CN211027702U - Back panel connector chip propelling movement part - Google Patents

Abstract

The utility model discloses a backplane connector chip propelling movement part belongs to backplane connector equipment technical field, including the second workstation, still include drive assembly, frame, first drive assembly, second drive assembly and third drive assembly, the vertical setting of frame and first drive assembly, second drive assembly and third drive assembly all install in the frame, drive assembly installs in the frame and drive assembly and first drive assembly, second drive assembly and third drive assembly transmission cooperation, drive assembly includes driving motor, drive gear, hold-in range, transmission shaft and synchronizing wheel. The utility model discloses a first drive assembly, second drive assembly and third drive assembly work can take off the first chip in the first chip strip material in-band and outwards release this first chip.

Description

Back panel connector chip propelling movement part

Technical Field

The utility model belongs to the technical field of backplane connector technique and specifically relates to a backplane connector chip propelling movement part is related to.

Background

In the chip processing, a chip material belt needs to be placed at a die cutting position for die cutting, if the chip material belt cannot be accurately positioned in the die cutting, the quality of the die cutting of the chip is reduced, and the quality of the chip is affected, reference is made to a chip die cutting die with patent number CN207823693U, which comprises a die frame, a male die assembly and a female die assembly are oppositely arranged on the die frame, a guide groove for guiding the chip material belt is arranged between the male die assembly and the female die assembly on the die frame, the male die assembly is pressed towards the female die assembly under the driving of a driving device, the device can pass through the die frame, the male die assembly, the female die assembly and the guide groove, wherein the guide groove is positioned between the male die assembly and the female die assembly, so that the male die assembly can accurately position the chip material belt when pressed towards the female die assembly, and the processing precision is improved,

however, the chips are usually removed from the die assembly by manual work or other devices after the die cutting, which wastes time and increases the production cost of the chips.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a backplane connector chip propelling movement part to it all is through artifical or other equipment just can take off the technical problem of chip in the die subassembly to take out the chip after the die-cut completion of chip among the solution prior art.

The utility model provides a backplane connector chip propelling movement part, including the second workstation, still include drive assembly, frame, first drive assembly, second drive assembly and third drive assembly, the vertical setting of frame and first drive assembly, second drive assembly and third drive assembly all install in the frame, drive assembly installs in the frame and drive assembly and first drive assembly, second drive assembly and third drive assembly transmission cooperation, drive assembly includes driving motor, drive gear, hold-in range, transmission shaft and synchronizing wheel, driving motor installs on the frame lateral wall and drive gear cup joints on driving motor's output shaft, and the transmission shaft can be rotated install in the frame and the synchronizing wheel cover is installed on the transmission shaft, and the synchronizing belt hoop is established on drive gear and synchronizing wheel, is equipped with first cam, second cam and third drive assembly on the transmission shaft, A second cam and a third cam.

Further, the second transmission assembly includes second positioning seat, second transfer line, presses the briquetting and presses the stripping and slicing, the second positioning seat is installed in the middle section of frame and the second transfer line is articulated with the second positioning seat, the second transfer line is transversal personally submits L shape and the one end of second transfer line is articulated with pressing the stripping and slicing, and the other end of second transfer line is equipped with the second and supports the touching wheel, the second supports the touching wheel and transmits epaxial second cam conflict cooperation, press the stripping and slicing can pivoted installation and frame top and press the stripping and slicing articulated with pressing the stripping and slicing, be equipped with the guide bar in pressing stripping and frame sliding fit and the frame, the cover is equipped with reset spring and presses the stripping and slicing and cup joints on the guide bar, reset spring's one end and frame conflict cooperation, reset spring's the other end and the bottom conflict cooperation of pressing the stripping and slicing, the below of pressing the stripping and slicing is equipped with briquetting and pressure cutting sword, press the cutter and be equipped with connecting spring between cutting and the briquetting sliding fit and the lifting spring of prepressing on the cover and the montant on the briquetting.

Further, third transmission assembly includes third positioning seat, third transfer line, lifting piece, lifting seat and asks the material piece, the third positioning seat is located transmission shaft side and third positioning seat and frame fixed connection, the third transfer line is L type and third transfer line and third positioning seat is articulated, the one end of third transfer line is equipped with the third and supports and touches the wheel, the third supports and touches the wheel and contradicts the cooperation with the third cam, and the other end and the lifting piece of third transfer line are articulated, the lifting seat is cut the lifting piece with frame fixed connection and can be gliding as for in the lifting seat, asks the material piece to install in the top of lifting seat.

Further, first drive assembly includes first butt touch wheel, first locating seat, first drive plate, first track and first slider, first drive plate is L type and first drive plate is articulated with first locating seat, first locating seat is installed in the bottom of frame, and first track is installed on the top of frame and first slider overlap joint and first slider, first butt touch wheel can the pivoted install in the one end of first drive plate and first butt touch wheel conflict cooperation with first cam, and the other end of first drive plate is articulated with first slider, be equipped with the locating plate rather than sliding fit on the first slider, the rear end of locating plate is equipped with forerunner cylinder and frame top fixed connection, be equipped with the first reset spring with first slider fixed connection on forerunner cylinder's the lateral wall.

Furthermore, a pushing notch is formed in the front end of the positioning plate.

Compared with the prior art, the beneficial effects of the utility model reside in that:

one of which, when the first chip that needs take first chip material away gets rid of, the drive passes through the hold-in range and drives synchronizing wheel and transmission shaft and rotate, the transmission shaft rotates and drives first cam, second cam and third cam rotate simultaneously, first cam can drive first drive assembly and carry out work, the second cam can drive second drive assembly and carry out work, the third cam can drive third drive assembly and carry out work, first drive assembly, second drive assembly and third drive assembly work can take off first chip in the first chip material area.

Secondly, when the first chip material belt is transferred to the position under the pressing and cutting block, the transmission shaft rotates to drive the second cam to rotate and the second abutting wheel to move, the second abutting wheel enables the second transmission rod to push the pressing block to move upwards, the pressing block enables the pressing and cutting block to move downwards, the pressing and cutting block moves downwards to drive the prepressing block to be in abutting fit with the first chip material belt to press and cut a first chip on the first chip material belt, the prepressing block is used for preventing the first chip material belt from moving to cause the first chip to be incomplete when the pressing and cutting knife presses and the transmission shaft rotates, the third cam and the third abutting wheel move when the transmission shaft rotates, the third abutting wheel moves to enable the hinged lifting block of the third transmission rod to vertically move upwards in the lifting seat, the lifting block moves upwards to drive the supporting block to move upwards, and when a first chip is positioned between the supporting block and the prepressing block, the material supporting block moves upwards, the prepressing block moves downwards to cover the first chip, then the pressing cutter removes the first chip from the first chip belt, the material supporting block drives the first chip cut from the first chip belt to move to a working area of the first transmission assembly, the material supporting block is used for supporting the first chip, the transmission shaft drives the first cam and the first collision wheel to move when rotating, the first cam drives the first sliding block pushed by the first transmission plate to move on the first rail when moving, the first sliding block moves to drive the positioning plate to move, and after the front end of the positioning plate abuts against the pressed and cut first chip, the front driving cylinder drives the positioning plate to move forwards again to remove the first chip from the material supporting block so that the next pressing cutter can press and cut the first chip on the first chip belt.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a backplane connector assembling machine;

fig. 2 is a schematic perspective view of a feeding device of the backplane connector assembling machine;

fig. 3 is a schematic partial perspective view of a feeding device of a backplane connector assembling machine;

fig. 4 is a schematic view of a partial three-dimensional structure of a feeding device of the backplane connector assembling machine;

fig. 5 is a schematic diagram of a first chip feeding device and a second chip feeding device of the backplane connector assembling machine;

fig. 6 is a schematic perspective view of a first chip feeding device of the backplane connector assembling machine;

fig. 7 is a schematic view of a partial three-dimensional structure of a material bridge cutting assembly of the backplane connector assembling machine;

fig. 8 is a schematic view of a partial three-dimensional structure of a material bridge cutting assembly of the backplane connector assembling machine;

fig. 9 is a schematic perspective view of a beam assembling device of the backplane connector assembling machine;

fig. 10 is a schematic partial perspective view of a cross beam assembling device of a backplane connector assembling machine;

fig. 11 is a partial perspective view of a cross beam assembling device of the backplane connector assembling machine;

fig. 12 is an assembly schematic view of the operation conveyor belt of the backplane connector assembly machine;

fig. 13 is a schematic perspective view of the detecting device and the material storing device of the backplane connector assembling machine;

fig. 14 is a partial perspective view of the inspection device of the backplane connector assembling machine;

fig. 15 is a schematic perspective view of a material storing device of the backplane connector assembling machine;

fig. 16 is a first schematic perspective view of a chip pushing component of a backplane connector assembly machine;

fig. 17 is a second schematic perspective view of a chip pushing component of a backplane connector assembly machine;

fig. 18 is a schematic partial perspective view of a chip pushing component of a backplane connector assembly machine;

fig. 19 is a schematic perspective view of a first transmission assembly of the backplane connector assembling machine;

fig. 20 is a schematic view of the positioning plate of the backplane connector assembling machine;

fig. 21 is a schematic perspective view of a second transmission assembly of the backplane connector assembling machine;

fig. 22 is a schematic perspective view of a third transmission assembly of the backplane connector assembling machine;

fig. 23 is a schematic view showing the operation of the backing plate connector assembling machine material supporting block and the pre-pressing block;

fig. 24 is a schematic partial perspective view of a second transmission set of the backplane connector assembling machine.

Reference numerals:

a feeding device 1, a first workbench 11, a rubber core vibrating disc 12, a pushing assembly 13, a first mounting plate 131, a first positioning plate 132, a first rubber core storage block 133, a first pushing cylinder 134, a pushing member 135, a first pushing air clamp 136, a first chip feeding device 2, a second workbench 21, a discharging assembly 22, a discharging frame 221, a receiving frame 222, a bridge cutting assembly 23, a supporting bracket 231, a pushing member 232, a punching member 233, a pushing gear 234, a punching block 235, a punching cylinder 236, a positioning rod 237, a punching plate 238, a second chip feeding device 3, a beam assembling device 4, a third workbench 41, a beam vibrating disc 42, a rotating disc 43, a positioning jig 431, a beam assembling assembly 44, a first manipulator 45, a detecting device 5, a fourth workbench 51, a detecting disc 52, a detecting jig 521, a CCD detecting assembly 53, a lead-through high-pressure dotting assembly 54, a defective product discharging assembly 55, good product marking machine 56, material storage device 6, fifth workbench 61, good product conveying belt 62, conversion component 63, finished product pushing component 64, empty pipe prestoring component 65, material conveying belt 7, carrier backflow device 8, operation conveying belt 81, lifting component 82, carrier 821, first electric cylinder 822, first operation member 823, operation component 83, second electric cylinder 831, second operation member 832, backplane connector chip pushing component 9, driving component 91, driving motor 911, driving gear 912, synchronous belt 913, transmission shaft 914, synchronous wheel 915, first cam 916, second cam 917, third cam 918, frame 92, first transmission component 93, first abutting wheel 931, first positioning seat 932, first transmission plate 933, first rail 934, first sliding block 935, front driving cylinder 936, positioning plate 937, pushing notch 938, second transmission component 94, second positioning seat 941, second transmission rod 942, according to the briquetting 943, the pressure is cut piece 944, and the second is supported and is touched wheel 945, guide bar 946, reset spring 947, pre-compaction piece 948, pressure cutter 949, coupling spring 9410, montant 9411, lifting spring 9412, third drive assembly 95, third positioning seat 951, third transfer line 952, lifting piece 953, lifting seat 954, asks material piece 955, the third is supported and is touched wheel 956, first core sheet material area 10.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 24, an embodiment of the present invention provides a backplane connector assembling machine, including a feeding device 1, a first chip feeding device 2, a second chip feeding device 3, a beam assembling device 4, a detecting device 5, a material storage device 6, a material conveying belt 7 and a carrier backflow device 8, the feeding device 1, the first chip feeding device 2, the second chip feeding device 3, the beam assembling device 4, the detecting device 5 and the material storage device 6 are arranged along a straight line at intervals, the material conveying belt 7 is erected on the first chip feeding device 2, the second chip feeding device 3, the beam assembling device 4 and the detecting device 5, and two ends of the carrier backflow device 8 are respectively arranged in the feeding device 1 and the beam assembling device 4.

The feeding device 1 comprises a first workbench 11, a rubber core vibration disc 12 and a pushing assembly 13, the rubber core vibration disc 12 and the pushing assembly 13 are arranged at intervals and the rubber core vibration disc 12 and the pushing assembly 13 are both arranged at the top of the first workbench 11, the output end of the rubber core vibration disc 12 is provided with a material sliding channel extending to the pushing assembly 13, the pushing assembly 13 comprises a first mounting plate 131, a first positioning plate 132, a first rubber core storage block 133, a first pushing cylinder 134 and a pushing member 135, the first mounting plate 131 is fixedly connected to the first workbench 11, the first positioning plate 132 is arranged on the first mounting plate 131, the first rubber core storage block 133 is arranged on the first positioning plate 132, the first pushing cylinder 134 is arranged on the first mounting plate 131, the pushing member 135 is arranged on the first workbench 11, and a first pushing air clamp 136 for transferring a rubber core to a material conveying belt 7 is arranged in the pushing member 135, place a large amount of gluey cores in gluey core vibration dish 12 and will carry the gluey core one by one to first gluey core storage block 133 in proper order through smooth material way, the work area that first propelling movement cylinder 134 can push a gluey core of the bottom in the first gluey core storage block 133 to the first propelling movement air clamp 136 that sets up on propelling movement member 135, through first propelling movement air clamp 136 can install gluey core on the carrier 821 that sets up on carrier reflux unit 8 through propelling movement member 135 after with gluey core centre gripping.

The first chip feeding device 2 and the second chip feeding device 3 have the same structure, the first chip feeding device 2 comprises a second workbench 21, a discharging assembly 22 and a material bridge cutting assembly 23, the discharging assembly 22 and the material bridge cutting assembly 23 are both mounted on the second workbench 21, the discharging assembly 22 comprises a discharging frame 221 and a receiving frame 222, the discharging frame 221 and the receiving frame 222 are arranged at intervals, the material bridge cutting assembly 23 comprises a supporting bracket 231, a pushing member 232 and a punching piece 233, the supporting bracket 231 is positioned between the discharging frame 221 and the receiving frame 222, the supporting bracket 231 is fixedly connected with the second workbench 21, the pushing member 232 is mounted on the supporting bracket 231, a pushing gear 234 for pushing the first chip belt 10 placed on the supporting bracket 231 is arranged in the pushing member 232, the punching piece 233 is erected on the supporting bracket 231, and the punching piece 233 comprises a punching block 235, a punching cylinder 236 and two positioning rods 237, two positioning rods 237 are arranged at intervals, punching blocks 235 are sleeved on the two positioning rods 237, a punching plate 238 is arranged at the top of the two positioning rods 237, a punching cylinder 236 is arranged on the punching plate 238, the output end of the punching cylinder 236 is fixedly connected with the punching blocks 235, when the first chip feeding device 2 works, a first chip strip 10 is stored in a storage rack 221 in a winding manner, when the first chip strip 10 needs to be assembled, the first chip strip 10 is placed on a support bracket 231, a pushing gear 234 arranged in a pushing piece 232 rotates to be meshed with the first chip strip 10 on the support bracket 231 to drive the first chip strip 10 to move on the support bracket 231, the punching cylinder 236 drives the punching blocks 235 on the two positioning rods 237 to punch first chips on the first chip strip 10 to remove bridges on the first chips, and when the second chip feeding device 3 works, the working principle of the second chip feeding device 2 is the same as that of the first chip feeding device, the die-cuts 235 replace the corresponding die-cuts 235 for a difference between the first chip and the second chip.

A backplane connector chip pushing component 9 is arranged beside each of the first chip feeding device 2 and the second chip feeding device 3, the backplane connector chip pushing assembly 9 is mounted on the second worktable 21, and the backplane connector chip pushing assembly 9 includes a driving assembly 91, a frame 92, a first transmission assembly 93, a second transmission assembly 94 and a third transmission assembly 95, the frame 92 is vertically arranged, and the first transmission assembly 93, the second transmission assembly 94 and the third transmission assembly 95 are all mounted on the frame 92, the driving assembly 91 is installed in the frame 92, the driving assembly 91 is in transmission fit with the first transmission assembly 93, the second transmission assembly 94 and the third transmission assembly 95, and the driving assembly 91 drives the first transmission assembly 93, the second transmission assembly 94 and the third transmission assembly 95 to work in sequence to take down the first chip from the first chip belt 10.

The driving assembly 91 comprises a driving motor 911, a driving gear 912, a synchronous belt 913, a transmission shaft 914 and a synchronous wheel 915, the driving motor 911 is installed on the outer side wall of the rack 92, the driving gear 912 is sleeved on the output shaft of the driving motor 911, the transmission shaft 914 is rotatably installed on the rack 92, the synchronous wheel 915 is sleeved on the transmission shaft 914, the synchronous belt 913 is hooped on the driving gear 912 and the synchronous wheel 915, the transmission shaft 914 is provided with a first cam 916, a second cam 917 and a third cam 918, the driving motor rotates the driving gear 912, the driving gear 912 drives the synchronous wheel 915 and the transmission shaft 914 to rotate through the synchronous belt 913, the transmission shaft 914 rotates to drive the first cam 916, the second cam 917 and the third cam 918 to rotate simultaneously, the first cam 916 can drive the first driving assembly 93 to work, and the second cam 917 can drive the second driving assembly 94 to work, the third cam 918 can drive the third transmission assembly 95 to work, and the first transmission assembly 93, the second transmission assembly 94 and the third transmission assembly 95 work to take down the first chip in the first chip strip 10 after the bridge is broken.

The second transmission assembly 94 includes second positioning seat 941, second transfer line 942, press piece 943 and push-cut piece 944, second positioning seat 941 is installed in the middle section of frame 92 and second transfer line 942 is articulated with second positioning seat 941, the transversal personally submitting L shape of second transfer line 942 and the one end of second transfer line 942 is articulated with press piece 943, the other end of second transfer line 942 is equipped with second and supports touch wheel 945, second support touch wheel 945 and the last second cam 917 conflict cooperation of transmission shaft 914, the installation that press piece 943 can rotate is with frame 92 top and press piece 943 and press piece 944 hinge, press piece 944 is equipped with guide bar 946 on frame 92 sliding fit and the frame 92, on the guide bar 946 the cover be equipped with reset spring 947 and press piece 944 cup joint on the guide bar 946, the one end of reset spring 947 and frame 92 conflict cooperation, the other end of reset spring 947 and the bottom conflict cooperation of press piece 944, the other end of reset spring 947 and press piece 948 and push down the push piece 948 and push the push down the push piece 948 and push down the push piece 948 and push down the push piece 948 and push down the push bar 948 and push down the push down piece of the push down piece 941 and push bar 948 and push down the push bar 948 and push down the push down piece of the push down the push bar 948 and push down the push bar 948 and push down the push down piece of the push bar 948 and push down the push down bar 948 and push down the push down bar 948 on the push down bar 948 and push down the push down bar 948 and push down the push down bar 948 and push down the push down bar 942 push.

The third driving assembly 95 includes a third positioning seat 951, a third driving rod 952, a lifting block 953, a lifting seat 954 and a supporting block 955, the third positioning seat 951 is located beside the driving shaft 914, the third positioning seat 951 is fixedly connected with the frame 92, the third driving rod 952 is L-shaped, the third driving rod 952 is hinged to the third positioning seat 951, one end of the third driving rod 952 is provided with a third contact wheel 956, the third contact wheel 956 is in interference fit with a third cam 918, the other end of the third driving rod 952 is hinged to the lifting block 953, the lifting seat 954 is fixedly connected with the frame 92, the lifting block 953 can slide in the lifting seat 954, the supporting block is mounted on the top of the lifting seat 954, the third cam 918 fixed on the rotating shaft rotates when the driving shaft 914 rotates, the third cam 918 rotates to drive the third contact wheel to move with the first contact core wheel 956 of the third contact wheel 918, the third contact wheel 956 rotates to drive another supporting block 955 to move with the first contact core wheel 956 of the supporting block 955, the first contact wheel 948 moves up to push the supporting block 955, the supporting block 948 to move the supporting block 955 after the first supporting block 955, and the first supporting block 948 moves to remove the first supporting block 955 from the first supporting block 955.

The first transmission assembly 93 includes a first abutting wheel 931, a first positioning seat 932, a first transmission plate 933, a first rail 934 and a first sliding block 935, the first transmission plate 933 is L-shaped, the first transmission plate 933 is hinged to the first positioning seat 932, the first positioning seat 932 is mounted at the bottom of the frame 92, the first rail 934 is mounted at the top of the frame 92, the first sliding block 935 overlaps and is connected to the first sliding block 935, the first abutting wheel 931 is rotatably mounted at one end of the first transmission plate 933, the first abutting wheel 931 is in abutting fit with the first cam 916, the other end of the first transmission plate 933 is hinged to the first sliding block 935, a positioning plate 937 in sliding fit with the first sliding block 935 is provided on the first sliding block 935, a front driving cylinder 936 is provided at the rear end of the positioning plate 937, the front driving cylinder 936 is fixedly connected to the top of the first sliding block 935, the first cam 916 is driven to rotate when the transmission shaft 914 rotates, the first cam 916 drives the first abutting wheel 931 to drive the first positioning plate 931 to move, the front abutting wheel 931 and drives the first positioning plate 939 to move the first positioning plate 939 to push the first positioning plate 933 to move the front positioning plate 939 forward and to move the first positioning plate 939.

The front end of locating plate 937 is equipped with propelling movement breach 938, and propelling movement breach 938 of locating plate 937 front end setting can make first chip lifting surface evenly can not lead to first chip skew to appear leading to first chip damaged because of thrust.

The beam assembling device 4 comprises a third workbench 41, a beam vibration disc 42, a rotating disc 43 and a beam assembling assembly 44, wherein the rotating disc 43 is installed at the top of the third workbench 41, the rotating disc 43 can rotate in a stepping manner, a plurality of positioning jigs 431 are arranged at the top of the rotating disc 43, the plurality of positioning jigs 431 are arranged at equal angles along the circumferential direction of the rotating disc 43, the beam vibration disc 42 is positioned at the side of the rotating disc 43, the beam vibration disc 42 is installed on the third workbench 41, the beam assembling assembly 44 is positioned at the side of the beam vibration disc 42, the beam vibration disc 42 and the beam assembling assembly 44 are matched with the plurality of positioning 431 jigs on the rotating disc 43, a first mechanical arm 45 which moves a rubber core placed on a carrier 821 to the positioning jigs 431 is arranged on the third workbench 41, the first mechanical arm 45 moves the rubber core placed on the carrier 821 to the positioning jigs 431 arranged on the rotating disc 43, the rotating disc 43 rotates to drive the positioning jig 431 with the rubber cores to rotate, a large number of cross beams are placed in the cross beam vibration disc 42, the cross beams are sequentially supplied outwards through the cross beam vibration disc 42, and the cross beam assembly 44 is used for installing the cross beams on the rubber cores placed on the positioning jig 431 and provided with the first chips and the second chips to form rubber core finished products.

The carrier backflow device 8 comprises a running conveyor belt 81, a lifting assembly 82 and a running assembly 83, a plurality of carriers 821 for containing rubber cores are arranged on the running conveyor belt 81, the lifting assembly 82 is arranged on a first workbench 11, the running assembly 83 is arranged on a third workbench 41, the running conveyor belt 81 is arranged in the first workbench 11, the third workbench 41 and two third workbenches 41, the input end of the running conveyor belt 81 is close to the output end of the running conveyor belt 81 arranged on the first workbench 83 and arranged towards the lifting assembly 82, the lifting assembly 82 comprises a first electric cylinder 822 and a first running piece 823, the first electric cylinder 822 is vertically arranged and fixedly connected with the first workbench 11, the first running piece 823 is arranged on the sliding table of the first electric cylinder 822 and is provided with a platform for bearing the carriers 821 on the first running piece 823, the running assembly 83 comprises a second electric cylinder 831 and a second running piece 832, the second electric cylinder 831 is vertically arranged and the second electric cylinder 831 is fixedly connected with the third working platform 41, a carrier 821 is transported to the input end of the material conveyor belt 7 by a first electric cylinder 822 driving a first runner 823 mounted on its slide, after a core rubber is clamped by the first air pushing clamp 136, the core rubber can be mounted on a carrier 821 on the material conveying belt 7 by the pushing member 135, the material conveying belt 7 drives the carrier 821 to move to the right front of the positioning plate 937 on the first chip feeding device 2, the positioning plate 937 on the first chip feeding device 2 inserts the first chip on the rubber core, after the first chip on the carrier 821 is inserted, the material conveyor 7 drives the carrier 821 to move to the front of the positioning plate 937 on the second chip feeding device 3, and the positioning plate 937 on the second chip feeding device 3 inserts the second chip on the rubber core to complete the assembly of the first chip and the second chip. The detection device 5 comprises a fourth workbench 51, a detection disc 52, a CCD detection assembly 53, a leading high-pressure dotting assembly 54, a defective product discharging assembly 55 and a non-defective product marking machine 56, wherein the detection disc 52 can be rotatably installed on the fourth workbench 51, the CCD detection assembly 53, the leading high-pressure dotting assembly 54, the defective product discharging assembly 55 and the non-defective product marking machine 56 are circumferentially arranged at equal intervals along the detection disc 52, a plurality of detection jigs 521 are arranged on the detection disc 52, a second manipulator used for moving the rubber core finished products in the positioning jigs 431 into the detection jigs 521 is arranged on the fourth workbench 51, the second manipulator is used for moving the rubber core finished products in the positioning jigs 431 into the detection jigs 521, the detection disc 52 can drive all the detection jigs 521 fixed on the detection disc 52 to rotate, and the rubber core finished products in the detection jigs 521 sequentially pass through the CCD detection assembly 53, The work areas of the high-pressure conducting marking assembly 54, the defective product discharging assembly 55 and the good product marking machine 56 are detected, unqualified rubber core finished products can be removed from the detection jig 521 through the defective product discharging assembly 55, and qualified rubber core finished products can move towards the direction of the material storage device 6.

The material storage device 6 comprises a fifth workbench 61, a good product conveyor belt 62, a conversion component 63, a finished product push-out component 64 and a hollow pipe prestoring component 65, wherein one section of the good product conveyor belt 62 is lapped on the fourth workbench 51, the other section of the good product conveyor belt 62 is lapped on the fifth workbench 61, the conversion component 63 is installed on the fourth workbench 51, the conversion component 63 can transfer the marked rubber cores onto the good product conveyor belt 62, the finished product push-out component 64 is positioned at the output end of the good product conveyor belt 62, the hollow pipe prestoring component 65 is positioned at the output end of the finished product push-out component 64, the finished product push-out component 64 and the hollow pipe prestoring component 65 are both installed on the fifth workbench 61, the conversion component 63 is used for taking out the qualified rubber core finished products from the detection jig 521 and placing the good product conveyor belt 62, the good product conveyor belt 62 moves the qualified rubber core finished products to the direction of the finished product push-out component 64, the finished product pushing assembly 64 pushes the qualified rubber core finished product into the empty pipe pre-storage assembly 65, and the empty pipe pre-storage assembly 65 is used for storing the qualified rubber core finished product.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (5)

1. A backplane connector chip push component, includes second workstation (21), its characterized in that: still include drive assembly (91), frame (92), first drive assembly (93), second drive assembly (94) and third drive assembly (95), frame (92) vertical setting and first drive assembly (93), second drive assembly (94) and third drive assembly (95) all install with frame (92) on, drive assembly (91) are installed in frame (92) and drive assembly (91) and first drive assembly (93), second drive assembly (94) and third drive assembly (95) transmission cooperation, drive assembly (91) are including driving motor (911), drive gear (912), hold-in range (913), transmission shaft (914) and synchronizing wheel (915), driving motor (911) are installed on frame (92) lateral wall and drive gear (912) cup joint on the output shaft of driving motor (911), and the transmission shaft (914) can be pivoted install on frame (92) and synchronizing wheel (915) cover is installed on transmission shaft (914) ) The synchronous belt (913) is hooped on the driving gear (912) and the synchronous wheel (915), and the transmission shaft (914) is provided with a first cam (916), a second cam (917) and a third cam (918).

2. The backplane connector chip pushing part according to claim 1, wherein the second transmission assembly (94) comprises a second positioning seat (941), a second transmission rod (942), a pressing block (943) and a pressing and cutting block (944), the second positioning seat (941) is installed in the middle section of the rack (92) and the second transmission rod (942) is hinged to the second positioning seat (941), the cross section of the second transmission rod (942) is L-shaped and the end of the second transmission rod (942) is hinged to the pressing block (943), the other end of the second transmission rod (942) is provided with a second abutting wheel (945), the second abutting wheel (945) is in abutting fit with a second cam (917) on the transmission shaft (914), the pressing block (943) can rotate, the installation of the pressing block (943) and the rack (92) top is hinged to the pressing block (944), the pressing block (943) is hinged to the pressing and cutting block (944), the pressing block (941) is provided with a guide rod (946) on the sliding fit of the rack (92), the pressing block (946) is provided with a pressing and cutting spring (941) and a pressing and cutting block (9418), the pressing and a pressing and cutting spring (9418) is provided with a pressing and a pressing block (944), the pressing and a pressing and cutting spring (9418) and a pressing and cutting spring (948, the pressing and a pressing and cutting spring (9418, the pressing and a pressing and.

3. The backplane connector chip pushing assembly according to claim 1, wherein the third transmission assembly (95) comprises a third positioning seat (951), a third transmission rod (952), a lifting block (953), a lifting seat (954) and a material supporting block (955), the third positioning seat (951) is located beside the transmission shaft (914), the third positioning seat (951) is fixedly connected with the rack (92), the third transmission rod (952) is L-shaped, the third transmission rod (952) is hinged to the third positioning seat (951), one end of the third transmission rod (952) is provided with a third interference wheel (956), the third interference wheel (956) is in interference fit with the third cam (918), the other end of the third transmission rod (952) is hinged to the lifting block (953), the lifting seat (954) is fixedly connected with the rack (92), the lifting block (953) can slide in the lifting seat (954), and the material supporting block (955) is mounted on the top of the lifting seat (954).

4. The backplane connector chip pushing assembly according to claim 1, wherein the first transmission assembly (93) comprises a first abutting wheel (931), a first positioning seat (932), a first transmission plate (933), a first rail (934) and a first slider (935), the first transmission plate (933) is L-shaped, the first transmission plate (933) is hinged to the first positioning seat (932), the first positioning seat (932) is mounted at the bottom of the frame (92), the first rail (934) is mounted at the top of the frame (92) and the first slider (935) is lapped on the first slider (935), the first abutting wheel (931) is rotatably mounted at one end of the first transmission plate (933) and the first abutting wheel (931) is matched with the first cam (916), the other end of the first transmission plate (933) is abutted against the first slider (935), the first slider (935) is provided with a front positioning plate (937) which is slidably matched with the first abutting wheel (933), and the first cylinder (936) is provided with a front positioning plate (937) which is connected with a rear positioning plate (937).

5. The backplane connector chip push component of claim 4, wherein: the front end of the positioning plate (937) is provided with a pushing notch (938).

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