CN113745937B - Assembling device for audio socket - Google Patents

Abstract

The application discloses an assembly device of an audio socket, which comprises a frame, wherein a feeding seat is arranged on the frame, a feeding channel for conveying the socket is arranged on the feeding seat, a plurality of supporting feet are arranged on the frame, an assembly channel for sliding the socket is arranged on the supporting feet, one end of the feeding channel is communicated with one side of the assembly channel, and a driving mechanism for driving the socket to slide in the assembly channel is arranged on the frame; the driving mechanism comprises a driving component and a sliding component, and the driving component slides to drive the socket to slide; the assembly channel is provided with a first detection component for detecting pins, the assembly channel is provided with a second detection component for detecting connecting parts, the rack is provided with a plurality of installation components for conveying and assembling the metal rings on the socket, and one end of the assembly channel, which is far away from the feeding channel, is a discharge end. According to the application, the socket enters the assembly channel through the joint of the feeding channel and the assembly channel, and the metal ring is installed through the installation component on the assembly channel.

Description

Assembling device for audio socket

Technical Field

The application relates to the technical field of socket assembly, in particular to an assembly device of an audio socket.

Background

The audio socket comprises a socket body and pins, wherein the socket body comprises a shell body and a connecting part, a jack for inserting a plug is formed in one end of the shell body, and the pins penetrate through the shell body from the outer side of the shell body to the inner side of the shell body. When the plug is inserted into the shell from the jack, the plug is contacted with the pins inserted into the shell, so that electric signal connection is realized. The shell is embedded with a metal ring positioned on the wall of one end of the jack, and the metal ring plays a role in guiding the insertion of the plug into the jack.

With respect to the related art in the above, the inventors consider that: the existing audio socket is assembled manually, so that the assembly efficiency is low and the improvement is needed.

Disclosure of Invention

In order to solve the problem of low efficiency of manual assembly of an audio socket, the application provides an assembly device of the audio socket.

The application provides an assembly device of an audio socket, which adopts the following technical scheme:

The assembly device of the audio socket comprises a frame, wherein a feeding seat is arranged on the frame, a feeding channel for conveying the socket is arranged on the feeding seat, a plurality of supporting feet are arranged on the frame, an assembly channel for sliding the socket is arranged on the supporting feet, one end of the feeding channel is communicated with one side of the assembly channel, and a driving mechanism for driving the socket to slide in the assembly channel is arranged on the frame; the driving mechanism comprises a driving assembly and a sliding assembly, the sliding assembly comprises a plurality of sliding blocks sliding in the assembly channel and wedge-shaped blocks rotatably connected to the sliding blocks and used for pushing the socket to slide, and the driving assembly drives the sliding blocks to do reciprocating motion along the extending direction of the assembly channel; the assembly channel is provided with a first detection component for detecting pins, the assembly channel is provided with a second detection component for detecting connecting parts, the rack is provided with a plurality of installation components for conveying and assembling the metal rings on the socket, and one end of the assembly channel away from the feeding channel is a discharge end.

Through adopting the technical scheme, the socket is transmitted to the feeding channel through the vibration disc externally connected with the socket, the socket enters the assembling channel through the joint of the feeding channel and the assembling channel, the driving mechanism on the assembling channel drives the socket to discharge through the first detection component, the mounting component and the second detection component, finally, the discharging end of the assembling channel is used for detecting and testing whether the plug on the socket can be electrically connected with the plug when the plug is inserted into the jack, the mounting component mounts the metal ring on the socket, the second detection component detects the connecting part on the socket, and whether the assembly of the connecting part and the socket is in place is detected; when the driving assembly pushes the sliding block to slide, the wedge block pushes the socket to slide first, when the driving assembly pulls the sliding block to slide, the inclined plane of the wedge block is abutted with the socket to enable the wedge block to rotate, the wedge block is convenient to slide from one side of the socket to the other side of the socket through the lower portion of the socket, finally, the driving assembly pushes the sliding block to slide, the wedge block pushes the socket to enter the discharging end, the socket with the metal ring installed is discharged, manual installation is replaced, and meanwhile, the socket assembly efficiency is improved.

Optionally, the sliding block is provided with a plurality of, and is a plurality of the sliding block arranges and interconnect along the extending direction of equipment passageway, be provided with the pivoted groove that supplies the wedge pivoted on the sliding block, be provided with the axis of rotation on the mutual lateral wall of pivoted groove, be provided with axis of rotation male rotation hole on the wedge, be provided with the reset piece that is used for the wedge to reset after rotating on the sliding block, be provided with restriction wedge pivoted locating part on the cell wall of pivoted groove.

Through adopting above-mentioned technical scheme, the wedge inserts the rotation hole through the axis of rotation and rotates in the rotation inslot with realizing that the wedge rotates to be connected, drive assembly promotes the sliding block and slides, one side and the socket butt on wedge deviating from the inclined plane, locating part restriction wedge rotates towards inclined plane one side, with promote the socket to slide along the equipment passageway, after the socket slides to the assigned position, drive assembly pulls the sliding block and slides, the inclined plane and the socket butt of wedge make the wedge rotate towards the rotation inslot, pass through the back from the below of socket when the wedge, the piece that resets drives the wedge towards rotating the inslot outward rotation, limit through the locating part simultaneously, in order to realize the reset of wedge, be convenient for promote next socket slip.

Optionally, the one end that the equipment passageway is close to the feed passageway is provided with the gliding slide hole of confession sliding block, drive assembly is including setting up in the frame drive cylinder, setting up the drive plate on drive cylinder's piston rod, the drive plate is connected with adjacent sliding block, be provided with the catch bar on the drive plate, the one end of equipment passageway is provided with the push hole that supplies the catch bar to pass.

Through adopting above-mentioned technical scheme, through the work of actuating cylinder, through the motion of promotion or pulling drive plate to realize promoting or pulling sliding block and slide, when actuating cylinder's piston rod stretches out, drive the catch bar slip when the drive plate drives sliding block slip, the catch bar promotes just gets into the socket of equipment passageway from the feed channel to first detection subassembly on, can supply first wedge butt and promote simultaneously.

Optionally, the first detection component comprises a first connecting plate, a second connecting plate, a first contact plate sliding on the first connecting plate and a second contact plate sliding on the second connecting plate, wherein the first contact plate is provided with conductive pins with the number and the positions corresponding to those of the pins, and the second contact plate is provided with conductive rods capable of being inserted into jacks of the socket; the first connecting plate is provided with a longitudinal air cylinder for driving the first contact plate to slide, and the second connecting plate is provided with a transverse air cylinder for driving the second contact plate to slide.

Through adopting above-mentioned technical scheme, the socket slides to the region of first detection subassembly under the promotion of catch bar, and vertical cylinder promotes first contact plate and slides and make the contact of the last conductive needle of first contact plate and the pin on the socket and be connected electrically, and horizontal cylinder promotes second contact plate and slides and make the jack that the conductive rod on the second contact plate inserted the socket contact with the inside pin of inserting the socket, so detect the pin and can realize the electrical signal with the plug of inserting the socket and be connected, be convenient for detect the pin, can arrange the material to unqualified socket, improve the qualification rate of socket.

Optionally, the opposite lateral walls of the assembly channel are provided with guide grooves for sliding at two ends of the socket, one side of the assembly channel is provided with a plurality of mounting holes communicated with the adjacent guide grooves, and the mounting holes are used for the conducting rod and the metal ring to pass through.

Through adopting above-mentioned technical scheme, the guide way plays direction and spacing effect to the slip of socket on the equipment passageway, and the mounting hole is convenient for when detecting the pin, and the conducting rod passes in the jack of mounting hole entering socket from the outside of equipment passageway, and first detection subassembly, installation component, second detection subassembly correspond a mounting hole respectively, and when first detection subassembly and second detection subassembly detected unqualified socket, the count of being convenient for, the sliding block drove the wedge and drives the gliding distance of socket equal to the distance between two adjacent mounting holes.

Optionally, one side of the equipment passageway that keeps away from the mounting hole is provided with quantity and position and the corresponding spacing hole of mounting hole, be provided with the stopper in the spacing hole, one side of the equipment passageway is provided with spacing seat, be provided with between spacing seat and the stopper and be used for driving the gliding spacing spring of stopper.

Through adopting above-mentioned technical scheme, when the socket slides to the position of another mounting hole in the position from the position of a mounting hole, the socket break away from the butt with current stopper, and the socket slides to next stopper, with one side butt of next stopper and make the stopper towards the downthehole compression of slip spacing spring atress of spacing, the in-process that the socket slides to align with the mounting hole, stopper and socket keep the butt to the reality to the spacing of stopper.

Optionally, be provided with quantity and the corresponding mount pad of installation component in the frame, installation component is including setting up installation piece on the mount pad, slip setting up the feed rod on the installation piece, be provided with the gliding promotion cylinder of drive feed rod on the mount pad, one side that the installation piece is close to the mounting hole is provided with the standing groove that is linked together with the through-hole, the installation piece is provided with the installation passageway that is linked together with the standing groove, the installation passageway is used for carrying the metal ring and gets into the standing groove.

Through adopting above-mentioned technical scheme, when the socket slides to the position of alignment with the through-hole, external vibrations dish that is used for carrying the metal ring carries the metal ring to the standing groove through the installation passageway in, promotes the cylinder and promotes the slip of feed lever in the through-hole, and the feed lever promotes the metal ring in the standing groove and imbeds in the socket through the mounting hole, realizes the equipment of metal ring and socket.

Optionally, the second detection subassembly is including setting up in the detection seat of one side of equipment passageway, sliding connection detects the piece and slide the measuring rod that sets up on detecting the piece on detecting the seat, be provided with the gliding detection cylinder of drive detecting the piece on detecting the seat, be provided with on the detecting the piece and supply detecting the measuring channel that the measuring rod was male, the tank bottom in detecting the channel is provided with the detection spring, the detecting piece is through detecting the spring slip in detecting the inslot, one side of detecting the piece runs through and is provided with the detection hole that is linked together with the detection channel, run through on the measuring rod and be provided with the cooperation hole that can align with the detection hole, be provided with the detection piece that is located detection hole one end on the detecting the piece.

Through adopting above-mentioned technical scheme, when the socket slides to the mounting hole that corresponds with the second detection subassembly and aligns, detect the cylinder and drive the detection piece and slide, drive the measuring rod motion, when measuring rod butt and the connecting portion of socket on, the measuring rod slides in the detection groove, make the atress compression of detecting the spring, when connecting portion and socket equipment are qualified, the mating hole on the measuring rod aligns with the detection hole of detection piece, make the detecting piece pass the mating hole through the one end of detection hole to the other end of detection hole through light irradiation, in order to realize playing the measuring effect to the installation of socket and connecting portion.

Optionally, a metal detector covering the mounting hole is arranged on the outer wall of one side of the assembly channel, which is positioned at the discharge end.

By adopting the technical scheme, when the socket slides to the mounting hole aligned with the metal detector, the metal detector detects whether the metal ring is mounted on the socket.

Optionally, be close to the discharge end of equipment passageway one side slip of supporting legs is provided with the discharge channel, one side of discharge channel is fixed to be provided with the discharge channel, be provided with the gliding first slip cylinder of drive discharge channel on the supporting legs, be provided with the material receiving passageway that can be linked together with the discharge channel in the frame, the symmetry is provided with the branch material passageway that can align with the material receiving passageway in the frame, be provided with the second slip cylinder that promotes the branch material passageway and remove in the frame.

By adopting the technical scheme, when the qualified socket slides to the discharge end of the assembly channel, the qualified socket discharges through the discharge channel aligned with the discharge end; the unqualified sockets detected by the first detection component, the second detection component and the metal detector are transmitted to the sensor, the sensor records the positions of the unqualified sockets, when the unqualified sockets slide to the discharge end of the assembly channel, the first sliding cylinder pushes the discharge channel to slide so that the discharge channel is misplaced with the discharge end, one end of the discharge channel is aligned with the discharge end, the other end of the discharge channel is aligned with the receiving channel, and the unqualified sockets enter the receiving channel through the discharge channel; the second sliding cylinder drives the two material distributing channels to be alternately aligned with the material receiving channels, the sockets with unqualified pins and connection parts are divided into one type, the sockets with qualified pins and connection parts and only lacking metal rings are divided into the other type, and the sockets with qualified pins and connection parts and only lacking metal rings can be put back to the vibration disc for reassembly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Transmitting the socket to the feeding channel through a vibration disc externally connected with the socket, enabling the socket to enter the assembling channel through the joint of the feeding channel and the assembling channel, driving the socket to pass through a first detection assembly, a mounting assembly and a second detection assembly through a driving mechanism on the assembling channel, and finally discharging through a discharging end of the assembling channel, wherein the first detection assembly detects and tests whether a plug on the socket can be electrically connected with the plug when the plug is inserted into the jack, the mounting assembly mounts a metal ring on the socket, the second detection assembly detects a connecting part on the socket, and whether the assembly of the connecting part and the socket is in place is detected; when the driving assembly pushes the sliding block to slide, the wedge block pushes the socket to slide first, when the driving assembly pulls the sliding block to slide, the inclined surface of the wedge block is abutted with the socket to enable the wedge block to rotate, so that the wedge block can conveniently pass through the lower part of the socket from one side of the socket to the other side of the socket, finally, the driving assembly pushes the sliding block to slide, the wedge block pushes the socket to enter the discharging end, and the socket with the metal ring is discharged to replace manual installation, and meanwhile, the socket assembly efficiency is improved;

2. The socket slides to the area of the first detection component under the pushing of the pushing rod, the longitudinal air cylinder pushes the first contact plate to slide so that the conductive pins on the first contact plate are in contact with the pins on the socket and are electrically connected, the transverse air cylinder pushes the second contact plate to slide so that the conductive rods on the second contact plate are inserted into the jacks of the socket to be in contact with the pins inserted into the socket, and therefore whether the pins can be electrically connected with the plugs inserted into the socket or not is detected, the pins are convenient to detect, unqualified sockets can be discharged, and the qualification rate of the sockets is improved;

3. When the socket slides to align with the mounting hole corresponding to the second detection component, the detection cylinder drives the detection block to slide to drive the detection rod to move, when the detection rod is abutted against the connecting part of the socket, the detection rod slides in the detection groove to enable the detection spring to be stressed and compressed, and when the connecting part is qualified in assembly with the socket, the matching hole on the detection rod is aligned with the detection hole of the detection block, so that the detection piece passes through the matching hole from one end of the detection hole to the other end of the detection hole through light irradiation, and the installation of the socket and the connecting part is realized;

4. When the qualified socket slides to the discharge end of the assembly channel, discharging through the discharge channel aligned with the discharge end; the unqualified sockets detected by the first detection component, the second detection component and the metal detector are transmitted to the sensor, the sensor records the positions of the unqualified sockets, when the unqualified sockets slide to the discharge end of the assembly channel, the first sliding cylinder pushes the discharge channel to slide so that the discharge channel is misplaced with the discharge end, one end of the discharge channel is aligned with the discharge end, the other end of the discharge channel is aligned with the receiving channel, and the unqualified sockets enter the receiving channel through the discharge channel; the second sliding cylinder drives the two material distributing channels to be alternately aligned with the material receiving channels, the sockets with unqualified pins and connection parts are divided into one type, the sockets with qualified pins and connection parts and only lacking metal rings are divided into the other type, and the sockets with qualified pins and connection parts and only lacking metal rings can be put back to the vibration disc for reassembly.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic overall construction of the socket;

FIG. 3 is a schematic diagram of a driving mechanism according to an embodiment of the present application;

FIG. 4 is a schematic structural view of a first detecting component according to an embodiment of the present application;

FIG. 5 is an exploded view of a slide assembly according to an embodiment of the present application;

FIG. 6 is an exploded view of a second detection assembly according to an embodiment of the present application;

FIG. 7 is an exploded view of a mounting assembly of an embodiment of the present application;

FIG. 8 is an exploded view of a stopper and a stopper seat according to an embodiment of the present application;

FIG. 9 is a schematic view of a distribution channel according to an embodiment of the present application;

fig. 10 is a schematic structural view of a discharge channel according to an embodiment of the present application.

Reference numerals illustrate: 1. a frame; 11. an operation panel; 12. an operation rack; 13. a feeding seat; 14. a feed channel; 15. supporting feet; 16. assembling the channel; 161. a discharge end; 162. a sliding hole; 163. a push hole; 164. a guide groove; 165. a mounting hole; 166. a limiting hole; 17. a mounting base; 18. a material receiving channel; 2. a driving mechanism; 21. a drive assembly; 211. a driving cylinder; 212. a driving plate; 213. a push rod; 22. a sliding assembly; 221. a sliding block; 222. wedge blocks; 223. a rotating groove; 224. a rotating shaft; 225. a rotation hole; 226. a reset member; 227. a limiting piece; 3. a first detection assembly; 31. a first connection plate; 32. a second connecting plate; 33. a first contact plate; 34. a second contact plate; 35. a conductive needle; 36. a conductive rod; 37. a longitudinal cylinder; 38. a transverse cylinder; 4. a mounting assembly; 41. a mounting block; 411. a placement groove; 412. positioning holes; 42. a feed rod; 43. a pushing cylinder; 44. a mounting channel; 45. a positioning block; 46. a positioning plate; 461. a abdicating plate; 47. a positioning spring; 5. a second detection assembly; 51. a detection seat; 52. a detection block; 521. a detection groove; 522. a detection hole; 53. a detection rod; 531. a mating hole; 54. detecting a cylinder; 55. detecting a spring; 56. a detecting member; 6. a limit seat; 61. a limiting plate; 62. a baffle; 63. a limit spring; 64. a limiting block; 7. a metal detector; 8. a discharge channel; 81. a discharge channel; 82. a first sliding cylinder; 9. a material distribution channel; 91. a second sliding cylinder; 10. a socket; 101. a connection part; 102. pins; 103. a jack; 104. a metal ring.

Detailed Description

The application is described in further detail below with reference to fig. 1-10.

The embodiment of the application discloses an assembly device of an audio socket.

Referring to fig. 1 and 2, an assembly device for an audio jack includes a frame 1, the frame 1 includes an operation board 11 and an operation frame 12, the operation board 11 is fixed at an upper end of the operation frame 12, a sensor for receiving signals is installed on the operation board 11, a feeding seat 13 is vertically fixed at an upper end of the operation board 11, a feeding channel 14 capable of externally connecting a vibration disk of the transmission jack is fixed at an upper end of the feeding seat 13, an assembly channel 16 perpendicular to the feeding channel 14 is arranged at an upper end of the operation board 11 in parallel, six supporting legs 15 are vertically fixed between the assembly channel 16 and the operation board 11, one end of the feeding channel 14 is communicated with one side of the assembly channel 16, and one end of the assembly channel 16 far away from the feeding channel 14 is an open discharge end 161. The assembly channel 16 is sequentially provided with the first detection component 3, the second detection component 5 and the metal detector 7 along the length extending direction of the assembly channel 16, the operation panel 11 is provided with the two installation components 4, the first installation component 4 is positioned between the first detection component 3 and the second detection component 5, the second installation component 4 is positioned between the second detection component 5 and the metal detector 7, and the two installation components 4 can respectively install metal rings 104 of different types of metals on the socket 10.

Referring to fig. 3,4 and 5, the operating plate 11 is mounted with the driving mechanism 2 at an end of the assembly passage 16 near the feed passage 14. The driving mechanism 2 comprises a driving assembly 21 and a sliding assembly 22, the sliding assembly 22 comprises ten sliding blocks 221, one end of each of the eight sliding blocks 221 is integrally formed with a T-shaped block, the other end of each of the eight sliding blocks 221 is provided with a T-shaped groove for the T-shaped block to be clamped in, one sliding block 221 is provided with a T-shaped groove at one end only, and one sliding block 221 is provided with a T-shaped block at one end only, and the T-shaped blocks are inserted into the T-shaped grooves to realize interconnection among the ten sliding blocks 221.

Referring to fig. 3, 4 and 5, the upper end of the sliding block 221 is provided with a rotation groove 223 in a penetrating manner, the sliding assembly 22 further comprises a wedge block 222 rotatably connected between opposite groove walls of the rotation groove 223, a rotation shaft 224 is fixed between opposite side walls of the rotation groove 223, two sides of the rotation shaft 224 penetrate through two sides of the sliding block 221 respectively, one side of the wedge block 222 is provided with a rotation hole 225 for inserting the rotation shaft 224, and an inclined surface of the wedge block 222 is away from the discharge end 161 of the assembly channel 16. A reset piece 226 is connected between one side of the wedge block 222, which is away from the inclined surface, and the groove wall of the opposite rotating groove 223, wherein the reset piece 226 is a reset spring, one end of the reset spring is fixedly connected with the side wall of the wedge block 222, and the other end of the reset spring is fixedly connected with the groove wall of the rotating groove 223. And a limiting piece 227 is connected between opposite groove walls of the rotating groove 223, the limiting piece 227 is a limiting rod, the limiting rod is arranged in parallel with the rotating shaft 224, the limiting rod is positioned on one side of an inclined plane of the wedge-shaped block 222, when the reset spring pushes the wedge-shaped block 222 to rotate towards the limiting rod, the wedge-shaped block 222 is abutted with the limiting rod to realize limiting of the rotation of the wedge-shaped block 222, and meanwhile, when the wedge-shaped block 222 is abutted with the socket 10 to enable the socket 10 to slide, the sliding stability of the push socket 10 is improved.

Referring to fig. 3 and 4, one end of the assembly channel 16 far away from the discharge end 161 is provided with a sliding hole 162 for sliding an adjacent sliding block 221 in a penetrating manner, the driving assembly 21 comprises a driving cylinder 211 and a driving plate 212 fixed on a piston rod of the driving cylinder 211, a cylinder frame is fixed at the upper end of the operating plate 11, the driving cylinder 211 is fixed on the cylinder frame, one side of the driving plate 212 near the assembly channel 16 is fixedly connected with one end of the adjacent sliding block 221, one side of the driving plate 212 near the assembly channel 16 is provided with a pushing rod 213 positioned above the sliding block 221, and one end of the assembly channel 16 near the driving plate 212 is provided with a pushing hole 163 for inserting the pushing rod 213 in a penetrating manner.

Referring to fig. 4, the first detecting assembly 3 includes a first connecting plate 31, a second connecting plate 32, a first contact plate 33 and a second contact plate 34, the first connecting plate 31 and the second connecting plate 32 are respectively fixed on two sides of the assembly channel 16, the first contact plate 33 slides vertically on a side wall of the first connecting plate 31 close to the assembly channel 16, and the second contact plate 34 slides on a side wall of the second connecting plate 32 facing away from the operation plate 11. A longitudinal cylinder 37 for driving the first contact plate 33 to slide in the vertical direction is fixed on the first connecting plate 31, and a transverse cylinder 38 for driving the second contact plate 34 to slide is fixed on the second connecting plate 32. The first contact plate 33 is provided with conductive pins 35 corresponding to the pin arrangement of the socket in number and position on one side close to the assembly channel 16, the second contact plate 34 is provided with conductive rods 36 inserted into the insertion holes 103 of the socket 10 on one side close to the assembly channel 16, and the conductive pins 35 and the conductive rods 36 can be externally connected with electric signals communicated with the sensor.

Referring to fig. 8, guide grooves 164 extending along the length direction of the assembly channel 16 are formed on opposite side walls of the assembly channel 16, one side of the assembly channel 16 is provided with mounting holes 165 communicated with the guide grooves 164 on the adjacent side in a penetrating manner, the other side of the assembly channel 16 is provided with limiting holes 166 corresponding to the mounting holes 165 in number and position in a penetrating manner, and the limiting holes 166 are communicated with the guide grooves 164 on the adjacent side. The number of mounting holes 165 is ten and spaced apart along the extension of the assembly channel 16, with the conductive rods 36 aligned with one of the mounting holes 165, the mounting holes 165 being accessible by the metal ring 104 and the conductive rods 36. Limiting blocks 64 are slidably connected in the limiting holes 166, limiting seats 6 with the number and positions corresponding to the limiting holes 166 are fixed on the outer side walls of the limiting holes 166 formed in the assembling channel 16, each limiting seat 6 comprises limiting plates 61 vertically fixed on the side walls of the assembling channel 16, baffle plates 62 vertically fixed on the upper ends of the limiting plates 61, chamfer angles are formed on two sides, close to one ends of the mounting holes 165, of the limiting blocks 64, one part of each limiting block 64 slides in the limiting holes 166, the other part of each limiting block 64 slides on the corresponding limiting plate 61, limiting springs 63 are connected between the opposite side walls of the limiting blocks 64 and the corresponding baffle plates 62, one ends of the limiting springs 63 are fixedly connected with the side walls of the corresponding limiting plates 61, and the other ends of the limiting springs 63 are fixedly connected with the side walls of the corresponding baffle plates 62.

Referring to fig. 7, the upper end of the operation plate 11 is fixed with two mounting seats 17 positioned at the same side of the assembly channel 16, each mounting seat 17 is aligned with one mounting hole 165, and the mounting assembly 4 includes a mounting block 41 and a feed rod 42. The mounting block 41 is fixed in the upper end of mount pad 17, the through-hole has been run through to one side that the mounting block 41 deviates from the equipment passageway 16, the upper end of mount pad 17 is fixed with the promotion cylinder 43 that drives feed rod 42 and slide in the through-hole, the standing groove 411 that is linked together with the through-hole has been seted up to one side that the mounting block 41 is close to the equipment passageway 16, the standing groove 411 with a mounting hole 165 align, the upper end of standing groove 411 is the opening, the upper end of mounting block 41 is fixed with the installation passageway 44 that can external vibration dish of carrying metal ring 104, the installation passageway 44 is linked together with the standing groove 411.

Referring to fig. 7, positioning holes 412 are formed in opposite groove walls of the placement groove 411 in a penetrating manner, positioning blocks 45 are slidably connected in the positioning holes 412, and a chamfer is formed on one side, close to the through hole, of the positioning blocks 45. The locating plate 46 with the position aligned with the locating hole 412 is fixed on both sides of the mounting block 41, the abdicating plate 461 is fixed on the upper end of the locating plate 46, the locating spring 47 is connected between the opposite side walls of the abdicating plate 461 and the locating block 45, one end of the locating spring 47 is fixedly connected with the side wall of the locating block 45, and the other end is fixedly connected with the side wall of the abdicating plate 461. When the positioning springs 47 push the positioning blocks 45 to slide in the yielding grooves, the two positioning blocks 45 limit the metal ring 104 in the placing grooves 411, and when the pushing cylinder 43 pushes the feeding rod 42 to push the metal ring 104 to push the mounting holes 165, the metal ring 104 abuts against the chamfer surfaces of the positioning blocks 45, so that the positioning blocks 45 slide in the direction approaching to the yielding plates 461.

Referring to fig. 6, the second detecting assembly 5 includes a detecting seat 51 fixed on an outer sidewall of the assembly channel 16 with a limiting hole 166, a detecting block 52 slidably connected to the detecting seat 51, and a detecting rod 53 slidably connected to the detecting block 52, where the position of the detecting seat 51 corresponds to one of the limiting holes 166, and the detecting block 52 slidably connected to the detecting seat 51 near the sidewall of the assembly channel 16. The lower end of the detection block 52 is provided with a detection groove 521 into which the detection rod 53 is inserted and slides, the bottom of the detection groove 521 is connected with a detection spring 55, one end of the detection spring 55 is fixedly connected with the bottom of the detection groove 521, and the other end is fixedly connected with the end of the detection rod 53.

Referring to fig. 6, one side of the detecting block 52 is perforated with a detecting hole 522 communicated with the detecting groove 521, a circumferential side wall of the detecting rod 53 is perforated with a matching hole 531 capable of being aligned with the detecting hole 522, a detecting member 56 is fixed to the side wall of the detecting block 52, the detecting member 56 includes a transmitter and a receiver fixed to opposite sides of the detecting block 52, the transmitter and the receiver are respectively positioned at two ends of the detecting hole 522, the receiver is electrically connected with a sensor, when the assembly of the connecting portion 101 and the socket 10 is qualified, the detecting cylinder 54 drives the detecting block 52 to slide in a direction approaching the socket 10, the lower end of the detecting rod 53 abuts against the connecting portion 101, the detecting rod 53 slides in the detecting groove 521, the detecting spring 55 is compressed under stress, the matching hole 531 is aligned with the detecting hole 522, light emitted from the transmitter passes through one end of the detecting hole 522, passes through the matching hole 531 to the receiver at the other end of the detecting hole 522, when the assembly of the connecting portion 101 and the socket 10 is failed, the detecting hole 522 is not aligned with the matching hole 531, and the receiver does not receive light emitted from the transmitter.

Referring to fig. 10, a metal detector 7 covering a mounting hole 165 is fixedly connected to an outer wall of the assembly channel 16 at one side of the discharge end 161, the metal detector 7 is in communication with the sensor, and the metal detector 7 detects whether a metal ring 104 is mounted in the socket 10 aligned with the mounting hole 165 through the mounting hole 165.

Referring to fig. 9 and 10, a discharge channel 8 capable of being aligned with the discharge end 161 is slidably connected to a side wall of the support leg 15 near the discharge end 161 of the assembly channel 16, a discharge channel 81 capable of being aligned with the discharge end 161 is fixedly connected to one side of the discharge channel 8, a receiving channel 18 capable of being aligned with the discharge channel 81 is penetrated at the upper end of the operation plate 11, and when one end of the discharge channel 81 is aligned with the discharge end 161, the other end of the discharge channel 81 is aligned with the receiving channel 18, and a first sliding cylinder 82 for driving the discharge channel 8 to slide is fixed on the support leg 15. The lower extreme slip of operating panel 11 is provided with the sliding plate, and the fixed slot has been run through to one side that the sliding plate is close to operating panel 11, and fixed slot internal fixation has two branch material passageway 9, and in the fixed slot was fixed side by side to the upper end of two branch material passageways 9, at the gliding in-process of sliding plate, two branch material passageways 9 can be aligned with receiving passageway 18 in turn, and the lower extreme of operating panel 11 is fixed with the gliding second slip cylinder 91 of drive sliding plate.

Referring to fig. 9 and 10, when the sensor receives the defective socket 10 detected by the first detecting component 3, the second detecting component 5 and the metal detector 7, the sensor records the position of the corresponding mounting hole 165 where the socket 10 is currently located, when the defective socket 10 moves to the discharge end 161, the first sliding cylinder 82 pushes the discharge channel 8 to be staggered with the discharge end 161, so that two ends of the discharge channel 81 are aligned with the discharge end 161 and the receiving channel 18 respectively, the sockets 10 with defective pins 10 and connecting parts 101 are classified into one type, the sockets 10 with defective pins 102 and connecting parts 101 only lack metal rings 104 are classified into the other type, the second sliding cylinder 91 drives the sliding plate to drive the two distribution channels 9 to slide, and different distribution channels 9 are aligned with the receiving channel 18 according to the type of the defective socket 10 to perform discharging.

The implementation principle of the assembly device of the audio socket provided by the embodiment of the application is as follows:

The socket 10 is transmitted to the feeding channel 14 through a vibration disc externally connected with the socket 10, the socket 10 enters the assembling channel 16 through the joint of the feeding channel 14 and the assembling channel 16, the driving mechanism 2 on the assembling channel 16 drives the socket 10 to discharge through the first detecting component 3, the mounting component 4 and the second detecting component 5, finally, the discharging end 161 of the assembling channel 16 is used for detecting whether pins on the socket 10 can be electrically connected with the pins when the pins are inserted into the jacks, the mounting component 4 mounts a metal ring on the socket 10, and the second detecting component 5 detects the connecting part 101 on the socket 10 to detect whether the assembly of the connecting part 101 and the socket 10 is in place; when the driving component 21 pushes the sliding block 221 to slide, the wedge block 222 pushes the socket 10 to slide first, when the driving component 21 pulls the sliding block 221 to slide, the inclined surface of the wedge block 222 is abutted with the socket 10 to enable the wedge block 222 to rotate, so that the wedge block 222 can conveniently pass through the lower portion of the socket 10 from one side of the socket 10 to the other side of the socket 10, and finally the driving component 21 pushes the sliding block 221 to slide, the wedge block 222 pushes the socket 10 to enter the discharging end 161, and the socket 10 with the metal ring 104 mounted thereon is discharged instead of manual installation, and meanwhile the assembling efficiency of the socket 10 is improved.

When the qualified socket 10 slides to the discharge end 161 of the assembly channel 16, discharging through the discharge channel 8 aligned with the discharge end 161; when the sensor receives the unqualified sockets 10 detected by the first detecting component 3, the second detecting component 5 and the metal detector 7, the sensor records the positions of the corresponding mounting holes 165 where the sockets 10 are currently located, when the unqualified sockets 10 move to the discharge end 161, the first sliding cylinder 82 pushes the discharge channel 8 to be staggered with the discharge end 161, so that two ends of the discharge channel 81 are respectively aligned with the discharge end 161 and the receiving channel 18, the sockets 10 with unqualified pins 102 and connecting parts 101 are classified into one type, the sockets 10 with unqualified pins 102 and connecting parts 101 only lack metal rings 104 are classified into the other type, the second sliding cylinder 91 drives the sliding plate to drive the two distribution channels 9 to slide, and different distribution channels 9 are aligned with the receiving channel 18 according to the types of the unqualified sockets 10 to discharge.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (5)

1. An assembly device of audio jack, its characterized in that: the automatic feeding device comprises a frame (1), wherein a feeding seat (13) is arranged on the frame (1), a feeding channel (14) for conveying a socket (10) is arranged on the feeding seat (13), a plurality of supporting feet (15) are arranged on the frame (1), an assembling channel (16) for sliding the socket (10) is arranged on the supporting feet (15), one end of the feeding channel (14) is communicated with one side of the assembling channel (16), and a driving mechanism (2) for driving the socket (10) to slide in the assembling channel (16) is arranged on the frame (1); the driving mechanism (2) comprises a driving assembly (21) and a sliding assembly (22), the sliding assembly (22) comprises a plurality of sliding blocks (221) sliding in the assembly channel (16), and wedge-shaped blocks (222) rotatably connected to the sliding blocks (221) and used for pushing the socket (10) to slide, and the driving assembly (21) drives the sliding blocks (221) to do reciprocating motion along the extending direction of the assembly channel (16); a first detection component (3) for detecting pins (102) is arranged on the assembly channel (16), a second detection component (5) for detecting a connecting part (101) is arranged on the assembly channel (16), a plurality of mounting components (4) for conveying and assembling metal rings (104) on a socket (10) are arranged on the rack (1), and one end, far away from the feeding channel (14), of the assembly channel (16) is a discharging end (161);

The first detection assembly (3) comprises a first connecting plate (31), a second connecting plate (32), a first contact plate (33) sliding on the first connecting plate (31) and a second contact plate (34) sliding on the second connecting plate (32), wherein the first contact plate (33) is provided with conductive pins (35) with the number and the positions corresponding to those of the pins (102), and the second contact plate (34) is provided with conductive rods (36) which can be inserted into jacks (103) of the socket (10); a longitudinal air cylinder (37) for driving the first contact plate (33) to slide is arranged on the first connecting plate (31), and a transverse air cylinder (38) for driving the second contact plate (34) to slide is arranged on the second connecting plate (32);

Guide grooves (164) for sliding the two ends of the socket (10) are formed in the opposite side walls of the assembly channel (16), a plurality of mounting holes (165) communicated with the adjacent guide grooves (164) are formed in one side of the assembly channel (16), and the mounting holes (165) are used for the conductive rods (36) and the metal rings (104) to penetrate through;

A limiting hole (166) with the number and positions corresponding to those of the mounting holes (165) is formed in one side, far away from the mounting holes (165), of the assembly channel (16), a limiting block (64) is arranged in the limiting hole (166), a limiting seat (6) is arranged on one side of the assembly channel (16), and a limiting spring (63) used for driving the limiting block (64) to slide is arranged between the limiting seat (6) and the limiting block (64);

The device is characterized in that mounting seats (17) corresponding to the mounting assemblies (4) in number are arranged on the frame (1), the mounting assemblies (4) comprise mounting blocks (41) arranged on the mounting seats (17) and feeding rods (42) arranged on the mounting blocks (41) in a sliding mode, pushing air cylinders (43) driving the feeding rods (42) to slide are arranged on the mounting seats (17), a placing groove (411) communicated with the through holes is formed in one side, close to the mounting holes (165), of each mounting block (41), and a mounting channel (44) communicated with the placing groove (411) is formed in each mounting block (41), and the mounting channels (44) are used for conveying metal rings into the placing groove (411);

The second detection assembly (5) comprises a detection seat (51) arranged on one side of the assembly channel (16), a detection block (52) connected to the detection seat (51) in a sliding manner and a detection rod (53) arranged on the detection block (52) in a sliding manner, a detection cylinder (54) for driving the detection block (52) to slide is arranged on the detection seat (51), a detection groove (521) for allowing the detection rod (53) to be inserted is formed in the detection block (52), a detection spring (55) is arranged at the bottom of the detection groove (521), the detection block (52) slides in the detection groove (521) through the detection spring (55), a detection hole (522) communicated with the detection groove (521) is formed in one side of the detection block (52), a matching hole (531) which can be aligned with the detection hole (522) is formed in a penetrating manner, and a detection piece (56) positioned at one end of the detection hole (522) is arranged on the detection block (52).

2. The assembly device of an audio jack of claim 1, wherein: the utility model discloses a device for assembling wedge block, including equipment passageway (16), slider (221) are provided with a plurality ofly, a plurality of slider (221) are arranged and interconnect along the extending direction of equipment passageway (16), be provided with on slider (221) and supply wedge (222) pivoted rotation groove (223), be provided with axis of rotation (224) on the mutual lateral wall of rotation groove (223), be provided with axis of rotation (224) male rotation hole (225) on wedge (222), be provided with on slider (221) and be used for reset piece (226) that reset after wedge (222) rotate, be provided with on the cell wall of rotation groove (223) restriction wedge (222) pivoted spacing piece (227).

3. The assembly device of an audio jack of claim 2, wherein: the utility model discloses a feeding device, including equipment passageway (16), drive subassembly (21), equipment passageway (16) are close to one end of feed passageway (14) and are provided with sliding hole (162) that supply sliding block (221) to slide, drive subassembly (21) are including setting up drive cylinder (211) on frame (1), drive board (212) on the piston rod of drive cylinder (211), drive board (212) are connected with adjacent sliding block (221), be provided with push rod (213) on drive board (212), the one end of equipment passageway (16) is provided with push hole (163) that supply push rod (213) to pass.

4. The assembly device of an audio jack of claim 1, wherein: the outer wall of one side of the assembly channel (16) positioned at the discharge end (161) is provided with a metal detector (7) covering the mounting hole (165).

5. The assembly device of an audio jack of claim 1, wherein: be close to the discharge end (161) of equipment passageway (16) one side of supporting legs (15) slides and is provided with discharge channel (8), one side of discharge channel (8) is fixed to be provided with row material passageway (81), be provided with on supporting legs (15) drive discharge channel (8) gliding first slip cylinder (82), be provided with on frame (1) can be with row material passageway (18) that connect that material passageway (81) is linked together, the symmetry is provided with on frame (1) can with connect material passageway (18) alignment divide material passageway (9), be provided with on frame (1) and promote branch material passageway (9) second slip cylinder (91) that remove.