CN218109937U - Double SMT-TYPE-C three-in-one automatic assembling machine - Google Patents
Double SMT-TYPE-C three-in-one automatic assembling machine Download PDFInfo
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- CN218109937U CN218109937U CN202222137174.5U CN202222137174U CN218109937U CN 218109937 U CN218109937 U CN 218109937U CN 202222137174 U CN202222137174 U CN 202222137174U CN 218109937 U CN218109937 U CN 218109937U
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Abstract
The utility model discloses a two trinity automatic kludges of SMT-TYPE-C, including frame, controller, loading attachment, positioner, closing device, the first suction means that cuts, first hot melt device, second cut suction means and second hot melt device. Be 3 through loading attachment to the cooperation is first to cut suction means, first hot melt device, the second cuts the setting of suction means and second hot melt device, can be simultaneously with each components and parts simultaneous feeding of Type-C connector, and cut and assemble in proper order, the degree of automation of whole assembling process has been improved, the cost of labor has been reduced simultaneously, automatic package assembly can also effectively guarantee the stability of product quality in the course of working of big batch product, can satisfy large batch processing demand.
Description
Technical Field
The utility model relates to a connector processing field technique especially indicates a trinity automatic kludge of two SMT-TYPE-C.
Background
With the development of science and technology, various electronic products are on the rise, and accordingly, various connectors for different electronic products are produced, and a USB connector is one of the most widely used and popular connectors in an electrical connector, and most electronic devices are equipped with the USB connector. The new standard USB Type-C is characterized in that the appearance is completely consistent at the upper end and the lower end, no directivity exists in use, the maximum transmission rate of 10Gbps can be provided, and the requirement that a user can obtain a faster transmission rate when transmitting a large-capacity file is expected to be met, so that the transmission time is effectively shortened. In addition, the interface size of the USB Type-C connector is smaller than that of other current USB specifications, so the assembly process of the Type-C connector is also more complicated.
The Type-C connector generally adopts step-by-step assembly in the assembly process due to more internal components, and part of the assembly process needs manual assembly, so that the overall assembly efficiency is low, the automation degree is low, the labor cost in the assembly process is high, and meanwhile, the product quality cannot be guaranteed in the mass production by a semi-automatic assembly mode; therefore, there is a need for further improvements to the existing Type-C connector assembly.
SUMMERY OF THE UTILITY MODEL
In view of this, the present invention provides a dual SMT-TYPE-C automatic assembly machine, which can effectively solve the problems of low efficiency, high labor cost, low automation degree and no guarantee of product quality in the conventional dual TYPE-C connector assembly process.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a double SMT-TYPE-C three-in-one automatic assembling machine comprises a rack, a controller, a feeding device, a positioning device, a pressing device, a first cutting and sucking device, a first hot melting device, a second cutting and sucking device and a second hot melting device; the rack is provided with a first conveying track, a second conveying track and a third conveying track; the controller is arranged on the frame; the number of the feeding devices is 3, and the output ends of the feeding devices are respectively communicated with the input ends of the first conveying track, the second conveying track and the third conveying track; the positioning devices are arranged on the rack and are not arranged beside the first conveying track, the two positioning devices are arranged in the front and back direction of the conveying direction of the first conveying track, and each positioning device is connected with the controller; the pressing devices are arranged on the rack and positioned beside the first conveying track, the number of the pressing devices is two, the two pressing devices are arranged in the front and back direction along the extension direction of the first conveying track, and each pressing device is arranged behind each corresponding positioning device; the first cutting suction device is arranged on the rack and moves back and forth between the output end of the second conveying track and the front side positioning device, and the first cutting suction device is connected with the controller; the first hot melting device is arranged on the rack and is positioned beside the first conveying track, and the first hot melting device is positioned behind the front side pressing device and is connected with the controller; the second cutting suction device is arranged on the rack and moves back and forth between the output end of the third conveying track and the rear side positioning device, and the second cutting suction device is connected with the controller; the second hot melting device is arranged on the rack and located beside the second conveying track, and the second hot melting device is arranged behind the rear side pressing device and connected with the controller.
As a preferred scheme, a machine cover is further arranged on the machine frame, the feeding device, the positioning device, the pressing device, the first cutting and sucking device, the first hot melting device, the second cutting and sucking device and the second hot melting device are all covered by the machine cover, and the controller is arranged on the machine cover.
As a preferred scheme, loading attachment is including first material loading frame, first material loading tray, second material loading frame and third material loading tray, first material loading frame and second material loading frame all set up in the frame, first material loading tray sets up on first material loading frame, and the output and the first orbital input of delivery of first material loading tray communicate, the material loading tray sets up on first material loading frame in the second, and the output intercommunication second orbital input of material loading tray in the second, the material loading tray sets up on the second material loading frame in the third, and the output intercommunication third orbital input of delivery of material loading tray in the third.
As a preferable scheme, the positioning device comprises a first movable plate, a positioning plate and a positioning driving mechanism, wherein the first movable plate is movably arranged on the rack up and down and back and forth and is positioned beside the first conveying track; the positioning plate is arranged on the first movable plate and moves back and forth above the first conveying track along with the first movable plate, and a through groove for exposing a product is formed in the positioning plate; the positioning driving mechanism is arranged on the frame and drives the first movable plate to move up and down, and the positioning driving mechanism is connected with the controller.
As a preferable scheme, the pressing device comprises a second movable plate, a pressing plate and a pressing driving mechanism, the second movable plate is movably arranged on the rack up and down and back and forth and is positioned beside the first conveying track, and the pressing plate is arranged on the second movable plate and moves up and down and back and forth above the first conveying track along with the second movable plate; the pressing driving mechanism is arranged on the rack and drives the second movable plate to move up and down, and the pressing driving mechanism is connected with the controller.
As a preferable scheme, the first cutting suction device comprises a first cutting device and a first suction device; the first cutting device comprises a first bracket, a first cutting plate, a third movable plate, a first cutting head and a first cutting driving mechanism; the first bracket is arranged on the frame, and the second conveying track is arranged on the first bracket; the first cutting plate is arranged on the first support and positioned right above the second conveying track, and a first cutting groove is formed in the cutting plate; the third movable plate can be movably arranged on the first bracket up and down and back and forth and is positioned right below the second conveying track and the first cutting groove; the first cutting head is arranged at the upper end of the third movable plate and moves up and down along with the third movable plate, and the first cutting head extends upwards into the first cutting groove; the first cutting driving mechanism is arranged on the rack and drives the third movable plate to move up and down and back and forth, and the first cutting driving mechanism is connected with the controller; the first suction device comprises a second support, a fourth movable plate, a first suction driving mechanism, a first suction head and a second suction driving mechanism, the second support is arranged on the rack and located beside the first support, the fourth movable plate can be longitudinally and movably arranged on the second support back and forth, the first suction driving mechanism is arranged on the second support and drives the fourth movable plate to longitudinally move back and forth, and the first suction driving mechanism is connected with the controller; the first suction head can be movably arranged on the fourth movable plate up and down and moves back and forth between the first cutting groove and the positioning device along with the fourth movable plate, the first suction head is connected with the controller, the second suction driving mechanism is arranged on the fourth movable plate and drives the first suction head to move back and forth up and down, and the second suction driving mechanism is connected with the controller.
As a preferable scheme, the second cutting driving device comprises a second cutting device and a second suction device, and the second cutting device comprises a third support, a fifth movable plate, a second cutting head, a second cutting driving mechanism, a second cutting plate, a sixth movable plate, a third cutting head and a third cutting driving mechanism; the third support is arranged on the rack, the third conveying track is arranged on the third support, the fifth movable plate can be movably arranged on the third support up and down and back and forth and is positioned right above the third conveying track, the second cutting head is arranged at the lower end of the fifth movable plate and moves along with the fifth movable plate up and down and back and forth right above the third conveying track, the second cutting driving mechanism is arranged on the rack and drives the fifth movable plate to move up and down and back and forth, and the second cutting driving mechanism is connected with the controller; the second cutting plate is arranged on the third support and located right above the third conveying track, a second cutting groove is formed in the second cutting plate, the sixth movable plate can be movably arranged on the third support in a vertical reciprocating mode and located right below the third conveying track and the second cutting plate, the third cutting head is arranged above the sixth movable plate and moves vertically along with the sixth movable plate in a reciprocating mode, the third cutting head upwards extends into the second cutting groove, the third cutting driving mechanism is arranged on the rack and drives the sixth movable plate to move vertically in a reciprocating mode, and the third cutting driving mechanism is connected with the controller.
As a preferable scheme, the second suction device comprises a fourth support, a seventh movable plate, a third suction driving mechanism, an eighth movable plate, a fourth suction driving mechanism, a second suction head and a fifth suction driving mechanism; the fourth bracket is arranged on the rack and positioned beside the third bracket, the seventh movable plate can be longitudinally and movably arranged on the fourth bracket back and forth, the third suction driving mechanism is arranged on the fourth bracket and drives the seventh movable plate to longitudinally move back and forth, and the third suction driving mechanism is connected with the controller; the eighth movable plate can be movably arranged on the seventh movable plate up and down and back and forth and can move back and forth along with the seventh movable plate longitudinally, the fourth suction driving mechanism is arranged on the seventh movable plate and drives the eighth movable plate to move up and down and back and forth, and the fourth suction driving mechanism is connected with the controller; the second suction head can be movably arranged on the eighth movable plate back and forth in a transverse line and can move back and forth up and down along with the eighth movable plate, the second suction head is connected with the controller, the fifth suction driving mechanism is arranged on the eighth movable plate and drives the second suction head to move back and forth transversely, and the fifth suction driving mechanism is connected with the controller.
As a preferred scheme, the first hot melting device comprises a first hot melting frame, a first hot melting head and a first hot melting driving mechanism, the first hot melting frame is arranged on the rack and located beside the first conveying rail, the first hot melting head can be movably arranged on the first hot melting frame up and down back and forth and located right above the first conveying rail, the first hot melting head is connected with the controller, the first hot melting driving mechanism is arranged on the first hot melting frame and drives the first hot melting head to move up and down, and the first hot melting driving mechanism is connected with the controller.
As a preferred scheme, the second hot melting device comprises a second hot melting frame, a second hot melting head, a second hot melting driving mechanism, a third hot melting frame, a third hot melting head and a third hot melting driving mechanism; the second hot melting frame is arranged on the rack and positioned beside the first conveying track, the second hot melting head can be movably arranged on the second hot melting frame up and down and back and forth and positioned right above the first conveying track, the second hot melting head is connected with the controller, the second hot melting driving mechanism is arranged on the second hot melting frame and drives the second hot melting head to move up and down and back and forth, and the second hot melting driving mechanism is connected with the controller; the third hot melting frame is arranged on the rack and located beside the first conveying track, the third hot melting head can be movably arranged on the third hot melting frame up and down and back and forth and located under the first conveying track, the third hot melting head is connected with the controller, the third hot melting driving mechanism is arranged on the third hot melting frame and drives the third hot melting head to move up and down, and the third hot melting driving mechanism is connected with the controller.
Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:
be 3 through loading attachment, and cooperate first suction means that cuts, first hot melt device, the second cuts the setting of suction means and second hot melt device, can be simultaneously with each components and parts material loading of Type-C connector simultaneously, and cut and assemble in proper order, the degree of automation of whole assembling process has been improved, the cost of labor has been reduced simultaneously, automatic packaging system can also effectively guarantee the stability of product quality in the course of working of mass product, can satisfy large batch processing demand.
To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.
Drawings
FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;
FIG. 2 is a partially assembled schematic view of a preferred embodiment of the present invention;
FIG. 3 is a schematic perspective view of a first cutting device according to a preferred embodiment of the present invention;
FIG. 4 is a schematic perspective view of a second cutting device according to a preferred embodiment of the present invention;
FIG. 5 is a schematic perspective view of a first suction device according to a preferred embodiment of the present invention;
FIG. 6 is a schematic perspective view of a second suction device according to a preferred embodiment of the present invention;
fig. 7 is another partial assembly view of the preferred embodiment of the present invention.
Description of the figures:
10. frame 11, first delivery track
12. Second conveyance track 13 and third conveyance track
14. Vacuum blowing and sucking device 15 and CCD detection device
16. Hood 20, controller
30. Loading attachment 31, first material loading frame
32. A first feeding tray 33 and a second feeding tray
34. A second feeding frame 35 and a third feeding disc
40. Positioning device 41 and first movable plate
42. Positioning plate 43 and positioning drive mechanism
401. Through groove 50 and pressing device
51. The second movable plate 52 and the pressing plate
53. Pressing driving mechanism 60 and first cutting suction device
601. First cutting groove 61 and first cutting device
611. First support 612 and first cutting plate
613. The third movable plate 614 and the first cutting head
615. First cutting drive mechanism 62 and first suction device
621. A second support 622 and a fourth movable plate
623. First suction driving mechanism 624 and first suction head
625. Second suction driving mechanism 63 and first waste box
70. First hot melting device 71 and first hot melting frame
72. First fuse head 73 and first fuse driving mechanism
80. Second cutting device 801 and second cutting groove
81. Second cutting device 811, third support
812. The fifth movable plate 813 and the second cutting head
814. Second cutting driving mechanism 815 and second cutting plate
816. Sixth movable plate 817 and third cutting head
818. Third cutting driving mechanism 82 and second suction device
821. The fourth bracket 822 and the seventh movable plate
823. A third sucking driving mechanism 824 and an eighth movable plate
825. Fourth suction driving mechanism 826 and second suction head
827. Fifth suction driving mechanism 83 and second waste box
90. Second hot melting device 91 and second hot melting frame
92. Second hot melting head 93 and second hot melting driving mechanism
94. Third hot melt frame 95, third hot melt head
96. And a third hot-melting driving mechanism.
Detailed Description
Referring to fig. 1 to fig. 7, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 10, a controller 20, a feeding device 30, a positioning device 40, a pressing device 50, a first cutting and sucking device 60, a first hot-melting device 70, a second cutting and sucking device 80, and a second hot-melting device 90.
The rack 10 is provided with a first conveying rail 11, a second conveying rail 12 and a third conveying rail 13, wherein the first conveying rail 11, the second conveying rail 12 and the third conveying rail 13 are respectively used for conveying upper-row materials, middle-row materials and lower-row materials; in this embodiment, a hood 16 is further disposed on the frame 10, and the feeding device 30, the positioning device 40, the pressing device 50, the first cutting and suction device 60, the first hot-melting device 70, the second cutting and suction device 80, and the second hot-melting device 90 are all covered by the hood 16; the rack 10 is further provided with a vacuum blowing and sucking device 14 and a CCD detection device 15, the vacuum blowing and sucking devices 14 are two arranged along the conveying direction of the first conveying track 11 and are respectively arranged right below the output end and the input end of the first conveying track 11, the vacuum blowing and sucking device 14 is connected with the controller, the CCD detection device 15 is arranged right above the input end of the first conveying track 11 and is located behind the front side vacuum blowing and sucking device 14, the vacuum blowing and sucking device 14 is used for cleaning products, and the CCD detection device 15 is used for detecting the products and preventing unqualified products from flowing into a subsequent process.
The controller 20 is arranged on the frame 10; in the present embodiment, the controller 20 is provided on the hood 13.
The number of the feeding devices 30 is 3, and the output ends of the feeding devices are respectively communicated with the input ends of the first conveying track 11, the second conveying track 12 and the third conveying track 13; in this embodiment, the feeding device 30 includes a first feeding frame 31, a first feeding tray 32, a second feeding tray 33, a second feeding frame 34, and a third feeding tray 35, the first feeding frame 31 and the second feeding frame 34 are both disposed on the rack 10, the first feeding tray 32 is disposed on the first feeding frame 31, an output end of the first feeding tray 32 is communicated with an input end of the first conveying track 11, the second feeding tray 33 is disposed on the first feeding frame 31, an output end of the second feeding tray 33 is communicated with an input end of the second conveying track 12, the third feeding tray 35 is disposed on the second feeding frame 34, and an output end of the third feeding tray 35 is communicated with an input end of the third conveying track 13, wherein the first feeding tray 32, the second feeding tray 33, and the third feeding tray 35 are respectively used for feeding of upper feeding materials, a middle clamping piece, and a lower feeding material.
The positioning devices 40 are arranged on the rack 10 and are not arranged beside the first conveying track 11, two positioning devices 40 are arranged in the front and back direction of the conveying direction of the first conveying track 11, and each positioning device 40 is connected with the controller 20; in the present embodiment, the positioning device 40 includes a first movable plate 41, a positioning plate 42 and a positioning driving mechanism 43, the first movable plate 41 is movably disposed on the frame 10 up and down and back and forth and is located beside the first conveying track 11; the positioning plate 42 is disposed on the first movable plate 41 and moves back and forth above the first conveying rail 11 along with the first movable plate 41, and a through slot 401 for exposing the product is formed on the positioning plate 42; the positioning driving mechanism 43 is disposed on the frame 41 and drives the first movable plate 41 to move up and down, and the positioning driving mechanism 43 is connected to the controller 20.
The pressing devices 50 are arranged on the frame 10 and beside the first conveying track 11, the number of the pressing devices 50 is two, and the two pressing devices 50 are arranged in the front-back direction along the extending direction of the first conveying track 11, and each pressing device 50 is arranged at the back of each corresponding positioning device 50; in this embodiment, the pressing device 50 includes a second movable plate 51, a pressing plate 52 and a pressing driving mechanism 53, the second movable plate 51 is movably disposed on the frame 10 up and down and back and forth and is located beside the first conveying track 11, the pressing plate 52 is disposed on the second movable plate 51 and is movable up and down and back and forth directly above the first conveying track 11 along with the second movable plate 51; the pressing driving mechanism 53 is disposed on the frame 10 and drives the second movable plate 51 to move up and down, and the pressing driving mechanism 53 is connected to the controller 20.
The first cutting suction device 60 is arranged on the frame 10 and moves back and forth between the output end of the second conveying track 12 and the front side positioning device 40, and the first cutting suction device 60 is connected with the controller 20; in the present embodiment, the first cutting suction device 60 includes a first cutting device 61 and a first suction device 62; the first cutting device 61 includes a first bracket 611, a first cutting plate 612, a third movable plate 613, a first cutting head 614 and a first cutting driving mechanism 615; the first support 611 is disposed on the frame 10, and the second conveying rail 12 is disposed on the first support 611; the first cutting plate 612 is arranged on the first support 611 and is positioned right above the second conveying track 12, and a first cutting groove 601 is formed in the cutting plate 612; the third movable plate 613 is movably disposed on the first bracket 611 in a vertical direction and is located right below the second conveying rail 12 and the first cutting groove 601; the first cutting head 614 is disposed on the upper end of the third movable plate 613 and moves up and down with the third movable plate 613, and the first cutting head 614 extends upward into the first cutting groove 601; the first cutting driving mechanism 615 is disposed on the frame 10 and drives the third movable plate 613 to move up and down, and the first cutting driving mechanism 615 is connected to the controller 20; the first suction device 62 includes a second support 621, a fourth movable plate 622, a first suction driving mechanism 623, a first suction head 624, and a second suction driving mechanism 625, the second support 621 is disposed on the frame 10 and located beside the first support 611, the fourth movable plate 622 is longitudinally movably disposed on the second support 621 back and forth, the first suction driving mechanism 623 is disposed on the second support 621 and drives the fourth movable plate 622 to longitudinally move back and forth, and the first suction driving mechanism 623 is connected to the controller 20; the first suction head 624 is movably disposed on the fourth movable plate 622 up and down and back and forth and moves back and forth between the first cutting groove 601 and the positioning device 40 along with the fourth movable plate 622, the first suction head 624 is connected with the controller 20, the second suction driving mechanism 625 is disposed on the fourth movable plate 622 and drives the first suction head 624 to move up and down and back and forth, the second suction driving mechanism 625 is connected with the controller 20, the first cutting suction device 60 further includes a first waste material box 63, and the first waste material box 63 is disposed on the rack 10 and located under the first cutting groove 601.
The first hot melting device 70 is arranged on the rack 10 and beside the first conveying track 11, the first hot melting device 70 is arranged behind the front side pressing device 50 and connected with the controller 20, and the first hot melting device 70 is used for hot melting and fixing the assembled upper-row materials and the middle clamping pieces; in this embodiment, the first heat-melting device 70 includes a first heat-melting frame 71, a first heat-melting head 72 and a first heat-melting driving mechanism 73, the first heat-melting frame 71 is disposed on the frame 10 and located beside the first conveying rail 11, the first heat-melting head 72 is movably disposed on the first heat-melting frame 71 up and down and located right above the first conveying rail 11, the first heat-melting head 72 is connected to the controller 20, the first heat-melting driving mechanism 73 is disposed on the first heat-melting frame 71 and drives the first heat-melting head 72 to move up and down, and the first heat-melting driving mechanism 73 is connected to the controller 20.
The second cutting suction device 80 is arranged on the frame 10 and moves back and forth between the output end of the third conveying track 13 and the rear positioning device 40, and the second cutting suction device 80 is connected with the controller 20; in this embodiment, the second cutting driving device 80 includes a second cutting device 81 and a second sucking device 82, the second cutting device 81 includes a third bracket 811, a fifth movable plate 812, a second cutting head 813, a second cutting driving mechanism 814, a second cutting plate 815, a sixth movable plate 816, a third cutting head 817, and a third cutting driving mechanism 818; the third bracket 811 is disposed on the frame 10, the third conveying rail 13 is disposed on the third bracket 811, the fifth movable plate 812 is disposed on the third bracket 811 and located above the third conveying rail 13 in a vertically movable manner, the second cutting head 813 is disposed at the lower end of the fifth movable plate 812 and moves vertically above the third conveying rail 13 along with the fifth movable plate 812, the second cutting driving mechanism 814 is disposed on the frame 10 and drives the fifth movable plate 812 to move vertically, and the second cutting driving mechanism 814 is connected to the controller 20; the second cutting plate 815 is disposed on the third support 811 and located right above the third conveying rail 13, the second cutting plate 815 is provided with a second cutting groove 801, the sixth moving plate 816 is disposed on the third support 811 and located right below the third conveying rail 13 and the second cutting plate 815 in a vertically movable manner, the third cutting head 817 is disposed above the sixth moving plate 816 and moves vertically along with the sixth moving plate 816, the third cutting head 817 extends upward into the second cutting groove 801, the third cutting driving mechanism 818 is disposed on the frame 10 and drives the sixth moving plate 816 to move vertically, the third cutting driving mechanism 818 is connected with the controller 20, the second cutting suction device 80 further includes a second waste material box 83, and the second waste material box 83 is disposed on the frame and located right below the second cutting groove 801.
The second suction device 82 comprises a fourth bracket 821, a seventh movable plate 822, a third suction driving mechanism 823, an eighth movable plate 824, a fourth suction driving mechanism 825, a second suction head 826 and a fifth suction driving mechanism 827; the fourth support 821 is disposed on the frame 10 and beside the third support 811, the seventh movable plate 822 is longitudinally and reciprocally disposed on the fourth support 821, the third suction driving mechanism 823 is disposed on the fourth support 821 and drives the seventh movable plate 822 to longitudinally move reciprocally, and the third suction driving mechanism 823 is connected to the controller 20; the eighth movable plate 824 is movably disposed on the seventh movable plate 822 in a back-and-forth manner, and is movable back and forth along with the seventh movable plate 822 in a longitudinal direction, the fourth sucking driving mechanism 825 is disposed on the seventh movable plate 822 and drives the eighth movable plate 824 to move back and forth in a back-and-forth manner, and the fourth sucking driving mechanism 825 is connected to the controller 20; the second suction head 826 is movably disposed on the eighth movable plate 824 in a back-and-forth manner and moves back and forth along with the eighth movable plate 824, the second suction head 826 is connected to the controller 20, the fifth suction driving mechanism 827 is disposed on the eighth movable plate 824 and drives the second suction head 826 to move back and forth in a transverse manner, and the fifth suction driving mechanism 827 is connected to the controller 20.
The second hot melting device 90 is arranged on the rack 10 and beside the second conveying track 12, and the second hot melting device 90 is arranged behind the rear pressing device 50 and connected with the controller 20; in this embodiment, the second fuse device 90 includes a second fuse holder 91, a second fuse head 92, a second fuse driving mechanism 93, a third fuse holder 94, a third fuse head 95, and a third fuse driving mechanism 96; the second hot melting frame 91 is arranged on the rack 10 and located beside the first conveying track 11, the second hot melting head 92 can be movably arranged on the second hot melting frame 91 up and down and back and forth and located right above the first conveying track 11, the second hot melting head 92 is connected with the controller 20, the second hot melting driving mechanism 93 is arranged on the second hot melting frame 91 and drives the second hot melting head 92 to move up and down and back and forth, and the second hot melting driving mechanism 93 is connected with the controller 20; the third hot melting frame 94 is arranged on the rack 10 and located beside the first conveying track 11, the third hot melting head 95 is movably arranged on the third hot melting frame 94 up and down and located under the first conveying track 11, the third hot melting head 95 is connected with the controller 20, the third hot melting driving mechanism 96 is arranged on the third hot melting frame 94 and drives the third hot melting head 95 to move up and down, and the third hot melting driving mechanism 96 is connected with the controller 20.
Detailed description the working principle of the present embodiment is as follows:
during operation, the upper row of materials in the first upper tray 32 is conveyed to the input end of the first conveying track 11 through the first upper tray 32, and passes through the vacuum blowing and sucking device 14 and the CCD detection device 15 in sequence for cleaning and detection, then the upper row of materials is positioned by the positioning device 40 on the front side of the conveying, meanwhile, the middle clip material in the second upper tray 33 is conveyed to the input end of the second conveying track 12 through the second upper tray 33, and is conveyed to the first cutting and sucking device 60 through the second conveying track 12, the middle clip material in the middle clip material is cut off by the first cutting device 61 in the first cutting and sucking device 60, then the cut middle clip is assembled to the upper row of materials at the position of the positioning device 40 through the first sucking device 62, then the upper row of materials and the middle clip are conveyed to the front cutting and sucking device 50 together and are compressed and assembled, after the assembly is completed, the first hot-melting and fixing are conveyed to the first hot-melting device 70 for forming a semi-finished product, then the hot-melting and assembling of the assembled materials and the middle clip material are conveyed to the front and sucking device 50 and pressed and assembled, after the hot-melting and fixed to the upper row of the conveying device 80, the third semi-finished product passes through the second upper row of the second conveying device 35, the third hot-melting and sucking device 35, the upper row of the conveying device 35 and sucking device 35, finally, the assembled product is conveyed backwards by the first conveying track 11.
The utility model discloses a design focus lies in: be 3 through loading attachment to the cooperation is first to cut suction means, first hot melt device, the second cuts the setting of suction means and second hot melt device, can be simultaneously with each components and parts simultaneous feeding of Type-C connector, and cut and assemble in proper order, the degree of automation of whole assembling process has been improved, the cost of labor has been reduced simultaneously, automatic package assembly can also effectively guarantee the stability of product quality in the course of working of big batch product, can satisfy large batch processing demand.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.
Claims (10)
1. The utility model provides a trinity automatic kludge of two SMT-TYPE-C which characterized in that: the device comprises a rack, a controller, a feeding device, a positioning device, a pressing device, a first cutting and sucking device, a first hot melting device, a second cutting and sucking device and a second hot melting device; the rack is provided with a first conveying track, a second conveying track and a third conveying track; the controller is arranged on the frame; the number of the feeding devices is 3, and the output ends of the feeding devices are respectively communicated with the input ends of the first conveying track, the second conveying track and the third conveying track; the positioning devices are arranged on the rack and are not arranged beside the first conveying track, the two positioning devices are arranged in the front and back direction of the conveying direction of the first conveying track, and each positioning device is connected with the controller; the pressing devices are arranged on the rack and positioned beside the first conveying track, the number of the pressing devices is two, the two pressing devices are arranged in the front and back direction along the extension direction of the first conveying track, and each pressing device is arranged behind each corresponding positioning device; the first cutting suction device is arranged on the rack and moves back and forth between the output end of the second conveying track and the front side positioning device, and the first cutting suction device is connected with the controller; the first hot melting device is arranged on the rack and positioned beside the first conveying track, and the first hot melting device is positioned behind the front side pressing device and connected with the controller; the second cutting suction device is arranged on the rack and moves back and forth between the output end of the third conveying track and the rear side positioning device, and the second cutting suction device is connected with the controller; the second hot melting device is arranged on the rack and located beside the second conveying rail, and the second hot melting device is arranged behind the rear-side pressing device and connected with the controller.
2. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 1, wherein: the machine frame is further provided with a machine cover, the feeding device, the positioning device, the pressing device, the first cutting and sucking device, the first hot melting device, the second cutting and sucking device and the second hot melting device are covered by the machine cover, and the controller is arranged on the machine cover.
3. The automatic assembly machine of two SMT-TYPE-C trinity of claim 1, characterized in that: the feeding device comprises a first feeding frame, a first feeding disc, a second feeding frame and a third feeding disc, wherein the first feeding frame and the second feeding frame are arranged on the rack, the first feeding disc is arranged on the first feeding frame, the output end of the first feeding disc is communicated with the input end of the first conveying track, the second feeding disc is arranged on the first feeding frame, the output end of the second feeding disc is communicated with the input end of the second conveying track, the third feeding disc is arranged on the second feeding frame, and the output end of the third feeding disc is communicated with the input end of the third conveying track.
4. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 1, wherein: the positioning device comprises a first movable plate, a positioning plate and a positioning driving mechanism, wherein the first movable plate can be movably arranged on the rack up and down and back and forth and is positioned beside the first conveying track; the positioning plate is arranged on the first movable plate and moves back and forth above the first conveying track along with the first movable plate, and a through groove for exposing a product is formed in the positioning plate; the positioning driving mechanism is arranged on the frame and drives the first movable plate to move up and down, and the positioning driving mechanism is connected with the controller.
5. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 1, wherein: the pressing device comprises a second movable plate, a pressing plate and a pressing driving mechanism, the second movable plate can be movably arranged on the rack up and down and back and forth and is positioned beside the first conveying track, and the pressing plate is arranged on the second movable plate and moves up and down and back and forth above the first conveying track along with the second movable plate; the pressing driving mechanism is arranged on the rack and drives the second movable plate to move up and down, and the pressing driving mechanism is connected with the controller.
6. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 1, wherein: the first cutting suction device comprises a first cutting device and a first suction device; the first cutting device comprises a first bracket, a first cutting plate, a third movable plate, a first cutting head and a first cutting driving mechanism; the first bracket is arranged on the frame, and the second conveying track is arranged on the first bracket; the first cutting plate is arranged on the first support and is positioned right above the second conveying track, and a first cutting groove is formed in the cutting plate; the third movable plate can be movably arranged on the first bracket up and down and back and forth and is positioned right below the second conveying track and the first cutting groove; the first cutting head is arranged at the upper end of the third movable plate and moves up and down along with the third movable plate, and the first cutting head extends upwards into the first cutting groove; the first cutting driving mechanism is arranged on the rack and drives the third movable plate to move up and down and back and forth, and the first cutting driving mechanism is connected with the controller; the first suction device comprises a second support, a fourth movable plate, a first suction driving mechanism, a first suction head and a second suction driving mechanism, the second support is arranged on the rack and located beside the first support, the fourth movable plate can be longitudinally and movably arranged on the second support back and forth, the first suction driving mechanism is arranged on the second support and drives the fourth movable plate to longitudinally move back and forth, and the first suction driving mechanism is connected with the controller; the first suction head can be movably arranged on the fourth movable plate up and down and moves back and forth between the first cutting groove and the positioning device along with the fourth movable plate, the first suction head is connected with the controller, the second suction driving mechanism is arranged on the fourth movable plate and drives the first suction head to move back and forth up and down, and the second suction driving mechanism is connected with the controller.
7. The automatic assembly machine of two SMT-TYPE-C trinity of claim 1, characterized in that: the second cutting driving device comprises a second cutting device and a second suction device, and the second cutting device comprises a third support, a fifth movable plate, a second cutting head, a second cutting driving mechanism, a second cutting plate, a sixth movable plate, a third cutting head and a third cutting driving mechanism; the third support is arranged on the rack, the third conveying track is arranged on the third support, the fifth movable plate can be movably arranged on the third support up and down and back and forth and is positioned right above the third conveying track, the second cutting head is arranged at the lower end of the fifth movable plate and moves up and down and back and forth right above the third conveying track along with the fifth movable plate, the second cutting driving mechanism is arranged on the rack and drives the fifth movable plate to move up and down and back and forth, and the second cutting driving mechanism is connected with the controller; the second cutting plate is arranged on the third support and located right above the third conveying track, a second cutting groove is formed in the second cutting plate, the sixth movable plate can be movably arranged on the third support in a vertical reciprocating mode and located right below the third conveying track and the second cutting plate, the third cutting head is arranged above the sixth movable plate and moves vertically along with the sixth movable plate in a reciprocating mode, the third cutting head upwards extends into the second cutting groove, the third cutting driving mechanism is arranged on the rack and drives the sixth movable plate to move vertically in a reciprocating mode, and the third cutting driving mechanism is connected with the controller.
8. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 7, wherein: the second suction device comprises a fourth support, a seventh movable plate, a third suction driving mechanism, an eighth movable plate, a fourth suction driving mechanism, a second suction head and a fifth suction driving mechanism; the fourth bracket is arranged on the rack and positioned beside the third bracket, the seventh movable plate can be longitudinally and movably arranged on the fourth bracket back and forth, the third suction driving mechanism is arranged on the fourth bracket and drives the seventh movable plate to longitudinally move back and forth, and the third suction driving mechanism is connected with the controller; the eighth movable plate can be movably arranged on the seventh movable plate up and down and back and forth and can move back and forth along with the seventh movable plate longitudinally, the fourth suction driving mechanism is arranged on the seventh movable plate and drives the eighth movable plate to move up and down and back and forth, and the fourth suction driving mechanism is connected with the controller; the second suction head can be movably arranged on the eighth movable plate back and forth in a transverse line and can move back and forth up and down along with the eighth movable plate, the second suction head is connected with the controller, the fifth suction driving mechanism is arranged on the eighth movable plate and drives the second suction head to move back and forth transversely, and the fifth suction driving mechanism is connected with the controller.
9. The automatic assembly machine of two SMT-TYPE-C trinity of claim 1, characterized in that: the first hot melting device comprises a first hot melting frame, a first hot melting head and a first hot melting driving mechanism, the first hot melting frame is arranged on the rack and located beside the first conveying track, the first hot melting head can be movably arranged on the first hot melting frame up and down in a reciprocating mode and located right above the first conveying track, the first hot melting head is connected with the controller, the first hot melting driving mechanism is arranged on the first hot melting frame and drives the first hot melting head to move up and down, and the first hot melting driving mechanism is connected with the controller.
10. The automatic double-SMT-TYPE-C three-in-one assembling machine according to claim 1, wherein: the second hot melting device comprises a second hot melting frame, a second hot melting head, a second hot melting driving mechanism, a third hot melting frame, a third hot melting head and a third hot melting driving mechanism; the second hot melting frame is arranged on the rack and positioned beside the first conveying track, the second hot melting head can be movably arranged on the second hot melting frame up and down and back and forth and positioned right above the first conveying track, the second hot melting head is connected with the controller, the second hot melting driving mechanism is arranged on the second hot melting frame and drives the second hot melting head to move up and down and back and forth, and the second hot melting driving mechanism is connected with the controller; the third hot melting frame is arranged on the rack and located beside the first conveying track, the third hot melting head can be movably arranged on the third hot melting frame up and down and back and forth and located under the first conveying track, the third hot melting head is connected with the controller, the third hot melting driving mechanism is arranged on the third hot melting frame and drives the third hot melting head to move up and down, and the third hot melting driving mechanism is connected with the controller.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222137174.5U CN218109937U (en) | 2022-08-15 | 2022-08-15 | Double SMT-TYPE-C three-in-one automatic assembling machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222137174.5U CN218109937U (en) | 2022-08-15 | 2022-08-15 | Double SMT-TYPE-C three-in-one automatic assembling machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN218109937U true CN218109937U (en) | 2022-12-23 |
Family
ID=84523665
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202222137174.5U Active CN218109937U (en) | 2022-08-15 | 2022-08-15 | Double SMT-TYPE-C three-in-one automatic assembling machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN218109937U (en) |
-
2022
- 2022-08-15 CN CN202222137174.5U patent/CN218109937U/en active Active
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