CN217315522U - Automatic assembling machine for LVDS (Low Voltage differential Signaling) wire holder pull rod - Google Patents

Abstract

The utility model discloses an automatic assembling machine of LVDS connection seat pull rod, which relates to the automation technology field, and comprises an automatic discharging component for supplying a locking pressing sheet material belt, a pull rod automatic feeding component, a first flanging stamping component, a second flanging stamping component, a third flanging stamping component, a rotating platform and an automatic discharging component, wherein a plurality of carriers for carrying locking pressing sheets are arranged on the periphery of the rotating platform in an annular array manner, the carriers sequentially pass through the pull rod automatic feeding component, the first flanging stamping component, the second flanging stamping component, the third flanging stamping component and the automatic discharging component, the automatic assembling machine of the LVDS connection seat pull rod utilizes the automatic discharging component and the pull rod automatic feeding component to distribute the locking pressing sheets and the pull rods into the carriers, and the locking pressing sheets and the flanging of the locking pressing sheets are pressed and locked through the cooperation of the flanging stamping components for a plurality of times, the automation degree is high, time and labor are saved, and the assembly efficiency of the locking pressing sheet and the pull rod is fully accelerated.

Description

Automatic assembling machine for LVDS (Low Voltage differential Signaling) wire holder pull rod

Technical Field

The utility model relates to an automatic technical field, concretely relates to automatic assembly machine of LVDS connection terminal pull rod.

Background

The liquid crystal display of the notebook computer generally adopts an LVDS line to connect with a main board to output an image signal, wherein an LVDS wire holder is used as a connecting medium between the LVDS line and the main board. LVDS connection terminal includes stitch subassembly, locking preforming and pull rod, wherein the pull rod is with the articulated locking of locking preforming turn-ups, in the production assembly, need through the articulated locking of trilateral turn-ups between pull rod and the locking preforming, and guarantee the articulated accuracy of locking of pull rod, the production mode that adopts in the past is artifical manual material loading pull rod, and cooperate the punching machine with turn-ups and pull rod punching press parcel, realize articulated locking, but artifical productivity is limited, efficiency is not high, and the coarse condition in latched position is followed, need for this reason special design one kind can be quick, convenient, the turn-ups's of high-efficient punching press locking preforming automation equipment, in order to promote the assembly efficiency of locking preforming and pull rod.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose: in view of the manual material loading pull rod among the background art to cooperate the punching machine with turn-ups and pull rod punching press parcel, realize articulated locking, but artifical productivity is limited, and efficiency is not high, and has the inaccurate condition in latched position along with, we design an automatic assembly machine of LVDS connection terminal pull rod, and degree of automation is high, and labour saving and time saving fully accelerates the assembly efficiency of locking preforming and pull rod.

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

the automatic assembling machine for the LVDS connector base pull rod comprises an automatic discharging assembly for supplying a locking pressing sheet material belt, an automatic pull rod feeding assembly, a first flanging stamping assembly, a second flanging stamping assembly, a third flanging stamping assembly, a rotating table and an automatic discharging assembly.

The automatic discharging assembly comprises a discharging disc, a discharging frame, a punching and blanking assembly and an adsorption feeding assembly, wherein the discharging disc is used for supplying a locking and pressing sheet material belt, the discharging disc is fixedly connected to a workbench and used for supplying the locking and pressing sheet material belt to the punching and blanking assembly, the punching and blanking assembly is provided with a limiting track and used for limiting the feeding direction of the material belt, a stepping feeding assembly is arranged on the limiting track and used for driving the locking and pressing sheets on the material belt to be fed to the punching and blanking assembly one by one, the punching and blanking assembly comprises a punching and blanking cylinder, a punching and blanking upper die and a punching and blanking lower die, the material belt is fed into a punching and blanking groove between the punching and blanking upper die and the punching and lower die, the punching and blanking upper die is pressed down by the punching and blanking cylinder, the locking and pressing sheets are separated from the punching and the material belt by a punching and blanking blade of the punching and lower die, a moving cylinder is further arranged on one side of the punching and a push rod of the moving cylinder is horizontally and fixedly connected with a moving sliding block, the lower end of the lower punching die is fixedly connected with a punching pushing cylinder which drives a locking pressing sheet for blanking to be downwards placed in a moving positioning groove of a moving sliding block and transferred to an adsorption feeding assembly through the moving cylinder, the adsorption feeding assembly comprises a downward pressing adsorption cylinder, a feeding suction nozzle, a vertical sliding block sliding rail assembly, a horizontal sliding block sliding rail assembly and a feeding cylinder, the feeding suction nozzle is vertically and fixedly connected below an ejector rod of the downward pressing adsorption cylinder, and the feeding cylinder pushes the feeding to feed into a carrier on a rotating table after adsorbing and locking the pressing sheet,

a plurality of carriers for bearing locking pressing sheets are arranged on the periphery of the rotating table in an annular array, the carriers sequentially pass through the pull rod automatic feeding assembly, the first flanging stamping assembly, the second flanging stamping assembly, the third flanging stamping assembly and the automatic blanking assembly,

the automatic pull rod feeding assembly comprises a vibrating disc, a feeding slide rail, a pull rod positioning table and a clamping and feeding assembly, the vibrating disc is used for sequentially arranging and supplying a plurality of pull rods to the feeding slide rail after vibrating, the tail end of the feeding slide rail is connected with the pull rod positioning table, the clamping and feeding assembly is arranged above the pull rod positioning table and is used for clamping and feeding the pull rods to a carrier on the rotating table,

the first flanging stamping component is used for stamping and wrapping the long-edge flanging of the locking pressing piece and comprises a first stamping cylinder, a first positioning cylinder, a first jacking cylinder, a stamping block, a first positioning block and a jacking block, wherein the stamping block comprises a first-stage stamping block for implementing rough stamping and a second-stage stamping block for implementing fine stamping, the positioning block is driven by an ejector rod of the first positioning cylinder to position two sides of the locking pressing piece, the jacking block is pushed by the first jacking cylinder and is used for applying reverse thrust to the lower end face of the carrier,

the second flanging stamping component and the third flanging stamping component stamp and wrap the short-edge flanging at the two sides of the locking pressing sheet,

automatic unloading subassembly includes unloading adsorption cylinder, unloading suction nozzle, vertical slider slide rail set spare, horizontal slider slide rail set spare and ejection of compact cylinder, the unloading suction nozzle is vertical to be linked firmly in the ejector pin below of unloading adsorption cylinder, is pushed away by ejection of compact cylinder after the locking preforming of absorption assembly pull rod and is shifted to ejection of compact slide rail.

Further, step-by-step feed subassembly includes step-by-step location cylinder, step-by-step slide, slider slide rail set spare and step-by-step top push cylinder, and step-by-step location cylinder lower extreme links firmly the step-by-step tucking to material area both sides locating hole, and step-by-step location cylinder links firmly on step-by-step slide, step-by-step slide and slider slide rail set spare horizontal cooperation to realize step-by-step feeding under step-by-step top push cylinder drives.

Furthermore, the rear end face of the punching upper die is also provided with a residual material cutting blade for cutting and blanking residual waste materials in the material belt to a waste material box.

Further, ejection of compact slide rail one side has linked firmly the letter sorting subassembly, the letter sorting subassembly includes letter sorting slide, letter sorting cylinder and defective work blanking box, the defective work blanking box links firmly in letter sorting slide one side, drives the level through letter sorting cylinder and moves the slip, accepts qualified product or the defective work that the suction nozzle adsorbs the unloading respectively.

Furthermore, the second flanging stamping assembly comprises a coarse stamping cylinder, a second positioning cylinder, a coarse stamping block and a second positioning block, the lower end of the coarse stamping cylinder is fixedly connected with the coarse stamping block and is used for implementing preliminary stamping and bending operation on the short-edge flanging, and the front end of the second positioning cylinder is horizontally and fixedly connected with the second positioning block and is used for implementing pressing and positioning on the long edge of the locking pressing sheet.

Furthermore, the third flanging stamping component comprises a fine stamping cylinder, a second positioning cylinder, a fine stamping block and a second positioning block, wherein the lower end of the fine stamping cylinder is fixedly connected with the fine stamping block and is used for performing complete stamping, stamping and bending operations on the short-edge flanging, and the front end of the second positioning cylinder is horizontally and fixedly connected with the second positioning block and is used for performing pressing and positioning on the long edge of the locking pressing sheet.

The utility model has the advantages that:

this automatic assembly machine of LVDS connection terminal pull rod utilizes automatic blowing subassembly, pull rod automatic feeding subassembly will lock preforming and pull rod distribution to the carrier in to through the cooperation of many times turn-ups punching press subassembly, with the turn-ups punching press locking of pull rod and locking preforming, degree of automation is high, labour saving and time saving fully accelerates the assembly efficiency of locking preforming and pull rod.

Drawings

Fig. 1 is a schematic structural diagram of an automatic assembling machine for a pull rod of an LVDS wire holder according to this embodiment;

fig. 2 is a schematic structural diagram of a first flanging stamping assembly, a second flanging stamping assembly, a third flanging stamping assembly, a rotary table and an automatic blanking assembly according to the embodiment;

fig. 3 is a schematic structural diagram of the blanking assembly and the suction feed assembly according to the embodiment;

fig. 4 is a schematic structural view of the blanking assembly according to the present embodiment;

FIG. 5 is a partial enlarged view of the portion A in FIG. 4;

FIG. 6 is a schematic structural view of the first flanging stamping assembly according to the present embodiment;

FIG. 7 is an enlarged view of a portion of FIG. 6 at B;

FIG. 8 is a schematic structural view of a second flanging stamping assembly according to the present embodiment;

FIG. 9 is an enlarged view of a portion of FIG. 8 at C;

fig. 10 is a schematic structural view of the automatic blanking assembly according to the present embodiment;

FIG. 11 is a schematic view of the assembly structure of the locking pressing plate and the pull rod according to the present embodiment;

wherein, 1-a material placing disc, 2-a display screen, 3-an automatic material placing component, 4-a touch screen, 5-a pull rod automatic feeding component, 6-a feeding slide rail, 7-a vibrating disc, 8-a rotating table, 9-an automatic blanking component, 10-a first flanging stamping component, 11-a second flanging stamping component, 12-a third flanging stamping component, 13-a punching cylinder, 14-a punching upper die, 15-a stepping positioning cylinder, 16-a slide block slide rail component, 17-a material belt, 18-a moving cylinder, 19-a stepping pushing cylinder, 20-a punching pushing cylinder, 21-a moving slide block, 22-an LVDS wiring seat, 23-a material feeding suction nozzle, 24-a feeding cylinder, 25-a pressing adsorption cylinder and 26-a stepping sliding plate, 27-punching blade, 28-guide bar guide sleeve component, 29-excess material cutting blade, 30-carrier, 31-first punching cylinder, 32-connecting slide plate, 33-first positioning cylinder, 34-first supporting cylinder, 35-second punching block, 36-first positioning block, 37-supporting block, 38-first-stage punching block, 39-second punching cylinder, 40-coarse punching block, 41-second positioning cylinder, 42-second connecting slide plate, 43-second positioning block, 44-punching end, 45-discharging cylinder, 46-discharging adsorption cylinder, 47-discharging suction nozzle, 48-sorting cylinder, 49-unqualified product blanking box, 50-discharging slide rail, 51-locking press sheet, 52-left side short edge flanging, 53-long edge flanging, 54-right side short edge flanging and 55-pull rod.

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 to 11, the present embodiment provides an automatic assembling machine for LVDS connector pull rods, which includes an automatic discharging assembly 3 for supplying a locking pressing sheet material strip 17, an automatic pull rod feeding assembly 5, a first flanging stamping assembly 10, a second flanging stamping assembly 11, a third flanging stamping assembly 12, a rotary table 8, and an automatic discharging assembly 9.

Specifically, referring to fig. 2, 3, 4 and 5, the automatic discharging assembly 3 includes a discharging tray 1 for supplying a material belt 17 of a locking pressing sheet 51, a discharging tray, a punching discharging assembly and an adsorption feeding assembly, the discharging tray is fixedly connected to a workbench, the discharging tray 1 supplies the material belt 17 of the locking pressing sheet to the punching discharging assembly, the punching discharging assembly is provided with a limiting track for limiting the feeding direction of the material belt 17, a stepping feeding assembly is arranged on the limiting track, the stepping feeding assembly includes a stepping positioning cylinder 15, a stepping sliding plate 26, a sliding block sliding rail assembly 16 and a stepping pushing cylinder 19, the lower end of the stepping positioning cylinder 15 is fixedly connected with stepping pressing pins facing positioning holes at two sides of the material belt 17, the stepping positioning cylinder 15 is fixedly connected to the stepping sliding plate 26, the stepping sliding plate 26 is horizontally matched with the sliding block sliding rail assembly 16, and the stepping feeding is realized under the driving of the stepping pushing cylinder 19, the locking pressing sheet 51 on the material belt 17 is driven to be fed to the punching assembly one by one, the punching assembly comprises a punching cylinder 13, a punching upper die 14 and a punching lower die (not marked in the figure), the material belt 17 is fed into a punching groove (not marked in the figure) between the punching upper die 14 and the punching lower die, the punching upper die 14 is pressed down by the punching cylinder 13, the punching blade 27 of the punching upper die 14 separates the locking pressing sheet 51 from the material belt 17 in a punching way, the punching lower die carries the locking pressing sheet 51 of the blanking, one side of the punching lower die is also provided with a moving cylinder 18, the ejector rod of the moving cylinder 18 is horizontally and fixedly connected with a moving slide block 21, the lower end of the punching lower die is also fixedly connected with a punching pushing cylinder 20, the locking pressing sheet 51 of the blanking is driven to be placed downwards into a moving positioning groove of the moving slide block 21 and is transferred to the adsorption feeding assembly through the moving cylinder 18, and the adsorption feeding assembly comprises a pressing adsorption cylinder 25, The feeding suction nozzle 23 is vertically and fixedly connected below a mandril of the downward pressing adsorption cylinder 25, and the feeding suction nozzle 23 is used for pushing and feeding the materials into the carrier 30 on the rotating platform 8 by the feeding cylinder 24 after adsorbing and locking the pressing sheet 51.

Referring to fig. 2, 6, 7, 8 and 9, 8 carriers 30 for receiving the locking pressing sheets 51 are arranged in an annular array on the periphery of the rotating platform 8, and the carriers 30 sequentially pass through the automatic pull rod feeding assembly 5, the first flanging stamping assembly 10, the second flanging stamping assembly 11, the third flanging stamping assembly 12 and the automatic blanking assembly 9.

Referring to fig. 1, the pull rod automatic feeding assembly 5 includes a vibration disc 7, a feeding slide rail 6, a pull rod positioning table and a clamping and feeding assembly, the vibration disc 7 sequentially arranges and supplies a plurality of pull rods 51 to the feeding slide rail 6 after vibration, the tail end of the feeding slide rail 6 is connected with the pull rod positioning table, and the clamping and feeding assembly clamps and feeds the pull rods 51 to the carrier 30 on the rotating table 8.

Referring to fig. 6 and 7, the first flanging stamping assembly 10 stamps and wraps the long-side flanging 53 of the locking pressing piece 51, and includes a first stamping cylinder 31, a first positioning cylinder 33, a first top bracing cylinder 34, a stamping block, a first positioning block 36 and a top bracing block 37, the stamping block includes a first-stage stamping block 38 for performing rough stamping and a second-stage stamping block 35 for performing fine stamping, the positioning block is driven by an ejector rod of the first positioning cylinder 33 to position two sides of the locking pressing piece 51, and the top bracing block 37 is pushed by the first top bracing cylinder 34 and is used for applying a thrust force to the lower end face of the carrier 30.

Referring to fig. 8 and 9, the second flanging stamping assembly 11 and the third flanging stamping assembly 12 stamp and wrap the two short side flanges of the locking pressing sheet 51.

Referring to fig. 8 and 9, the second flanging stamping assembly 11 includes a rough stamping cylinder, a second positioning cylinder 41, a rough stamping block 40 and a second positioning block 43, the lower end of the rough stamping cylinder is fixedly connected to the rough stamping block 40 and performs a preliminary stamping and bending operation on the short-side flanging, and the front end of the second positioning cylinder 41 is horizontally and fixedly connected to the second positioning block 43 and performs pressing and positioning on the long side of the locking pressing sheet 51. The third flanging stamping assembly 12 comprises a fine stamping cylinder, a second positioning cylinder 41, a fine stamping block and a second positioning block 43, wherein the lower end of the fine stamping cylinder is fixedly connected with the fine stamping block and is used for performing complete stamping and bending operation on the short-edge flanging, and the front end of the second positioning cylinder 41 is horizontally and fixedly connected with the second positioning block 43 and is used for performing pressing and positioning on the long edge of the locking pressing sheet 51.

Referring to fig. 10, the automatic blanking assembly 9 includes a blanking adsorption cylinder 46, a blanking suction nozzle 47, a vertical slider sliding rail assembly 16, a horizontal slider sliding rail assembly 44 and a discharging cylinder 45, the blanking suction nozzle is vertically and fixedly connected below a top rod of the blanking adsorption cylinder 46, and after a locking pressing sheet 51 of a pull rod is adsorbed and assembled, the locking pressing sheet is pushed by the discharging cylinder 45 to be displaced to a discharging sliding rail 50.

In a further embodiment, referring to fig. 5, the rear end surface of the upper die cutting die 14 is further provided with a waste cutting edge 29 for cutting and blanking the waste left in the material belt 17 into a waste box.

In a further embodiment, referring to fig. 10, a sorting assembly is fixedly connected to one side of the discharging slide rail 50, the sorting assembly includes a sorting slide plate, a sorting cylinder 48 and an unqualified product blanking box 49, the unqualified product blanking box 49 is fixedly connected to one side of the sorting slide plate, and is driven by the sorting cylinder 48 to horizontally move and slide, so as to respectively receive the qualified product or the unqualified product which is sucked and blanked by the suction nozzle.

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 (8)

1. The utility model provides an automatic assembly machine of LVDS connection terminal pull rod which characterized in that: comprises an automatic discharging component for supplying and locking a tabletting material belt, a pull rod automatic feeding component, a first flanging stamping component, a second flanging stamping component, a third flanging stamping component, a rotating platform and an automatic discharging component,

the automatic discharging component comprises a discharging tray for supplying locking pressing sheet material belts, a discharging rack, a punching discharging component and an adsorption feeding component,

a plurality of carriers for bearing locking pressing sheets are arranged on the periphery of the rotating table in an annular array, the carriers sequentially pass through the pull rod automatic feeding assembly, the first flanging stamping assembly, the second flanging stamping assembly, the third flanging stamping assembly and the automatic blanking assembly,

the first flanging stamping component carries out stamping and wrapping on the long-edge flanging of the locking pressing piece and comprises a first stamping cylinder, a first positioning cylinder, a first top support cylinder, stamping blocks, a first positioning block and a top support block, wherein the stamping blocks comprise a first-stage stamping block for carrying out coarse stamping and a second-stage stamping block for carrying out fine stamping, the positioning blocks are driven by an ejector rod of the first positioning cylinder to position two sides of the locking pressing piece, the top support block is pushed by the first top support cylinder,

the second flanging stamping component and the third flanging stamping component stamp and wrap the short edge flanging at the two sides of the locking pressing sheet,

the second flanging stamping component comprises a rough stamping cylinder, a second positioning cylinder, a rough stamping block and a second positioning block, the lower end of the rough stamping cylinder is fixedly connected with the rough stamping block and is used for performing preliminary stamping and bending operation on the short-edge flanging, the front end of the second positioning cylinder is horizontally and fixedly connected with the second positioning block and is used for performing pressing and positioning on the long edge of the locking pressing sheet,

the third flanging stamping component comprises a fine stamping cylinder, a second positioning cylinder, a fine stamping block and a second positioning block, wherein the lower end of the fine stamping cylinder is fixedly connected with the fine stamping block and is used for performing complete stamping, stamping and bending operations on the short-edge flanging, and the front end of the second positioning cylinder is horizontally and fixedly connected with the second positioning block and is used for performing pressing and positioning on the long edge of the locking pressing sheet.

2. The automatic assembling machine for the LVDS wire holder tie bar according to claim 1, wherein: the pull rod automatic feeding assembly comprises a vibrating disc, a feeding slide rail, a pull rod positioning table and a clamping feeding assembly, and the tail end of the feeding slide rail is connected with the pull rod positioning table.

3. The automatic assembling machine for the LVDS wire holder tie bar according to claim 1, wherein: the automatic blanking assembly comprises a blanking adsorption cylinder, a blanking suction nozzle, a vertical slider sliding rail assembly, a horizontal slider sliding rail assembly and a discharging cylinder, wherein the blanking suction nozzle is vertically and fixedly connected below an ejector rod of the blanking adsorption cylinder, and the discharging cylinder is used for pushing and shifting the locking pressing sheet of the assembled pull rod to a discharging sliding rail.

4. The automatic assembling machine for the LVDS wire holder tie bar according to claim 1, wherein: the feeding disc supplies the locking pressing sheet material belt to the punching and blanking assembly, the punching and blanking assembly is provided with a limiting track, a stepping feeding assembly is arranged on the limiting track, and the locking pressing sheets on the material belt are driven to be fed to the punching and blanking assembly one by one.

5. The automatic assembling machine of the LVDS wire holder tie bar according to claim 4, wherein: die-cut subassembly includes die-cut cylinder, die-cut mould, die-cut lower mould, the material area is fed the die-cut inslot between die-cut mould and the die-cut lower mould, pushes down die-cut mould by die-cut cylinder, and the die-cut cutting edge of die-cut mould will lock the preforming and take the die-cut separation of material to accept the locking preforming of unloading by die-cut lower mould, die-cut lower mould one side still is provided with the cylinder of moving, and the ejector pin level of moving the cylinder has linked firmly the slider that moves, die-cut lower mould lower extreme has still linked firmly die-cut top and has pushed away the cylinder, and the locking preforming that drives the unloading is placed downwards and is moved the constant head tank that moves of slider in, shifts to adsorb the subassembly of feeding through moving the cylinder.

6. The automatic assembling machine for the LVDS wire holder pull rod according to claim 5, characterized in that: the adsorption feeding assembly comprises a downward pressing adsorption cylinder, a feeding suction nozzle, a vertical sliding block sliding rail assembly, a horizontal sliding block sliding rail assembly and a feeding cylinder, the feeding suction nozzle is vertically and fixedly connected below an ejector rod of the downward pressing adsorption cylinder, and the feeding cylinder pushes the feeding to the carrier on the rotating table after adsorbing and locking the pressing sheet.

7. The automatic assembling machine for the LVDS wire holder pull rod according to claim 5, characterized in that: the rear end face of the punching upper die is also provided with a residual material cutting blade, and residual waste materials in the material belt are cut and blanked to a waste material box.

8. The automatic assembling machine for the LVDS wire holder pull rod according to claim 3, characterized in that: ejection of compact slide rail one side has linked firmly the letter sorting subassembly, the letter sorting subassembly includes letter sorting slide, letter sorting cylinder and defective work blanking box.

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