CN217334640U - Automatic assembly machine for antenna terminal - Google Patents

Abstract

The utility model discloses an antenna terminal automatic assembly machine, including the auto-feed subassembly, automatic die-cut unloading subassembly, the revolving stage, the automated inspection subassembly, automatic displacement absorbs subassembly and pad pasting assembly subassembly, automatic die-cut unloading subassembly is including die-cut frame, die-cut cylinder, slider slide rail set spare, the locating plate, the limiting plate, the pilot pin and with the die-cut cutter arbor of the die-cut unloading of antenna terminal, automatic displacement absorbs the subassembly including the horizontal lead screw pair that slides, the lift cylinder, the displacement cylinder, the range plate, a spring, the guide arm, a plurality of displacement piece and suction nozzle, pad pasting assembly subassembly includes membrane material blowing dish, membrane material slide rail, the coiling motor, rolling dish and paper tape storage dish, this automatic assembly machine utilizes automatic die-cut unloading subassembly to cut the even antenna terminal of interval under the die-cut to expect the carrier on the revolving stage, absorb the antenna terminal synchronous absorption of the subassembly by automatic displacement, The distance is changed and the packaging film is placed, so that the processes of cutting, blanking and film pasting and assembling are completed, the automation degree is high, and the production efficiency is accelerated.

Description

Automatic assembly machine for antenna terminal

Technical Field

The utility model relates to an automatic technical field, concretely relates to antenna terminal automatic assembly machine.

Background

Be equipped with wireless network card on the notebook computer mainboard basically, make the notebook possess wireless internet function, wherein wireless network card is provided with two antennas, and be connected with the antenna terminal between antenna and the wireless network card, the antenna terminal adopts the die-cut shaping of metal material area, and to the antenna terminal after the shaping, need cut the unloading, and carry out the pad pasting assembly, so that the cooperation is produced the line and is installed, because the antenna terminal volume is less, in batched cutting unloading process and pad pasting assembly process, the manpower is very inconvenient, it is necessary to design an automation equipment, accelerate to go up the unloading from the material area to the antenna terminal, and detect antenna terminal product quality, later pass through automatic clamp and get equipment with the antenna terminal interval attached on the membrane material area uniformly, the rolling packing, time and labor saving, fully accelerate production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose: in view of the technical problems in the background art that due to the fact that the size of an antenna terminal is small, manpower is inconvenient in a batch cutting and blanking process and a film pasting assembly process, and production efficiency is low, an automatic antenna terminal assembling machine is designed to complete the batch cutting and blanking process and the film pasting assembly process of the antenna terminal, time and labor are saved, and production efficiency is fully accelerated.

The technical scheme adopted for solving the problems is as follows:

an automatic antenna terminal assembling machine comprises an automatic feeding assembly, an automatic punching and blanking assembly, a rotating table, an automatic detection assembly, an automatic variable-pitch suction assembly and a film adhering assembly.

The automatic feeding assembly comprises a feeding disc, a feeding slide rail, a limiting slide rail, a feeding motor and a feeding fluted disc, wherein the feeding disc is positioned above the workbench through a support, the metal material belt with antenna terminals formed by punching is fed into the limiting slide rail along the feeding slide rail, limiting frames are arranged on two sides of the limiting slide rail so as to ensure that the metal material belt keeps feeding in a linear direction, the feeding motor is fixedly connected to one side of the limiting slide rail, a main shaft of the feeding motor is fixedly connected with the feeding fluted disc, teeth are uniformly arranged on the periphery of the feeding fluted disc at intervals, the teeth are just opposite to positioning holes which are uniformly arranged on two sides of the metal material belt at intervals, and the teeth are matched with the positioning holes to drive the metal material belt to continuously feed through the rotation of the feeding fluted disc,

the automatic punching and blanking assembly is arranged at a position behind the feeding fluted disc and comprises a punching frame, a punching cylinder, a slider slide rail assembly, a positioning plate, a limiting plate, a positioning needle and a punching cutter bar for punching and blanking an antenna terminal, wherein the positioning plate is fixedly connected with an ejector rod of the punching cylinder, the lower end of the positioning plate is fixedly connected with the positioning needle and the punching cutter bar, the positioning needle is just opposite to positioning holes at two sides of a metal material belt below, the punching cutter bar is just opposite to the antenna terminal on the metal material belt below, the limiting plate is provided with a profiling hole for limiting the positioning needle and the punching cutter bar so as to accurately punch the metal material belt in the vertical direction of the positioning needle and the punching cutter bar, a carrier is further arranged under the punching cutter bar, the carrier is arranged under the metal material belt and is fixedly connected on the rotating table,

the outer periphery of the upper end face of the rotating platform is provided with a plurality of carriers in an annular array, a plurality of material carrying grooves are uniformly arranged on the carriers at intervals, the material carrying grooves are square grooves for positioning and placing antenna terminals for blanking, the rotating platform rotates at equal angles, and a plurality of automatic detection assemblies are arranged around the periphery of the rotating platform,

the automatic detection component comprises a CCD industrial camera, a light supplementing light source and a camera bracket, the CCD industrial camera is over against the antenna terminal to be detected and the carrier,

the automatic variable-pitch suction assembly comprises a horizontal sliding screw rod pair, a lifting cylinder, a variable-pitch cylinder, a distance limiting plate, a spring, a guide rod, a plurality of variable-pitch blocks and suction nozzles, wherein the lifting cylinder is fixedly connected to a screw rod sliding block of the horizontal sliding screw rod pair, the lower end of a mandril of the lifting cylinder is fixedly connected with the distance limiting plate, the distance limiting plate comprises an upper distance limiting plate and a lower distance limiting plate, a plurality of limiting steps are further arranged on the inner side surfaces of the upper distance limiting plate and the lower distance limiting plate to match the left and right sliding positioning and limiting of the variable-pitch blocks with different heights, the front end of each variable-pitch block is vertically and fixedly connected with the suction nozzle, the rear end of each variable-pitch block is matched with the guide rod in a penetrating and sleeving manner, the spring is further sleeved between every two adjacent variable-pitch blocks, the upper end and the lower end of each variable-pitch block are matched with the limiting steps, so that all the variable-pitch blocks are positioned by the limiting steps under the supporting action of the spring, and the suction nozzle at the front end of each variable-pitch block is just opposite to each antenna terminal on the carrier, the variable pitch cylinder is fixedly connected to one side of the distance limiting plate, the ejector rod horizontally penetrates through the centers of all the variable pitch blocks, after the ejector rod is ejected out, all the variable pitch blocks are pushed together, the distance between every two adjacent variable pitch blocks is kept the same, so that all the adsorbed antenna terminals are adjusted to be mutually spaced and are ready to be transferred to the film pasting assembly component,

pad pasting assembly components includes membrane material blowing dish, membrane material slide rail, coiling motor, rolling dish and paper tape storage plate, coiling motor drives the step-by-step rotation of rolling dish, and then drives the membrane material on the membrane material slide rail and feed in order, the paper tape of adhesion on the membrane material by paper tape storage plate collects.

Further, the last station of automatic die-cut unloading subassembly still is provided with cutting assembly, cutting assembly includes cuts the frame, cuts the cylinder, cuts the sword and cuts the blade holder, cut the clout that the sword just finished die-cut metal material area, cut the blanking with the clout segmentation by cutting the sword.

Furthermore, automatic die-cut unloading subassembly one side still is provided with the automated inspection subassembly to whether there is antenna terminal on the metal strip that detects to feed.

Furthermore, still parallel arrangement has the feed supplement subassembly on one side of pad pasting assembly subassembly to fill the antenna terminal product on the metal material area vacancy position, the feed supplement subassembly includes feed supplement dish, feed supplement track, feed supplement suction nozzle, press cylinder and top pushes away the cylinder, place the metal material area that carries the antenna terminal on the feed supplement track, drive the feed supplement suction nozzle by pressing the cylinder and absorb the antenna terminal, and push away the cylinder top and push away and move and place on the membrane material slide rail.

Furthermore, a feeding motor and a feeding fluted disc are further arranged on one side of the material supplementing track, and the feeding fluted disc rotates to drive the metal material belt to continuously feed.

The utility model has the advantages that:

this antenna terminal automatic assembly machine utilizes the auto-feed subassembly pulling metal material area feeding, recycle in the even antenna terminal punching of interval die-cut unloading subassembly punches the carrier of expecting on the revolving stage, and utilize and cut the sword and cut the blanking with the clout, the revolving stage is after several rotations, accomplish the detection of shooing of CCD camera in proper order, absorb the antenna terminal in with the carrier by automatic displacement absorption subassembly in step again, the displacement is placed on the packaging film, will be stained with the membrane material area rolling of antenna terminal by the rolling dish again, accomplish a whole set of unloading of cutting, pad pasting assembly process, and the automation degree is high, and is practical convenient, and accelerate production efficiency.

Drawings

Fig. 1 is a schematic structural view of an automatic assembling machine for antenna terminals according to the present embodiment;

fig. 2 is a left side plan view of the automatic assembling machine for antenna terminals of the present embodiment;

fig. 3 is a right side plan view of the automatic assembling machine for antenna terminals of the present embodiment;

fig. 4 is a schematic structural diagram of the automatic detection assembly, the automatic blanking assembly and the cutting assembly according to the embodiment;

fig. 5 is a schematic structural diagram of the automatic blanking assembly according to the present embodiment;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

fig. 7 is a schematic structural diagram of the carrier according to the present embodiment;

FIG. 8 is a schematic structural view of a patch assembly and a feeding assembly according to the present embodiment;

fig. 9 is a schematic structural diagram of the automatic pitch-variable suction assembly according to the present embodiment;

FIG. 10 is an exploded view of the automatic pitch suction assembly of the present embodiment;

fig. 11 is a schematic structural diagram of the metal tape of the present embodiment;

wherein, 1-discharging tray, 2-limiting slide rail, 3-display screen, 4-workbench, 5-automatic punching discharging component, 6-rotating table, 7-second automatic detection component, 8-touch screen, 9-automatic detection component, 10-feeding tray, 11-film material discharging tray, 12-paper tape receiving tray, 13-winding tray, 14-feeding slide rail, 15-automatic variable-pitch suction component, 16-second feeding motor, 17-feeding component, 18-metal material tape, 19-light supplement source, 20-CCD industrial camera, 21-feeding fluted disc, 22-punching rack, 23-cutting cylinder, 24-feeding motor, 25-punching cylinder, 26-punching cutter bar, 27-limiting plate, 28-positioning pin, 29-a pressing part, 30-a material loading end face, 31-a material loading groove, 32-a film material sliding rail, 33-a pressing cylinder, 34-a material supplementing suction nozzle, 35-a pushing cylinder, 36-a second feeding fluted disc, 37-a horizontal sliding screw rod pair, 38-a lifting cylinder, 39-a variable-pitch cylinder, 40-a variable-pitch block, 41-a suction nozzle, 42-an upper limit distance plate, 43-a guide rod, 44-a lower limit distance plate, 45-excess materials, 46-an antenna terminal and 47-a square base.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-11, the present embodiment provides an automatic assembling machine for antenna terminals 46, which includes an automatic feeding assembly, an automatic blanking assembly 5, a rotating platform 6, an automatic detecting assembly 9, an automatic pitch-changing absorbing assembly 15, and a film-attaching assembly.

Specifically speaking, the automatic feeding subassembly includes blowing dish 1, feeding slide rail 14, spacing slide rail 2, feed motor 24, feeds fluted disc 21, blowing dish 1 is fixed a position in workstation 4 top by the support, and the metal material area 18 that has antenna terminal 46 to die-cut shaping feeds to spacing slide rail 2 along feeding slide rail 14 in, 2 both sides of spacing slide rail are provided with spacing frame to guarantee that metal material area 18 keeps the linear direction to feed, feed motor 24 links firmly in 2 one sides of spacing slide rail, and feed motor 24's main shaft has linked firmly and has fed fluted disc 21, it is provided with the tooth uniformly to feed fluted disc 21 periphery interval, the tooth is just to the even locating hole of interval that metal material area 18 both sides set up, and tooth and locating hole cooperation back are driven metal material area 18 by feeding fluted disc 21 rotation and are continuously fed.

Referring to fig. 4, 5 and 6, the automatic blanking assembly 5 is disposed at a position behind the feeding fluted disc 21, and includes a blanking frame 22, a blanking cylinder 25, a slider rail assembly, a positioning plate, a limiting plate 27, a positioning pin 28 and a blanking knife bar 26 for blanking the antenna terminal 46, the positioning plate is fixedly connected with the mandril of the punching cylinder 25, the lower end of the positioning plate is fixedly connected with a positioning needle 28 and a punching cutter bar 26, the positioning pins 28 are aligned with the positioning holes on the two sides of the lower metal strip 18, the punching tool bar 26 is aligned with the antenna terminals 46 on the lower metal strip 18, the limit plate 27 is provided with a profiling hole which limits the positioning pin 28 and the blanking cutter bar 26, the metal material belt 18 is precisely punched in the vertical direction by limiting the positioning pins 28 and the punching cutter bar 26, and a carrier is further arranged right below the punching cutter bar 26 and is arranged below the metal material belt 18 and fixedly connected to the rotating table 6.

Referring to fig. 2 and 7, the outer peripheral annular array of terminal is provided with a plurality of carrier on revolving stage 6, the interval is provided with a plurality of year silo 31 uniformly on the carrier, it is square groove to carry silo 31 to the antenna terminal 46 of unloading is placed in the location, revolving stage 6 rotates with the equal angle, and still is provided with a plurality of automated inspection subassembly 9 around revolving stage 6 periphery.

Referring to fig. 4, the automatic detection assembly 9 includes a CCD industrial camera 20, a light supplement light source 19 and a camera support, and the CCD industrial camera 20 faces the antenna terminal 46 and the carrier to be detected.

Referring to fig. 9 and 10, the automatic variable-pitch suction assembly 15 includes a horizontal sliding screw pair 37, a lifting cylinder 38, a variable-pitch cylinder 39, a distance limiting plate, a spring, a guide rod 43, a plurality of variable-pitch blocks 40 and suction nozzles 41, the lifting cylinder 38 is fixedly connected to a screw slider of the horizontal sliding screw pair 37, the lower end of a push rod of the lifting cylinder 38 is fixedly connected to the distance limiting plate, the distance limiting plate includes an upper distance limiting plate 42 and a lower distance limiting plate 44, the inner side surfaces of the upper distance limiting plate 42 and the lower distance limiting plate 44 are further provided with a plurality of limiting steps to match the left and right sliding positioning and limiting of the variable-pitch blocks 40 with different heights, the front end of the variable-pitch block 40 is vertically fixedly connected to the suction nozzle 41, the horizontal direction of the rear end is in fit with the guide rod 43 in a penetrating manner, the spring is further sleeved between two adjacent variable-pitch blocks 40, the upper end and the lower end of the variable-pitch block 40 are both matched with the limiting steps, so that all the variable-pitch blocks 40 are supported by the spring, the antenna terminal is positioned by a limiting ladder, a suction nozzle 41 at the front end of each variable pitch block 40 is opposite to each antenna terminal 46 on the carrier, the variable pitch cylinder 39 is fixedly connected to one side of the distance limiting plate, a push rod horizontally penetrates through the centers of all the variable pitch blocks 40, after the push rod is ejected out, all the variable pitch blocks 40 are pushed together, and the distance between every two adjacent variable pitch blocks 40 is kept the same, so that all the adsorbed antenna terminals 46 are adjusted to be mutually spaced and are ready to be transferred to a film pasting assembly component.

Referring to fig. 8, the film pasting assembly component comprises a film material placing disc 111, a film material sliding rail 32, a winding motor, a winding disc 13 and a paper tape storage disc 12, wherein the winding motor drives the winding disc 13 to rotate step by step so as to drive the film materials on the film material sliding rail 32 to feed in order, and the paper tapes adhered to the film materials are collected by the paper tape storage disc 12.

In a further embodiment, referring to fig. 4, a cutting assembly is further arranged at a later station of the automatic punching and blanking assembly 5, the cutting assembly comprises a cutting frame, a cutting cylinder 23, a cutting knife and a cutting knife holder, the cutting knife is over against the excess material 45 of the punched metal material belt 18, and the cutting knife cuts and blanks the excess material 45 in sections.

In a further embodiment, referring to fig. 4, an automatic detection assembly 9 is further disposed on one side of the automatic blanking assembly 5 to detect whether there is an antenna terminal 46 on the fed metal strip 18.

In a further embodiment, referring to fig. 8, a feeding assembly 17 is further arranged in parallel on one side of the film assembly to fill the antenna terminal 46 product on the vacant position on the metal material strip 18, the feeding assembly 17 includes a feeding disc 10, a feeding track, a feeding suction nozzle 4134, a pressing cylinder 33 and a pushing cylinder 35, the metal material strip 18 loaded with the antenna terminal 46 is placed on the feeding track, the feeding suction nozzle 4134 is driven by the pressing cylinder 33 to suck the antenna terminal 46, and the pushing cylinder 35 pushes and moves the metal material strip to be placed on the film material slide rail 32.

In a further embodiment, referring to fig. 8, a feeding motor 24 and a feeding toothed disc 21 are further disposed on one side of the feed track, and the feeding toothed disc 21 rotates to drive the metal strip 18 to continuously feed.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes, modifications, substitutions and alterations can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and the scope of the present invention is defined by the appended claims and their equivalents.

Claims (9)

1. An antenna terminal automatic assembly machine which characterized in that: comprises an automatic feeding component, an automatic punching and blanking component, a rotating platform, an automatic detection component, an automatic variable-pitch suction component and a film-sticking assembly component,

the automatic feeding assembly comprises a material placing disc, a feeding slide rail, a limiting slide rail, a feeding motor and a feeding fluted disc,

the automatic punching and blanking assembly is arranged at a position behind the feeding fluted disc and comprises a punching frame, a punching cylinder, a slider slide rail assembly, a positioning plate, a limiting plate, a positioning needle and a punching cutter bar for punching and blanking the antenna terminal, wherein the positioning plate is fixedly connected with an ejector rod of the punching cylinder, the lower end of the positioning plate is fixedly connected with the positioning needle and the punching cutter bar, the positioning needle is just opposite to positioning holes at two sides of the metal material belt below, the punching cutter bar is just opposite to the antenna terminal on the metal material belt below, the limiting plate is provided with a profiling hole for limiting the positioning needle and the punching cutter bar, a carrier is further arranged under the punching cutter bar, the carrier is arranged under the metal material belt and is fixedly connected on a rotating table,

the outer periphery of the upper end surface of the rotating platform is provided with a plurality of carriers in an annular array, a plurality of material carrying grooves are uniformly arranged on the carriers at intervals, the material carrying grooves are square grooves, antenna terminals for positioning and placing blanking are arranged on the material carrying grooves, the rotating platform rotates at equal angles, a plurality of automatic detection assemblies are arranged around the periphery of the rotating platform,

automatic subassembly is absorb to displacement includes that the horizontal lead screw that slides is vice, lift cylinder, displacement cylinder, limit distance board, spring, guide arm, a plurality of displacement piece and suction nozzle, the lift cylinder links firmly on the vice lead screw slider of horizontal lead screw that slides, the ejector pin lower extreme of lift cylinder links firmly the limit distance board, the limit distance board includes upper limit distance board and lower limit distance board, the medial surface of upper limit distance board and lower limit distance board still is provided with the spacing ladder of a plurality of, and it is spacing to cooperate the displacement piece left and right sides of a plurality of difference in height to slide the location, the vertical suction nozzle that has linked firmly of displacement piece front end, rear end horizontal direction and guide arm are worn to overlap the cooperation

Pad pasting assembly spare includes membrane material blowing dish, membrane material slide rail, rolling motor, rolling dish and paper tape storage plate, rolling motor drives the step-by-step rotation of rolling dish, and then drives the membrane material on the membrane material slide rail and feed in order, the paper tape of adhesion on the membrane material by the paper tape storage plate is collected.

2. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: the blowing dish is fixed a position in the workstation top by the support, and the metal material area that has die-cut shaping antenna terminal feeds into spacing slide rail along the feeding slide rail in, spacing slide rail both sides are provided with spacing frame, the feed motor links firmly in spacing slide rail one side, and the main shaft of feed motor has linked firmly and has fed the fluted disc, it is provided with the tooth uniformly to feed fluted disc periphery interval, the tooth is just to the even locating hole of interval that metal material area both sides set up, tooth and locating hole cooperation back, continuously feeds by feeding the rotatory metal material area that drives of fluted disc.

3. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: the automatic detection assembly comprises a CCD industrial camera, a light supplementing light source and a camera support, and the CCD industrial camera is over against the antenna terminal to be detected and the carrier.

4. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: still the cover is equipped with the spring between two adjacent displacement blocks, the displacement block upper and lower ends all with spacing ladder cooperation, all displacement blocks are by spacing ladder location under by the spring back shore effect, and every antenna terminal on the carrier is all just to the suction nozzle of every displacement block front end.

5. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: the back station of automatic die-cut unloading subassembly still is provided with cutting assembly, cutting assembly includes cuts the frame, cuts the cylinder, cuts the sword and cuts the blade holder, cut the clout that the sword just finished the die-cut metal material area, cut the blanking with the clout segmentation by cutting the sword.

6. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: automatic die-cut unloading subassembly one side still is provided with the automated inspection subassembly.

7. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: the variable-pitch cylinder is fixedly connected to one side of the distance limiting plate, the ejector rod of the variable-pitch cylinder horizontally penetrates through the centers of all the variable-pitch blocks, all the variable-pitch blocks are pushed together after the ejector rod is ejected out, and the same distance is kept between every two adjacent variable-pitch blocks, so that all the adsorbed antenna terminals are adjusted to be mutually spaced and are ready to be transferred to the film pasting assembly component.

8. The automatic assembling machine for antenna terminals as claimed in claim 1, wherein: the pad pasting assembly subassembly one side still parallel arrangement has the feed supplement subassembly, the feed supplement subassembly includes feed supplement dish, feed supplement track, feed supplement suction nozzle, presses the cylinder and pushes away the cylinder, place the metal material area that carries the antenna terminal on the feed supplement track, drive the feed supplement suction nozzle by pressing the cylinder and absorb the antenna terminal to push away by the top and push away the cylinder and push away to move and place on the membrane material slide rail.

9. The antenna terminal automatic assembling machine according to claim 8, wherein: and a feeding motor and a feeding fluted disc are further arranged on one side of the feed supplementing track, and the feeding fluted disc rotates to drive the metal material belt to continuously feed.

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