 49 sucks and carries the USB type-c male half-finished product discharged from the first transfer rail 43 to the first discharge rail 46, the second pushing cylinder 48 drives the second pushing rod 47 to move in the first discharging rail 46 to push the USB type-c male semi-finished product to the hook assembly apparatus 5, and assists the hook assembling device 5 to assemble the hook in the USB type-c male semi-finished product.

The feeding device 3 comprises a slide rail 31 arranged below the feeding rail 2, a plurality of shifting blocks 32 fixedly arranged on the slide rail 31, a first lifting cylinder 33 used for driving the slide rail 31 to lift relative to the feeding rail 2 and a third pushing cylinder 34 used for driving the slide rail 31 to horizontally move relative to the feeding rail 2, two material troughs used for loading the USBtype-c male semi-finished products are arranged at the upper end of each shifting block 32, the upper end of each shifting block 32 extends into the feeding rail 2, and the shifting blocks 32 can simultaneously convey the two USB type-c male semi-finished products at one time.

The feeding device 3 is further provided with a reversing mechanism 35, and the reversing mechanism 35 is located at the side of the EMI enclosure assembly 6.

The trip assembling device 5 comprises a trip material belt feeding mechanism 51, a first guide rail 52 which is installed on the machine base 1 and is matched with the trip material belt feeding mechanism 51, a second feed rail 53 which is butted with the first guide rail 52, a first material shifting and feeding mechanism 54 which is installed on the second feed rail 53, a charging notch 55 which is arranged on the side surface of the second feed rail 53, a first material clamp 56 which is installed in the charging notch 55 and is used for clamping a trip in the trip material belt, and a first cutting mechanism 57 which is installed at the end part of the second feed rail 53 and is used for cutting the trip material belt, wherein the end part of the first material outlet rail 46 is arranged in the charging notch 55. The first cutting mechanism 57 includes a first cutting blade 571, a lever 572 for driving the first cutting blade 571 to move up and down to perform a cutting operation, a first cylinder 573 for driving the lever 572 to swing up and down, and a second cylinder 574 for driving the first cylinder 573 to move forward and backward.

The EMI case assembling device 6 includes a first EMI case assembling mechanism 61, a second EMI case assembling mechanism 62, a third EMI case assembling mechanism 63, a fourth EMI case assembling mechanism 64, and a first EMI case material tape supplying mechanism 65 for supplying an EMI case material tape to the first EMI case assembling mechanism 61 and the second EMI case assembling mechanism 62, and a second EMI case material tape supplying mechanism 66 for supplying an EMI case material tape to the third EMI case assembling mechanism 63 and the fourth EMI case assembling mechanism 64, which are sequentially installed in parallel on the side edge of the feeding track 2, and the first EMI case assembling mechanism 61, the second EMI case assembling mechanism 62, the third EMI case assembling mechanism 63, and the fourth EMI case assembling mechanism 64 have the same structure.

The first EMI shell assembling mechanism 61 includes a third feeding rail 611 butted with the feeding rail 2, a second guiding rail 612 installed at the other end of the third feeding rail 611 and butted with the first EMI shell material belt supplying mechanism 65, a second material shifting and feeding mechanism 613 installed on the third feeding rail 611, a second cutting knife 614 installed in the third feeding rail 611 and used for cutting the EMI shell material belt, a third cylinder 615 used for driving the second cutting knife 614 to move up and down to realize the cutting action, a rotating mechanism 616 arranged above the third feeding rail 611, a first suction head 617 installed at the lower end of the rotating mechanism 616 and used for adsorbing and positioning the EMI shell, a second lifting cylinder 618 used for driving the rotating mechanism 616 to lift, and a fourth cylinder 619 used for driving the rotating mechanism 616 to move horizontally. The first suction head 617 adsorbs an EMI housing and is driven by the second lift cylinder 618 and the fourth cylinder 619 to realize assembly of the EMI housing in the USB type-c male end semi-finished product.

The iron shell assembling device 7 comprises a first carrying seat 71, a second carrying seat 72, a third carrying seat 73, a fourth carrying seat 74, a fifth carrying seat 75, a second air suction manipulator 76 for transferring products in the first carrying seat 71, the second carrying seat 72, the third carrying seat 73, the fourth carrying seat 74 and the fifth carrying seat 75, a third material guide rail 77 installed on the first carrying seat 71, a second vibration disc 78 in butt joint with the third material guide rail 77, a pre-positioning mechanism 79 installed on the second carrying seat 72, an iron shell assembling mechanism 70 installed on one side of the third carrying seat 73 and used for assembling an iron shell on the USB type-c male semi-finished product, and a scrap shaking mechanism 711 installed on the other side of the third carrying seat 73, which are distributed at equal intervals.

In summary, during the operation of the present invention, the semi-finished product feeding device 4 is used to convey the USB type-c male semi-finished product 101 to the feeding track 2, then the two hooks 102 are respectively loaded into the two USB type-c male semi-finished products 101 by the hook assembling device 5, then the feeding device 3 is used to convey the USB type-c male semi-finished product 101 in the feeding track 2 to the EMI shell assembling device 6, and the EMI shell assembling device 6 is used to load the USB type-c male semi-finished product 101 into the two EMI shells, then the USB type-c male semi-finished product 101 is conveyed to the iron shell assembling device 7, the iron shell assembling device 7 is used to install the iron shell 104 at the periphery of the USB type-c male semi-finished product to form the USB type-c male finished product, and finally the USB type-c male finished product is placed in the tray by the swinging tray device 8 to complete the assembly of the USB type-c male, above-mentioned work is automatic completion to this can reduce intensity of labour, improves high work efficiency, guarantees the productivity, and is just very easy to the automatic assembly to the assembly of tiny part, and guarantees the quality of the product of equipment formation, makes the utility model discloses extremely market competition has.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a public first finished product equipment of novel USB type-c which characterized in that: it includes:

the device comprises a base (1), wherein the upper end of the base (1) is provided with a feeding track (2) and a feeding device (3) arranged in the feeding track (2);

the semi-finished product feeding device (4) is used for conveying the USB type-c male semi-finished product (101) to the feeding track (2) and is installed on one side of the front end of the feeding track (2);

the clamping hook assembling device (5) is used for installing the clamping hook (102) into the USB type-c male semi-finished product (101) and is arranged on the other side of the front end of the feeding rail (2);

an EMI shell assembly device (6) used for installing the EMI shell (103) into a USB type-c male semi-finished product, which is arranged on the side of the feeding track (2);

an iron shell assembling device (7) for installing an iron shell (104) at the periphery of the USB type-c male semi-finished product to form the USB type-c male finished product, which is arranged at the tail end of the feeding track (2);

and the tray placing device (8) is used for placing the USB type-c male finished product in the material tray and is arranged beside the iron shell assembling device (7).

2. The novel USB type-c male end product assembling device as claimed in claim 1, wherein: the semi-finished product feeding device (4) comprises a first vibrator (41) arranged on the machine base (1), a first feeding rail (42) arranged on the first vibrator (41), a first material transferring rail (43) arranged at the tail end of the first feeding rail (42), a first material pushing rod (44) arranged in the first material transferring rail (43), a first material pushing cylinder (45) used for driving the first material pushing rod (44) to move in the first material transferring rail (43), a first material discharging rail (46) arranged beside the first material transferring rail (43), a second material pushing rod (47) arranged in the first material discharging rail (46), a second material pushing cylinder (48) used for driving the second material pushing rod (47) to move in the first material discharging rail (46), and a first air suction manipulator (49) used for sucking the USB type-c male head semi-finished product from the first material transferring rail (43) to the first material discharging rail (46), the first feed rail (42) circumscribes the first vibratory pan.

3. The novel USB type-c male end product assembling device as claimed in claim 1, wherein: the feeding device (3) comprises a sliding rail (31) arranged below the feeding rail (2), a plurality of shifting blocks (32) fixedly arranged on the sliding rail (31), a first lifting cylinder (33) used for driving the sliding rail (31) to lift relative to the feeding rail (2), and a third pushing cylinder (34) used for driving the sliding rail (31) to horizontally move relative to the feeding rail (2), wherein the upper end of each shifting block (32) is provided with two troughs used for loading the USB type-c male head semi-finished products, and the upper end of each shifting block (32) extends into the feeding rail (2).

4. The novel USB type-c male end product assembling device as claimed in claim 3, wherein: the feeding device (3) is also provided with a reversing mechanism (35), and the reversing mechanism (35) is positioned beside the EMI shell assembly device (6).

5. The novel USB type-c male end product assembling device as claimed in claim 2, wherein: the trip assembling device (5) comprises a trip material belt feeding mechanism (51), a first guide rail (52) which is installed on the base (1) and matched with the trip material belt feeding mechanism (51), a second feed rail (53) which is butted with the first guide rail (52), a first material shifting and feeding mechanism (54) which is installed on the second feed rail (53), a feeding notch (55) which is arranged on the side surface of the second feed rail (53), a first material clamp (56) which is installed in the feeding notch (55) and used for clamping a trip in the trip material belt, and a first cutting mechanism (57) which is installed at the end part of the second feed rail (53) and used for cutting the trip material belt, wherein the end part of the first material discharging rail (46) is arranged in the feeding notch (55).

6. The novel USB type-c male end product assembling device as claimed in claim 5, wherein: the first cutting mechanism (57) comprises a first cutting knife (571), a lever (572) for driving the first cutting knife (571) to move up and down to realize cutting action, a first air cylinder (573) for driving the lever (572) to swing up and down, and a second air cylinder (574) for driving the first air cylinder (573) to move back and forth.

7. The new USB type-c male end product assembling device according to any one of claims 1-6, wherein: the EMI shell assembling device (6) comprises a first EMI shell assembling mechanism (61), a second EMI shell assembling mechanism (62), a third EMI shell assembling mechanism (63), a fourth EMI shell assembling mechanism (64) which are sequentially installed on the side edge of the feeding track (2) in parallel, a first EMI shell material belt supply mechanism (65) which provides an EMI shell material belt for the first EMI shell assembling mechanism (61) and the second EMI shell assembling mechanism (62), and a second EMI shell material belt supply mechanism (66) which provides an EMI shell material belt for the third EMI shell assembling mechanism (63) and the fourth EMI shell assembling mechanism (64), and the first EMI shell assembling mechanism (61), the second EMI shell assembling mechanism (62), the third EMI shell assembling mechanism (63) and the fourth EMI shell assembling mechanism (64) are identical in structure.

8. The novel USB type-c male end product assembling device of claim 7, wherein: the first EMI shell assembling mechanism (61) comprises a third feeding rail (611) butted with the feeding rail (2), a second guiding rail (612) installed at the other end of the third feeding rail (611) and butted with the first EMI shell material belt supply mechanism (65), a second material shifting and feeding mechanism (613) installed on the third feeding rail (611), a second cutting cutter (614) arranged in the third feeding rail (611) and used for cutting the EMI shell material belt, and a third air cylinder (615) used for driving the second cutting cutter (614) to move up and down to realize cutting action, the feeding device comprises a rotating mechanism (616) arranged above the third feeding rail (611), a first suction head (617) arranged at the lower end of the rotating mechanism (616) and used for adsorbing and positioning an EMI shell, a second lifting cylinder (618) used for driving the rotating mechanism (616) to lift, and a fourth cylinder (619) used for driving the rotating mechanism (616) to horizontally move.

9. The novel USB type-c male end product assembling device as claimed in claim 1, wherein: the iron shell assembling device (7) comprises a first carrying seat (71), a second carrying seat (72), a third carrying seat (73), a fourth carrying seat (74), a fifth carrying seat (75) which are distributed at equal intervals, and a first carrying seat (71), a second carrying seat (72) and a third carrying seat (73) which are used for carrying the iron shell, the device comprises a second air suction manipulator (76) for transferring products in a fourth loading seat (74) and a fifth loading seat (75), a third material guide rail (77) arranged on the first loading seat (71), a second vibration disc (78) butted with the third material guide rail (77), a pre-positioning mechanism (79) arranged on the second loading seat (72), an iron shell assembling mechanism (70) arranged on one side of the third loading seat (73) and used for assembling an iron shell on a USB type-c male semi-finished product, and a scrap shaking mechanism (711) arranged on the other side of the third loading seat (73).

10. The novel USB type-c male end product assembling device as claimed in claim 1, wherein: the tail end of the feeding track (2) is also provided with an NC discharging box (20).

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