CN203156335U - Automatic assembly device for SC connectors - Google Patents

Abstract

The utility model discloses an automatic assembly device for SC connectors. The automatic assembly device comprises a worktable. A rotating disc is arranged on the worktable, and locators which are distributed in a circumferential mode are arranged on the rotating disc at intervals. An internal storage sleeve mechanical arm, an insertion core mechanical arm, a spring feeder, a press fit mechanism, a stopper mechanical arm and a discharging mechanical arm are arranged on the worktable; the internal storage sleeve mechanical arm, the insertion core mechanical arm, the spring feeder, the press fit mechanism, the stopper mechanical arm and the discharging mechanical arm are distributed in the rotation direction of the rotating disc. An internal storage sleeve guide rail, an internal storage sleeve vibration disc, an insertion core guide rail, an insertion core vibration disc, a stopper guide rail and a stopper vibration disc are arranged on the worktable; the internal storage sleeve guide rail and the internal storage sleeve vibration disc correspond to the internal storage sleeve mechanical arm, the insertion core guide rail and the insertion core vibration disc correspond to the insertion core mechanical arm, and the stopper guide rail and the stopper vibration disc correspond to the stopper mechanical arm. According to the automatic assembly device, through automatic design, all the processes of feeding, assembling and discharging are carried out automatically, work efficiency is greatly improved, assembly accuracy is greatly improved, the percent of pass of products is high, and worker labor intensity is low.

Description

SC interface apparatus automatization assembling

Technical field

The utility model relates to a kind of SC interface apparatus automatization assembling.

Background technology

The SC interface mainly is made up of ceramic insertion core, internal memory cover, spring and stop, when producing the SC interface in the prior art, is mainly undertaken by manual type, and the defective of its existence is as follows:

1. because the ceramic insertion core volume is less, manual manipulation is inconvenience comparatively;

2. because the little and two ends shape difference of ceramic insertion core volume, manually-operated causes easily that the riveted joint direction of ceramic insertion core is counter to be fallen, thereby causes the SC interface defective;

3. because the manual operation riveting machine carries out the riveted joint of ceramic insertion core and the internal memory cover of smaller size smaller, therefore, manually-operated danger is bigger;

4. because SC interface volume is less and the enormous amount of needs, and manually-operated efficient is lower, be difficult to satisfy the extensive demand to the SC interface.

The utility model content

For solving the problems of the technologies described above, the utility model provides a kind of SC interface apparatus automatization assembling, to improve packaging efficiency and riveted joint precision.

For achieving the above object, the technical solution of the utility model is as follows:

A kind of SC interface apparatus automatization assembling comprises workbench, and described workbench is provided with rotating disk, is arranged at intervals with into the locator of circle distribution on the described rotating disk; Also be provided with the internal memory cover mechanical arm, lock pin mechanical arm, spring feeder, laminating mechanism, stop mechanical arm and the discharging mechanical arm that distribute around described dial rotation direction on the described workbench, described workbench is provided with the internal memory cover guide rail of corresponding described internal memory cover mechanical arm and the internal memory cover lock pin guide rail of dish, corresponding described lock pin mechanical arm and the lock pin stop guide rail of dish, corresponding described stop mechanical arm and the stop dish that shakes that shakes that shakes.

Further, described internal memory cover mechanical arm, lock pin mechanical arm and stop mechanical arm include the gripper shoe that is vertically mounted on the described workbench, with the vertically arranged backboard of described gripper shoe, be installed in the slide rail on the described backboard, be installed on the described slide rail and by the Y-axis cylinder of X-axis air cylinder driven, by the degree of tightness cylinder of described Y-axis air cylinder driven, and by the jaw of described degree of tightness cylinder control.

Further, described spring feeder is connected to a spring memory that is installed on the described workbench by a conduit, and described spring memory is communicated with a compressed air source unit.

Further, described spring feeder comprises the gripper shoe that is installed on the described workbench, and described gripper shoe is provided with the spring passage, and the outlet of described spring passage is provided with thimble.

Further, described discharging mechanical arm comprises the gripper shoe that is vertically mounted on the described workbench, with the vertically arranged backboard of described gripper shoe, be installed on the described backboard and by the Y-axis cylinder of X-axis air cylinder driven, by the degree of tightness cylinder of described Y-axis air cylinder driven, and by the discharging jaw of described degree of tightness cylinder control.

Further, also be provided with alarm on the described workbench, described alarm is between described discharging mechanical arm and internal memory cover mechanical arm.

Pass through technique scheme, the SC interface apparatus automatization assembling that the utility model provides, it passes through The Automation Design, when rotating disk drive locator turns to the appointment station, the mechanical arm of corresponding station is placed on respective element in the locator automatically, by laminating mechanism each position is fitted together then, then by the discharging of discharging mechanical arm, the equal automation of all feedings, assembling and discharge process is carried out, not only greatly improved operating efficiency, and assembly precision is greatly improved, and product percent of pass height and labor strength are low.

Description of drawings

In order to be illustrated more clearly in the technical scheme among the utility model embodiment, the accompanying drawing of required use is done to introduce simply in will describing embodiment below.

Fig. 1 is the disclosed a kind of SC interface apparatus automatization assembling plan structure schematic diagram of embodiment;

Fig. 2 is the main TV structure schematic diagram of the disclosed internal memory cover of embodiment mechanical arm, lock pin mechanical arm and stop mechanical arm;

Fig. 3 is the syndeton schematic diagram of the disclosed spring memory of embodiment and spring feeder;

Fig. 4 is the main TV structure schematic diagram of the disclosed discharging mechanical arm of embodiment.

Numeral among the figure:

11. workbench 12. rotating disks 13. locators

The dish 15. internal memories cover guide rail 16. internal memories cover mechanical arm 14. the internal memory cover shakes

The dish 18. lock pin guide rails 19. lock pin mechanical arms 17. lock pin shakes

The dish 21. spring feeder 22. laminating mechanisms 23. stops shake

24. stop guide rail 25. stop mechanical arms 26. discharging mechanical arms

27. alarm 28. gripper shoes 29. backboards

30. slide rail 31.X axle cylinder 32.Y axle cylinder

33. degree of tightness cylinder 34. jaws 35. spring memories

36. conduit 37. gripper shoes 38. thimbles

39. gripper shoe 40. backboard 41.X axle cylinders

42.Y axle cylinder 43. degree of tightness cylinders 44. discharging jaws

The specific embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described.

With reference to figure 1, a kind of SC interface apparatus automatization assembling that the utility model provides comprises workbench 11, and workbench 11 is provided with rotating disk 12, is arranged at intervals with into the locator 13 of circle distribution on the rotating disk 12; Also being provided with internal memory cover mechanical arm 16, lock pin mechanical arm 19, spring feeder 21, laminating mechanism 22, stop mechanical arm 25 and discharging mechanical arm 26 that dish 12 rotation directions that rotate distribute on the workbench 11, workbench 11 is provided with the internal memory cover guide rail 15 of corresponding internal memory cover mechanical arm 16 and the internal memory cover lock pin guide rail 18 of dish 14, corresponding lock pin mechanical arm 19 and lock pin stop guide rail 24 and the stop of dish 17, corresponding stop mechanical arm 25 dish 23 that shakes that shakes that shakes.

Wherein, internal memory cover mechanical arm 16, lock pin mechanical arm 19 and stop mechanical arm 25 include the gripper shoe 28 that is vertically mounted on the workbench 11, with gripper shoe 28 vertically arranged backboards 29, be installed in the slide rail 30 on the backboard 29, the Y-axis cylinder 32 that is installed on the slide rail 30 and is driven by X-axis cylinder 31, the degree of tightness cylinder 33 that is driven by Y-axis cylinder 32, and by the jaw 34 of degree of tightness cylinder 33 controls; Spring feeder 21 is connected to a spring memory 35 that is installed on the workbench 11 by a conduit 36, and spring memory 35 is communicated with a compressed air source unit; Spring feeder 21 comprises the gripper shoe 37 that is installed on the workbench 11, and gripper shoe 37 is provided with the spring passage, and the outlet of spring passage is provided with thimble 38; Discharging mechanical arm 26 comprises the gripper shoe 39 that is vertically mounted on the workbench 11, with gripper shoe 39 vertically arranged backboards 40, the Y-axis cylinder 42 that is installed on the backboard 40 and is driven by X-axis cylinder 41, the degree of tightness cylinder 43 that is driven by Y-axis cylinder 42, and by the discharging jaw 44 of degree of tightness cylinder 43 controls; Also be provided with alarm 27 on the workbench 11, alarm 27 is between described discharging mechanical arm 26 and internal memory cover mechanical arm 16.

Operation principle of the present utility model is:

At first, rotating disk 12 rotates and drives locator 13 to the relevant position, the internal memory cover shakes by the internal memory cover and coils 14 orderings, guide to the relevant position through internal memory cover guide rail 15 again, driven jaw 34 by the degree of tightness cylinder 33 of internal memory cover mechanical arm 16 then and clamp the internal memory cover, Y-axis cylinder 32 drives degree of tightness cylinder 33 and rises, X-axis cylinder 31 drives Y-axis cylinders 32 and moves and make jaw 34 be positioned at corresponding locator 13 tops along slide rail 30, driving degree of tightness cylinder 33 by Y-axis cylinder 32 again descends, degree of tightness cylinder 33 unclamps and drives jaw 34 internal memories cover and the internal memory cover is put into locator 13, and last internal memory cover mechanical arm 16 resets;

Rotating disk 12 is rotated further and makes the locator 13 that is placed with the internal memory cover to turn to next station, lock pin shakes by lock pin and coils 17 orderings, guide to the relevant position through lock pin guide rail 18 again, driven jaw 34 by the degree of tightness cylinder 33 of lock pin mechanical arm 19 then and clamp lock pin, Y-axis cylinder 32 drives degree of tightness cylinder 33 and rises, X-axis cylinder 31 drives Y-axis cylinders 32 and moves and make jaw 34 be positioned at corresponding locator 13 tops along slide rail 30, driving degree of tightness cylinder 33 by Y-axis cylinder 32 again descends, degree of tightness cylinder 33 drives jaws 34 and unclamps lock pin and lock pin is put into the internal memory cover of locator 13, and last lock pin mechanical arm 19 resets;

Rotating disk 12 is rotated further and makes the locator 13 that is placed with lock pin to turn to next station, and the spring in the spring memory 35 is blown under the effect of source of the gas in the conduit 36 simultaneously, and spring bottom is positioned at the spring passage and is blocked and do not fall by thimble 38; When the locator 13 that is placed with lock pin turned to this station, thimble 38 retreated and makes spring bottom fall into the internal memory cover of locator 13;

Rotating disk 12 is rotated further and makes the locator 13 that is placed with spring to turn to next station, and laminating mechanism 22 is worked and lock pin and internal memory cover are riveted together;

Rotating disk 12 is rotated further to next station, stop shakes by stop and coils 23 orderings, guide to the relevant position through stop guide rail 24 again, clamped stop by the degree of tightness air cylinder driven jaw 34 of stop mechanical arm 25 then, Y-axis cylinder 32 drives degree of tightness cylinder 33 and rises, X-axis cylinder 31 drives the Y-axis cylinders and moves and make jaw 34 be positioned at corresponding locator 13 tops along slide rail 30, driving degree of tightness cylinder 33 by Y-axis cylinder 32 again descends, degree of tightness cylinder 33 drives the internal memory cover that jaw 34 unclamps stop and stop put into locator 13, and press down by stop mechanical arm 25 and to make stop be connected to internal memory to put, last stop mechanical arm 25 resets;

Rotating disk 12 is rotated further and makes the locator 13 that is placed with the SC interface that assembles turn to next station, the Y-axis cylinder 42 of discharging mechanical arm 26 drives degree of tightness cylinder 43 and descends, after grasping the SC interface, degree of tightness cylinder 43 control discharging jaws 44 rise, X-axis cylinder 41 drives Y-axis cylinder 42 and moves and make discharging jaw 44 corresponding hoppers then, discharging jaw 44 unclamps the SC interface is put into hopper then, and last discharging mechanical arm 26 resets;

Rotating disk 12 is rotated further, after treating that locator 13 after unloading station is by discharging turns to the station of corresponding alarm 27, if last station discharging failure, alarm 27 alarms of this station then, rotating disk 12 stops operating automatically, turns to internal memory cover station and causes undesirable condition to occur to prevent the locator 13 with material;

Above-mentioned action repeats, and all assembles until all products to finish.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to above-described embodiment will be apparent concerning those skilled in the art, and defined General Principle can realize under the situation that does not break away from spirit or scope of the present utility model in other embodiments herein.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the wideest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. a SC interface apparatus automatization assembling is characterized in that, comprise workbench, described workbench is provided with rotating disk, is arranged at intervals with into the locator of circle distribution on the described rotating disk; Also be provided with the internal memory cover mechanical arm, lock pin mechanical arm, spring feeder, laminating mechanism, stop mechanical arm and the discharging mechanical arm that distribute around described dial rotation direction on the described workbench, described workbench is provided with the internal memory cover guide rail of corresponding described internal memory cover mechanical arm and the internal memory cover lock pin guide rail of dish, corresponding described lock pin mechanical arm and the lock pin stop guide rail of dish, corresponding described stop mechanical arm and the stop dish that shakes that shakes that shakes.

2. SC interface apparatus automatization assembling according to claim 1, it is characterized in that, described internal memory cover mechanical arm, lock pin mechanical arm and stop mechanical arm include the gripper shoe that is vertically mounted on the described workbench, with the vertically arranged backboard of described gripper shoe, be installed in the slide rail on the described backboard, be installed on the described slide rail and by the Y-axis cylinder of X-axis air cylinder driven, by the degree of tightness cylinder of described Y-axis air cylinder driven, and by the jaw of described degree of tightness cylinder control.

3. SC interface apparatus automatization assembling according to claim 1 is characterized in that, described spring feeder is connected to a spring memory that is installed on the described workbench by a conduit, and described spring memory is communicated with a compressed air source unit.

4. SC interface apparatus automatization assembling according to claim 3 is characterized in that, described spring feeder comprises the gripper shoe that is installed on the described workbench, and described gripper shoe is provided with the spring passage, and the outlet of described spring passage is provided with thimble.

5. SC interface apparatus automatization assembling according to claim 1, it is characterized in that, described discharging mechanical arm comprises the gripper shoe that is vertically mounted on the described workbench, with the vertically arranged backboard of described gripper shoe, be installed on the described backboard and by the Y-axis cylinder of X-axis air cylinder driven, by the degree of tightness cylinder of described Y-axis air cylinder driven, and by the discharging jaw of described degree of tightness cylinder control.

6. SC interface apparatus automatization assembling according to claim 1 is characterized in that, also is provided with alarm on the described workbench, and described alarm is between described discharging mechanical arm and internal memory cover mechanical arm.

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