阅读说明：本技术 一种音视频开关生产设备 (Audio and video switch production facility ) 是由 连文生 官俊求 于 2021-09-03 设计创作，主要内容包括：本申请涉及开关生产设备的领域,尤其是涉及一种音视频开关生产设备,包括有进料机构与加工机构,所述进料机构包括有振动盘与导轨,所述导轨用于将音视频开关传输至加工机构,所述振动盘上设置有第一落槽,所述导轨架设于第一落槽上,且导轨连接于振动盘的出料口,所述导轨包括有用于纠正音视频开关朝向的纠正组件,所述纠正组件包括有接收纠正后的音视频开关的落板,所述纠正组件包括有连接于振动盘上的基杆,所述基杆上转动连接有用于勾住音视频开关的端口从而对音视频开关的摆放方向进行纠正的纠正钩。本申请具有使机械易将音视频开关整齐排布的效果。(The utility model belongs to the technical field of switch production facility and specifically relates to a audio frequency and video switch production facility is related to, including feed mechanism and processing mechanism, feed mechanism is including vibration dish and guide rail, the guide rail is used for transmitting audio frequency and video switch to processing mechanism, be provided with first groove on the vibration dish, the guide rail erects on first groove, and the guide rail connects in the discharge gate of vibration dish, the guide rail is including being used for correcting the subassembly of correcting of audio frequency and video switch orientation, correct the subassembly including receiving the board that falls of correcting the audio frequency and video switch after, correct the subassembly including connecting the base rod on the vibration dish, thereby rotate on the base rod and be connected with the port that is used for catching hold in the hands of the port of audio frequency and video switch and carry out the correction hook of correcting to the orientation of putting of audio frequency and video switch. The audio and video switch arranging method and device have the effect that machines are easy to arrange the audio and video switches in order.)

1. An audio and video switch production facility which characterized in that: comprises a feeding mechanism (1) and a processing mechanism (2), wherein the feeding mechanism (1) comprises a vibrating disk (11) and a guide rail (3), the guide rail (3) is used for transmitting the audio and video switch to the processing mechanism (2), a first falling groove (12) is arranged on the vibration disc (11), the guide rail (3) is erected on the first falling groove (12), the guide rail (3) is connected with the discharge hole of the vibration disc (11), the guide rail (3) comprises a correction component (4) for correcting the orientation of the audio and video switch, the correction component (4) comprises a falling plate (41) for receiving the corrected audio and video switch, the correcting component (4) comprises a base rod (42) connected to the vibrating disk (11), and a correcting hook (43) which is used for hooking a port of the audio and video switch so as to correct the placing direction of the audio and video switch is rotatably connected to the base rod (42).

2. An audio-video switch production facility according to claim 1, characterised in that: and a balancing weight (44) is arranged on the correcting hook (43).

3. An audio-video switch production facility according to claim 1, characterised in that: correct subassembly (4) still including connecting butt contact plate (45) on falling board (41), be provided with guide block (46) on falling board (41), be formed with guide groove (47) that the audio and video switch after supplying to correct falls into between guide block (46) and butt contact plate (45), guide groove (47) are used for guiding the slip of audio and video switch on falling board (41).

4. An audio-video switch production facility according to claim 1, characterised in that: guide rail (3) are still including steady rail (5), be provided with out material rail (13) on vibration dish (11), steady rail (5) link to each other with out material rail (13), be provided with horizontal bar (51) that are used for adjusting audio frequency and video switch orientation on steady rail (5), horizontal bar (51) are located the below of a material rail (13) blanking.

5. An audio-video switch production facility according to claim 3, characterised in that: guide rail (3) are still including connecting first screening rail (52) on touch-sensitive plate (45), first screening rail (52) link to each other with steady rail (5), the inclination of first screening rail (52) is bigger than the inclination of steady rail (5).

6. An audio-video switch production facility according to claim 1, characterised in that: guide rail (3) are still including second screening rail (53) and third screening rail (54), second screening rail (53) and third screening rail (54) are all connected on one end of falling board (41) ejection of compact direction, be formed with second groove (55) that fall between second screening rail (53) and the third screening rail (54), the distance between second screening rail (53) and the third screening rail (54) is less than audio and video switch's length and is greater than audio and video switch's width.

7. An audio-video switch production facility according to claim 6, characterised in that: guide rail (3) are still including screening board (6), screening board (6) are located second screening rail (53) and keep away from the one end of falling board (41), the one end that falls board (41) was kept away from in second screening rail (53) still is provided with fourth screening rail (56) that are used for transmitting audio and video switch, screening board (6) are used for blockking the audio and video switch of putting the direction mistake.

8. An audio-video switch production facility according to claim 7, characterised in that: guide rail (3) are still including being located fourth screening rail (56) and keeping away from one of screening board (6) one of serving stabilizing strip (61), stabilizing strip (61) are used for the audio and video switch centre gripping, just processing agency (2) are including being located stabilizing strip (61) push motor (62) and the delivery rail (63) of keeping away from the one end of screening board (6), push motor (62) are used for pushing away the audio and video switch on stabilizing strip (61) to delivery rail (63).

9. An audio-video switch production facility according to claim 1, characterised in that: processing agency (2) are still including defeated material subassembly (21), defeated material subassembly (21) are including defeated flitch (22) and a plurality of defeated material piece (23), defeated material piece (23) are located defeated flitch (22), and adjacent be formed with defeated material groove (24) between defeated material piece (23), defeated material groove (24) supply push motor (62) to push audio and video switch, defeated material subassembly (21) are still including making defeated flitch (22) gliding sliding cylinder (7).

10. An audio-video switch production facility according to claim 1, characterised in that: the processing mechanism (2) further comprises a compaction assembly (25), and the compaction assembly (25) comprises a compaction cylinder (26) for compacting a fixing pin of the audio-video switch; the processing mechanism (2) further comprises a detection assembly (27), the detection assembly (27) comprises a detection cylinder (28), and a detection head (29) for detecting whether a contact pin of an audio/video switch is conducted is arranged on an output shaft of the detection cylinder (28); processing agency (2) are still including installation component (71), installation component (71) are including mount table (72) and installation motor (73), the output shaft of installation motor (73) is used for installing metal coil on audio frequency and video switch port, be connected with conveying pipeline (74) that are used for transmitting metal coil on mount table (72), be connected with on conveying pipeline (74) and be used for transmitting metal coil and make metal coil arrange orderly second vibration dish (75).

Technical Field

The application relates to the field of switch production equipment, in particular to audio and video switch production equipment.

Background

With the popularization of audio and video hardware such as a sound box, an earphone and the like, people have more and more requirements on an audio and video switch, and nowadays when the automation promotion is advanced, the automatic production of the audio and video switch becomes a future trend.

As shown in fig. 6, a front surface of a general audio/video switch is a side wall a, the side wall a is connected with a plurality of contact pins, a side wall on the audio/video switch, which is away from the side wall a, is a side wall B, the side wall B is provided with a plurality of fixing pins for fixing the side wall B, the audio/video switch is provided with a port for inserting a sound, the side wall where the port is located is a side wall C, the side wall on the audio/video switch, which is away from the side wall C, is a side wall D, the remaining two side walls are a side wall E and a side wall F, respectively, and the port of the audio/video switch is sleeved with a metal coil.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the general audio and video switches are irregular in shape, so that the audio and video switches are difficult to arrange in order mechanically, and most factories still adopt manual assembly.

Disclosure of Invention

In order to solve the problems that the audio and video switches are difficult to arrange in order mechanically and most factories still adopt manual assembly, the application provides audio and video switch production equipment.

The application provides an audio and video switch production facility adopts following technical scheme:

the utility model provides an audio frequency and video switch production facility, is including feed mechanism and processing agency, feed mechanism is including vibration dish and guide rail, the guide rail is used for transmitting audio frequency and video switch to processing agency, be provided with first groove on the vibration dish, the guide rail erects on first groove, and the guide rail is connected in the discharge gate of vibration dish, the guide rail is including the correction subassembly that is used for correcting the audio frequency and video switch orientation, correct the subassembly including the board that falls of receiving the audio frequency and video switch after correcting, correct the subassembly including connecting the base rod on the vibration dish, thereby rotate on the base rod and be connected with the port that is used for catching on the audio frequency and video switch and correct the hook to the orientation of putting of audio frequency and video switch.

By adopting the technical scheme, when the audio and video switch is transmitted to the correction component, the audio and video switch is firstly contacted with the correction hook, if the side wall C of the audio and video switch faces the correction hook, the correction hook is inserted into the port of the audio and video switch, the next audio and video switch transmitted by the guide rail is propped against the previous audio and video switch, the previous audio and video switch advances, the correction hook rotates on the base rod along with the advancing of the audio and video switch, the correction hook drives the port of the previous audio and video switch to lift upwards, and when the audio and video switch advances to the self port and is separated from the correction hook, the correction hook falls down and is contacted with the port of the audio and video switch, so that a rotating force is provided for the audio and video switch, and the audio and video switch rotates to the port and falls on the falling plate upwards; if the side wall D of the audio/video switch faces the correction hook, the correction hook is difficult to hook the audio/video switch, so that the audio/video switch naturally falls to the falling plate with the port facing upwards; therefore, the audio and video switch is rotated to the position with the upward port, and then the guide rail can drop the audio and video switches in other directions to the vibration disc from the first drop groove, so that only the audio and video switches with the upward ports are left on the last guide rail, and the subsequent processing and production of the audio and video switches are facilitated; if the audio and video switch is transmitted to the other side walls facing the correction hooks, the audio and video switch is difficult to correct the direction of the port of the audio and video switch facing upwards, and therefore the audio and video switch falls back to the vibration disc from the first falling groove under the screening of the subsequent guide rails.

Preferably, a balancing weight is arranged on the correcting hook.

Through adopting above-mentioned technical scheme, increase the dynamics of correcting the hook to the external force of audio frequency and video switch through the balancing weight to make the orientation of correcting the hook and can more effectively correcting the audio frequency and video switch, reduce because of correcting the hook dynamics insufficient and lead to audio frequency and video switch orientation not to correct the probability of success.

Preferably, correct the subassembly still including connecting the touch panel that supports on the board that falls, be provided with the guide piece on the board that falls, be formed with the guiding groove that the audio and video switch that supplies to correct after falls into between guide piece and the touch panel, the guiding groove is used for guiding the slip of audio and video switch on the board that falls.

By adopting the technical scheme, the corrected audio and video switch is guided to slide on the falling plate through the guide groove, so that the audio and video switch can slide into the next screening step more smoothly.

Preferably, the guide rail is still including steady rail, be provided with the ejection of compact rail on the vibration dish, steady rail links to each other with the ejection of compact rail, be provided with the horizontal bar that is used for adjusting audio frequency and video switch orientation on the steady rail, the horizontal bar is located the below of ejection of compact rail blanking.

Through adopting above-mentioned technical scheme, catch the audio and video switch that falls from ejection of compact rail through the crossband, then under the effect of vibration dish vibration, make the audio and video switch that is in the tilt state fall on steady rail, and the audio and video switch falls on the crossband earlier when falling on steady rail from the ejection of compact rail for the crossband plays the cushioning effect to the audio and video switch that falls, has reduced the damage to audio and video switch.

Preferably, the guide rail is still including connecting the first screening rail on the touch-sensitive plate, first screening rail links to each other with steady rail, the inclination of the more steady rail of inclination of first screening rail is bigger.

By adopting the technical scheme, the contact area between the audio and video switch transmitted on the first screening rail and the first screening rail is temporarily reduced through the sudden inclination of the first screening rail, so that the audio and video switch contacted with the side wall A and the first screening rail falls back to the vibration disc from the first falling groove, and the purpose of screening the audio and video switch is achieved.

Preferably, the guide rail is still including second screening rail and third screening rail, second screening rail and third screening rail are all connected on the one end of falling board ejection of compact direction, be formed with the second groove that falls between second screening rail and the third screening rail, the distance between second screening rail and the third screening rail is less than audio and video switch's length and is greater than audio and video switch's width.

By adopting the technical scheme, if the audio and video switch is in simultaneous contact with the second screening rail and the third screening rail respectively on the side wall B or the side wall A or the side wall E or the side wall F, the audio and video switch can smoothly pass through the second screening rail; if the side wall A or the side wall B or the side wall E or the side wall F of the audio and video switch is only contacted with the second screening rail, the audio and video switch falls back to the vibrating disc from the second falling groove, and the effect of screening the audio and video switch is achieved.

Preferably, the guide rail is still including the screening board, the screening board is located the second screening rail and keeps away from the one end of falling the board, the one end that the board was kept away from to the second screening rail still is provided with the fourth screening rail that is used for transmitting audio frequency and video switch, the screening board is used for blockking the audio frequency and video switch of putting the wrong direction.

By adopting the technical scheme, if the side wall B of the audio and video switch is in contact with the fourth screening rail, the audio and video switch can smoothly slide on the fourth screening rail, and the contact pin of the audio and video switch can be abutted against the side wall of the screening plate facing the fourth screening rail, so that the probability that the audio and video switch falls into the first falling groove is reduced; if the side wall A of the audio-video switch is in contact with the fourth screening rail, the audio-video switch is difficult to abut against the side wall of the screening plate facing the fourth screening rail, and therefore the audio-video switch falls back to the vibration disc from the first falling groove; when the audio and video switch is the side wall E or the side wall F is contacted with the fourth screening rail, the audio and video switch is abutted against the side wall of the screening plate facing the correcting hook and is jacked into the first falling groove when the next audio and video switch is transmitted, and the screening effect is achieved.

Preferably, the guide rail is still including being located the fourth screening rail and keeping away from the one of screening board and serving the stable strip, stable strip is used for the audio frequency and video switch centre gripping, just processing agency is including being located the push motor and the transport rail of the one end that the screening board was kept away from to stable strip, push motor is used for pushing away the audio frequency and video switch on the stable strip to transport on the rail.

By adopting the technical scheme, the stability of the transmission of the screened audio/video switch is improved by clamping the stabilizing strip, and the probability that the screened audio/video switch falls into the first drop groove is reduced; the audio and video switch on the stabilizing strip is automatically pushed into the conveying rail through the pushing motor, so that the step that a worker manually carries the screened audio and video switch to a processing mechanism is reduced, and the labor cost is reduced.

Preferably, the processing mechanism further comprises a material conveying assembly, the material conveying assembly comprises a material conveying plate and a plurality of material conveying blocks, the material conveying blocks are located on the material conveying plates and are adjacent to each other, a material conveying groove is formed between the material conveying blocks, the material conveying groove is used for pushing the audio and video switch by a pushing motor, and the material conveying assembly further comprises a sliding cylinder for enabling the material conveying plate to slide.

Through adopting above-mentioned technical scheme, when coming to carry out spacingly to audio frequency and video switch through the conveyer trough, made things convenient for defeated material board to drive audio frequency and video switch and slide.

Preferably, the processing mechanism further comprises a compacting assembly, and the compacting assembly comprises a compacting cylinder for compacting a fixing pin of the audio/video switch; the processing mechanism further comprises a detection assembly, the detection assembly comprises a detection cylinder, and a detection head for detecting whether a contact pin of the audio and video switch is conducted is arranged on an output shaft of the detection cylinder; the processing mechanism is characterized by further comprising a mounting assembly, the mounting assembly comprises a mounting table and a mounting motor, an output shaft of the mounting motor is used for mounting the metal coil on an audio and video switch port, a conveying pipe used for conveying the metal coil is connected to the mounting table, and a second vibrating disc used for conveying the metal coil and enabling the metal coil to be arranged neatly is connected to the conveying pipe.

By adopting the technical scheme, the fixing pin of the audio/video switch is fixed on the side wall B of the audio/video switch through the compaction cylinder, so that the audio/video switch is firmer, then the audio/video switch is conveyed to the detection assembly through the material conveying assembly, and then the detection head is pressed on the contact pin of the audio/video switch through the detection cylinder, so that whether the contact pin of the audio/video switch is conducted or not is detected; the metal coils are arranged neatly through the second vibrating disc, then are conveyed to the mounting table through the conveying pipe, and then are sleeved to the port of the audio and video switch through the output shaft of the mounting motor.

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

1. when the audio and video switch is transmitted to the correction component, if the side wall C of the audio and video switch faces the correction hook, the correction hook is inserted into the port of the audio and video switch, the next audio and video switch transmitted by the guide rail is abutted against the previous audio and video switch to enable the previous audio and video switch to advance, the correction hook rotates on the base rod along with the advance of the audio and video switch, the correction hook can drive the port of the previous audio and video switch to lift upwards, and when the audio and video switch advances to the self port and is separated from the correction hook, the correction hook falls down to be in contact with the port of the audio and video switch, so that a rotating force is provided for the audio and video switch, and the audio and video switch rotates to enable the port to face upwards and fall on the falling plate.

2. If the audio and video switch is that the side wall B or the side wall A or the side wall E or the side wall F respectively contacts with the second screening rail and the third screening rail at the same time, the audio and video switch can smoothly pass through the second screening rail; if the side wall A or the side wall B or the side wall E or the side wall F of the audio and video switch is only contacted with the second screening rail, the audio and video switch falls back to the vibrating disc from the second falling groove, and the effect of screening the audio and video switch is achieved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a partially enlarged schematic view at B in fig. 1.

Fig. 3 is a partially enlarged schematic view at a in fig. 1.

Fig. 4 is a partial schematic view at C in fig. 1.

Fig. 5 is a partial schematic view of another angle at D in fig. 1.

Fig. 6 is an overall structural schematic diagram of an audio/video switch according to an embodiment of the present application.

Description of reference numerals: 1. a feeding mechanism; 11. a vibrating pan; 12. a first drop groove; 13. discharging the material rail; 2. a processing mechanism; 21. a material conveying component; 22. a material conveying plate; 23. a material conveying block; 24. a material conveying groove; 25. compacting the assembly; 26. a compaction cylinder; 261. pressing parts; 262. a slot; 27. a detection component; 28. Detecting a cylinder; 281. a mobile station; 282. a moving motor; 29. a detection head; 3. a guide rail; 31. abutting against the rail; 4. a correction component; 41. dropping the plate; 42. a base shaft; 43. a correction hook; 44. a balancing weight; 45. a touch plate; 46. a guide block; 47. a guide groove; 5. a stationary rail; 51. a horizontal bar; 52. a first screening track; 53. a second screening track; 54. a third screening track; 55. a second drop groove; 56. a fourth screening track; 6. screening the plate; 61. a stabilizing strip; 62. a push motor; 63. a conveying rail; 7. a slide cylinder; 71. mounting the component; 72. an installation table; 73. installing a motor; 74. a delivery pipe; 75. a second vibratory pan; 76. and (4) a mounting piece.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses audio and video switch production equipment. Referring to fig. 1 and 2, audio and video switch production facility is including feed mechanism 1 and processing agency 2, and feed mechanism 1 is including vibration dish 11 and guide rail 3, and guide rail 3 fixed connection is on vibration dish 11 lateral wall, and guide rail 3 is the circumference along the lateral wall of vibration dish 11 and encircles the setting. Guide rail 3 is including being used for making the gliding conflict rail 31 of audio and video switch conflict, and conflict rail 31 extends along guide rail 3's extending direction, and guide rail 3 is used for transmitting the audio and video switch and neatly puts the audio and video switch, and the one end that guide rail 3 kept away from the junction with vibration dish 11 is connected on processing agency 2, and guide rail 3 still is used for transmitting the audio and video switch to processing agency 2. A first falling groove 12 is formed in the vibrating disc 11, the guide rail 3 is erected on the first falling groove 12, and a through groove is formed in the inner wall of the first falling groove 12. The through groove is communicated into the vibration disk 11, the first falling groove 12 is used for enabling the audio and video switch with the wrong orientation to fall back to the vibration disk 11, and the guide rail 3 comprises a correction component 4 used for correcting the orientation of the port of the audio and video switch.

Referring to fig. 2, the correction assembly 4 includes a falling plate 41 for receiving and transmitting the corrected audio/video switch, a guide block 46 is fixedly connected to the falling plate 41, and the guide block 46 extends along the transmission direction of the audio/video switch. The correcting component 4 further comprises a contact plate 45 fixedly connected with the falling plate 41, and the contact plate 45 is used for allowing the audio/video switch to slide onto the falling plate 41. A guide groove 47 is formed between the side wall of the abutting plate 45 and the guide block 46, and the guide groove 47 is used for allowing the audio/video switch to fall and guiding the corrected audio/video switch to slide and transmit. Correct subassembly 4 still including base rod 42 of fixed connection on 11 lateral walls of vibration dish, it is connected with the loop bar to rotate on the base rod 42, fixedly connected with is used for putting the correction hook 43 that the direction was corrected with the audio frequency and video switch on the loop bar, it is equipped with balancing weight 44 to correct one of hook 43 near falling board 41 and serve the cover, it offsets the pole to go back fixedly connected with on the conflict board 45, the conflict pole is located corrects hook 43 and is close to on feeding direction pivoted rotation direction, the conflict pole is used for making the length direction of loop bar be difficult to swing to the direction of direct towards the feeding, the amplitude of swing of correcting hook 43 has been reduced.

Referring to fig. 3, fixedly connected with is used for transmitting the play material rail 13 on the guide rail 3 with audio and video switch on the vibration dish 11, and guide rail 3 is still including steady rail 5, and steady rail 5 is close to the one end of vibration dish 11 and contradicts rail 31 fixed connection, and steady rail 5 links to each other with play material rail 13. A horizontal bar 51 for adjusting the orientation of the audio/video switch is fixedly connected to the stationary rail 5, the horizontal bar 51 extends along the direction of the stationary rail 5 for transmitting the audio/video switch, and the horizontal bar 51 is located below the blanking of the discharging rail 13, so that the audio/video switch on the discharging rail 13 falls on the horizontal bar 51 along the stationary rail 5.

Referring to fig. 2 and 3, the guide rail 3 further includes a first screening rail 52 fixedly connected to an end of the stationary rail 5 away from the discharging rail 13, one end of the first screening rail 52 close to the vibrating plate 11 is fixedly connected to the abutting rail 31, and the first screening rail 52 is connected to one side of the stationary rail 5 close to the lower end, so that the audio and video switches close to the upper end of the stationary rail 5 among the audio and video switches stacked in two rows on the stationary rail 5 fall into the first falling groove 12. And the inclination angle of the first screening rail 52 is larger than that of the steady rail 5, so that when the side wall a and the side wall B of the audio/video switch sliding on the first screening rail 52 contact with the contact rail 31, the audio/video switch falls into the first falling groove 12, and one end of the first screening rail 52 far away from the steady rail 5 is connected with the contact plate 45.

Referring to fig. 2 and 4, the guide rail 3 further includes a second screening rail 53 and a third screening rail 54, the second screening rail 53 and the third screening rail 54 are both connected to one end of the falling plate 41 in the discharging direction, one end of the second screening rail 53 close to the vibrating plate 11 is connected to the contact rail 31, a second falling groove 55 is formed between the second screening rail 53 and the third screening rail 54, and the distance between the second screening rail 53 and the third screening rail 54 is smaller than the length of the audio/video switch and larger than the width of the audio/video switch. When the side wall B or the side wall a of the audio/video switch transmitted from the falling plate 41 contacts the second screening rail 53 and the third screening rail 54, the audio/video switch can slide on the second screening rail 53 and the third screening rail 54, and when the other side wall of the audio/video switch contacts the second screening rail 53, the audio/video switch is difficult to contact the third screening rail 54, so that the audio/video switch falls back to the vibration plate 11 from the second falling groove 55.

Referring to fig. 4, the guide rail 3 further includes a screening plate 6 fixedly connected to the side wall of the abutting rail 31 facing away from the vibration disk 11, the screening plate 6 is located outside one end of the second screening rail 53 away from the falling plate 41, the screening plate 6 is located at one end of the abutting rail 31 close to the vibration disk 11, one end of the second screening rail 53 away from the falling plate 41 is further fixedly connected with a fourth screening rail 56 for transmitting the audio/video switch, and the fourth screening rail 56 is fixedly connected to the abutting rail 31. The side wall of the screening plate 6 facing the second screening rail 53 is provided with an inclined surface, when the side wall E or the side wall F of the audio/video switch contacts with the second screening rail 53 and is transmitted to the fourth screening rail 56, the screening plate 6 can abut against the audio/video switch and block the audio/video switch, until the next audio/video switch is transmitted to the screening plate 6, the next audio/video switch can eject the audio/video switch blocked by the screening plate 6 for a certain distance along the inclined surface, and then the audio/video switch blocked by the screening plate 6 can fall back to the vibration plate 11 from the first falling groove 12.

Referring to fig. 1 and 4, the guide rail 3 further includes a stabilizing strip 61 fixedly connected to an end of the fourth screening rail 56 away from the screening plate 6, an end of the stabilizing strip 61 close to the vibrating plate 11 is fixedly connected to the abutting rail 31, and the stabilizing strip 61 is used for cooperating with the abutting rail 31 to clamp the audio/video switch. And processing agency 2 is including fixed connection at the push motor 62 and the delivery rail 63 of stabilizing strip 61 one end of keeping away from screening board 6, and push motor 62 and delivery rail 63 are the symmetry and set up in the both sides of stabilizing strip 61, and push motor 62's piston rod is used for pushing away the audio and video switch on stabilizing strip 61 to delivery rail 63 on, sets up the gliding sliding tray of confession audio and video switch on the delivery rail 63.

Referring to fig. 1, the processing mechanism 2 further includes a material conveying assembly 21, the material conveying assembly 21 includes a material conveying plate 22 and a plurality of material conveying blocks 23, the side wall of the material conveying plate 22 is attached to the side wall of the conveying rail 63, the material conveying blocks 23 are located on the side wall of the material conveying plate 22 facing the push motor 62, a material conveying groove 24 is formed between the adjacent material conveying blocks 23, the material conveying groove 24 is used for the push motor 62 to push the audio/video switch, the material conveying assembly 21 further includes a sliding cylinder 7 enabling the material conveying plate 22 to slide, the sliding cylinder 7 drives the material conveying plate 22 to slide, and the material conveying plate 22 drives the audio/video switch to slide in the sliding groove.

Referring to fig. 1 and 5, the processing mechanism 2 further includes a compacting assembly 25, the compacting assembly 25 includes a compacting cylinder 26 for compacting the fixing pin of the audio/video switch, a pressing member 261 is fixedly connected to a piston rod of the compacting cylinder 26, and a slot 262 for inserting the pin of the audio/video switch is formed in a side wall of the pressing member 261. Processing agency 2 is still including detection module 27, detection module 27 is including detecting cylinder 28, be provided with on the output shaft of detecting cylinder 28 and be used for detecting whether the contact pin of audio frequency and video switch switches on detects head 29, it is tubulose and contradict with the contact pin to detect head 29, detection module 27 is still including the mobile station 281, the mobile station 281 is located the inner wall of sliding tray, the mobile station 281 is used for moving the audio frequency and video switch from the sliding tray to detecting head 29 below and making and detect head 29 and audio frequency and video switch's contact pin and align, detection module 27 is still including moving motor 282, moving motor 282's output shaft fixed connection is on the mobile station 281, moving motor 282 is used for driving the sliding of mobile station 281.

Referring to fig. 1 and 5, the processing mechanism 2 further includes a mounting assembly 71, the mounting assembly 71 includes a mounting table 72 and a mounting motor 73, the mounting motor 73 is mounted on the mounting table 72, a mounting member 76 is fixedly connected to an output shaft of the mounting motor 73, the output shaft of the mounting motor 73 drives the mounting member 76 to slide, so as to push the metal coil to the port of the audio/video switch and enable the metal coil to be sleeved on the port of the audio/video switch, a delivery pipe 74 for delivering the metal coil is fixedly connected to the delivery rail 63, and a second vibrating tray 75 for delivering the metal coil and enabling the metal coil to be arranged neatly is connected to the delivery pipe 74.

The implementation principle of the audio and video switch production equipment in the embodiment of the application is as follows: the audio and video switch is transmitted to the discharging rail 13 through the vibration of the vibrating disk 11, the audio and video switch is transmitted to the cross bar 51 through the discharging rail 13, the audio and video switch inclined on the cross bar 51 is enabled to fall on the stable rail 5 through the vibration of the vibrating disk 11, the audio and video switch is abutted against the abutting rail 31 at the moment, then the audio and video switch is transmitted to the first screening rail 52 along the stable rail 5, and the overlapped and sliding audio and video switch falls back to the vibrating disk 11 from the first falling groove 12 through the first screening rail 52. Then the audio and video switch reaches the position of the correction hook 43 along the first screening track 52, if the side wall C of the audio and video switch faces the correction hook 43, the correction hook 43 is inserted into the port of the audio and video switch, the next audio and video switch will abut against the previous audio and video switch to enable the previous audio and video switch to advance, at this time, the correction hook 43 rotates along with the advance of the audio and video switch, when the audio and video switch advances to the self port and is separated from the correction hook 43, the correction hook 43 falls to contact with the port of the audio and video switch, so that a rotating force is provided for the audio and video switch to enable the audio and video switch to rotate to the port to face upwards. If the side wall D of the audio/video switch faces the correction hook 43, the correction hook 43 is difficult to hook the audio/video switch, so that the audio/video switch naturally falls to the port of the audio/video switch and faces upwards. At this time, the audio/video switch falls in the guide groove 47 and is guided by the guide groove 47 to be transmitted between the second screening rail 53 and the third screening rail 54, if the side wall D of the audio/video switch faces the abutting rail 31 for transmission, the audio/video switch can pass through the second screening rail 53 and the third screening rail 54, and if the side wall B of the audio/video switch faces the fourth screening rail 56, the audio/video switch will not be blocked by the screening plate 6, and thus the audio/video switch smoothly passes through the fourth screening rail 56 to the stabilizing strip 61.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.