The full-automatic rigging equipment of fiber adapter
Technical field
The utility model belongs to electro mechanical devices technical field, especially relates to the full-automatic rigging equipment of a kind of fiber adapter.
Background technology
Fiber adapter is the joints of optical fibre that different interface type can be inserted in a kind of two ends.Be widely used in fibre distribution frame (ODF), optical fiber communication equipment, instrument etc., have preeminent performance, reliable and stable.
Fiber adapter comprises shell, porcelain bushing, inner core and block, and current assembly technology is, through being manually inserted in shell by porcelain bushing, then inner core is filled in enclosure, then compresses; Be manual operation at present, efficiency is low, and cost is high.So design a can realize automatically completing shell, porcelain bushing, inner core three assembling equipment be required at present.
Utility model content
Technical problem to be solved in the utility model is: provide one to carry the full-automatic rigging equipment of fiber adapter, can realize automatically completing shell, porcelain bushing, inner core three assembling.
Technical solution adopted in the utility model is: the full-automatic rigging equipment of a kind of fiber adapter, comprise frame and rack-mounted shell feedway, porcelain bushing feedway, inner core feedway, processing guide rail, shell pusher, first shell clamping device, second housing clamping device, inner core conveying device, inner core hold down gag, horizontal reciprocating movement assembly, horizontal reciprocating movement assembly drives the first shell clamping device, second housing clamping device moves reciprocatingly, described shell pusher, first shell clamping device, second housing clamping device, inner core conveying device and inner core hold down gag are processing the setting of the direction of motion on guide rail along shell.
Described shell feedway involving vibrations dish, the first conveying, the front end of the first described conveying intersects vertically with the left end of processing guide rail, processing guide rail is forming shell groove to be pushed away with the first conveying intersection, and described shell groove to be pushed away can hold a shell; Shell pusher is positioned at the left side of shell groove to be pushed away;
Described shell pusher comprises the first cylinder, the first push rod and the first jacking block, and the first described cylinder, the first push rod and the first jacking block are arranged along shell direction of motion, and the first jacking block is positioned at the left side of shell;
Described porcelain bushing feedway to be positioned at above processing guide rail and to comprise the second vibrating disc, sleeve pipe containing pipe, puts pipe assembly, processing guide rail is provided with shell limited block putting immediately below pipe assembly, described shell limited block horizontal vertical is arranged in shell direction of motion, and shell limited block is assemblied on processing guide rail through elastic parts;
The first described shell clamping device is arranged on the front of shell limited block, the first described shell clamping device comprises the 3rd cylinder, the first chuck, jaws on the first described chuck and housing profile match, the first described shell clamping device is fixed on horizontal reciprocating movement assembly, and described horizontal reciprocating movement assembly is arranged along shell direction of motion;
The second described clamping device is arranged on the below of inner core feedway, described second housing clamping device comprises four-cylinder, the second chuck, jaws on the second described chuck and housing profile match, and described second housing clamping device is fixed on horizontal reciprocating movement assembly;
Described inner core feedway involving vibrations dish, the 3rd conveying, the front end of the 3rd described conveying is provided with inner core stop zone; Described inner core conveying device is positioned at the top of stop zone, described inner core conveying device comprises the 5th vertical cylinder, the 6th lateral cylinder, moving mass and for the contact pin with inner core grafting, described the 5th vertical cylinder is fixed on moving mass, moving mass is connected with the 6th lateral cylinder, and contact pin is arranged on the upper of the 5th vertical cylinder free end;
Described inner core hold down gag comprises the 7th vertical cylinder and pressure head, and described pressure head is arranged on the free end of the 7th vertical cylinder.
Described horizontal reciprocating movement assembly comprises moving lever and driver, and the first shell clamping device, second housing clamping device are all fixedly mounted on driving stem.
Described pipe assembly of putting comprises large slide block, small slide block and the second cylinder, described small slide block slides and is placed in large slide block, small slide block and the second cylinders, large slide block is provided with upper first vertical through holes and lower first vertical through holes of holding sleeve pipe, and small slide block is provided with the second vertical through holes holding sleeve pipe; Upper first vertical through holes overlaps with the lower port of sleeve pipe containing pipe, and the upper port of the second vertical through holes of small slide block overlaps with upper first vertical through holes or is separated, and the lower port of the second vertical through holes of small slide block overlaps with lower first vertical through holes of large slide block or is separated; Described shell limited block is positioned at the below of lower first vertical through holes;
The beneficial effects of the utility model are: the full-automatic rigging equipment of a kind of fiber adapter, through shell feedway, porcelain bushing feedway, inner core feedway, processing guide rail, shell pusher, the first shell clamping device, second housing clamping device, inner core conveying device, inner core hold down gag, horizontal reciprocating movement assembly, realize automatically completing shell, porcelain bushing, inner core three assembling.Reduce manpower greatly, the cost of labor of reduction, also improves working (machining) efficiency.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation.
Fig. 2 is A place enlarged drawing in Fig. 1.
Fig. 3 is B place enlarged drawing in Fig. 1.
Fig. 4 is for putting pipe assembly schematic diagram.
Fig. 5 is for putting pipe assembly schematic diagram.
Fig. 6 is the utility model structural representation.
Fig. 7 is C place enlarged drawing in Fig. 6.
Fig. 8 is the utility model structural representation.
In figure: 1, frame, 1.1, processing guide rail, 1.2, shell groove to be pushed away, 1.3, shell limited block, 2.1, first conveying, 3.1, first cylinder, 3.2, first jacking block, 4.1, sleeve pipe containing pipe, 4.2, put pipe assembly, 4.2.1, large slide block, 4.2.1.1, upper first vertical through holes, 4.2.1.2, lower first vertical through holes, 4.2.2, small slide block, 4.2.2.1, second vertical through holes, 4.2.3, second cylinder, 5.1, 3rd cylinder, 5.2, first chuck, 6, horizontal reciprocating movement assembly, 7.1, four-cylinder, 7.2, second chuck, 8.1, 3rd conveying, 9.1, moving mass, 9.2, 5th vertical cylinder, 9.3, contact pin, 10.1, 7th vertical cylinder, 10.2, pressure head, 11, porcelain bushing, 12, shell, 13, inner core.
Embodiment
With reference to the full-automatic rigging equipment of a kind of fiber adapter shown in Fig. 1-Fig. 8, the shell feedway comprising frame 1 and be arranged in frame 1, porcelain bushing feedway, inner core feedway, processing guide rail 1.1, shell pusher, first shell clamping device, second housing clamping device, inner core conveying device, inner core hold down gag, horizontal reciprocating movement assembly 6, horizontal reciprocating movement assembly 6 drives the first shell clamping device, second housing clamping device moves reciprocatingly, described shell pusher, first shell clamping device, second housing clamping device, inner core conveying device and inner core hold down gag are processing the setting of the direction of motion on guide rail 1.1 along shell.
Described shell feedway involving vibrations dish, the first conveying 2.1, the front end of the first described conveying 2.1 intersects vertically with the left end of processing guide rail 1.1, processing guide rail 1.1 is forming shell groove 1.2 to be pushed away with the first conveying 2.1 intersection, and described shell groove 1.2 to be pushed away can hold a shell; Shell pusher is positioned at the left side of shell groove 1.2 to be pushed away.
Described shell pusher comprises the first cylinder 3.1, first push rod and the first jacking block 3.2, and the first described cylinder 3.1, first push rod and the first jacking block 3.2 are arranged along shell direction of motion, and the first jacking block 3.2 is positioned at the left side of shell.
Described porcelain bushing feedway to be positioned at above processing guide rail 1.1 and to comprise the second vibrating disc, sleeve pipe containing pipe 4.1, puts pipe assembly 4.2, processing guide rail 1.1 is provided with shell limited block 1.3 putting immediately below pipe assembly 4.2, described shell limited block 1.3 horizontal vertical is arranged in shell direction of motion, and shell limited block 1.3 is assemblied on processing guide rail 1.1 through elastic parts.
The first described shell clamping device is arranged on the front of shell limited block 1.3, the first described shell clamping device comprises the 3rd cylinder 5.1, first chuck 5.2, jaws on the first described chuck 5.2 and housing profile match, the first described shell clamping device is fixed on horizontal reciprocating movement assembly 6, and described horizontal reciprocating movement assembly 6 is arranged along shell direction of motion.
The second described clamping device is arranged on the below of inner core feedway, described second housing clamping device comprises four-cylinder 7.1, second chuck 7.2, jaws on the second described chuck 7.2 and housing profile match, and described second housing clamping device is fixed on horizontal reciprocating movement assembly 6.
Described inner core feedway involving vibrations dish, the 3rd conveying 8.1, the front end of the 3rd described conveying 8.1 is provided with inner core stop zone; Described inner core conveying device is positioned at the top of stop zone, described inner core conveying device comprises the 5th vertical cylinder 9.2, the 6th lateral cylinder, moving mass 9.1 and for the contact pin 9.3 with inner core grafting, described the 5th vertical cylinder 9.2 is fixed on moving mass 9.1, moving mass 9.1 is connected with the 6th lateral cylinder, and contact pin is arranged on the upper of the 5th vertical cylinder 9.2 free end.
Described inner core hold down gag comprises the 7th vertical cylinder 10.1 and pressure head 10.2, and described pressure head is arranged on the free end of the 7th vertical cylinder 10.1.
Described horizontal reciprocating movement assembly 6 comprises moving lever and driver, and the first shell clamping device, second housing clamping device are all fixedly mounted on driving stem.
Described pipe assembly 4.2 of putting comprises large slide block 4.2.1, small slide block 4.2.2 and the second cylinder 4.2.3, described small slide block 4.2.2 slides and is placed in large slide block 4.2.1, small slide block 4.2.2 is connected with the second cylinder 4.2.3, large slide block 4.2.1 is provided with and holds the upper first vertical through holes 4.2.1.1 of sleeve pipe and lower first vertical through holes 4.2.1.2, small slide block 4.2.2 are provided with the second vertical through holes 4.2.2.1 holding sleeve pipe; Upper first vertical through holes 4.2.1.1 overlaps with the lower port of sleeve pipe containing pipe 4.1, the upper port of the second vertical through holes 4.2.2.1 of small slide block 4.2.2 overlaps with upper first vertical through holes 4.2.1.1 or is separated, and the lower port of the second vertical through holes 4.2.2.1 of small slide block 4.2.2 overlaps with the lower first vertical through holes 4.2.1.2 of large slide block 4.2.1 or is separated; Described shell limited block 1.3 is positioned at the below of lower first vertical through holes 4.2.1.2.
Principle of work of the present utility model is: shell 12 is transported to shell groove 1.2 the to be pushed away place of the left end of processing guide rail 1.1 by shell feedway, and shell 12 pushes along processing guide rail 1.1 and blocked by shell limited block 1.3 by the first jacking block 3.2 then on shell pusher; The second cylinder 4.2.3 now on porcelain bushing feedway drives small slide block 4.2.2 motion, and when the second vertical through holes 4.2.2.1 on small slide block 4.2.2 overlaps with lower first vertical through holes 4.2.1.2, porcelain bushing 11 falls in shell 12; Then the 3rd cylinder 5.1 on the first shell clamping device moves, and the first chuck 5.2 clamps shell 12, and shell limited block 1.3 pushes away by the first chuck 5.2 inward simultaneously, and shell 12 is no longer subject to spacing; Horizontal reciprocating movement assembly 6 drives the first shell clamping device to move to the right, first shell 12 just reaches the position residing for second housing clamping device, 5th vertical cylinder 9.2 drives contact pin 9.3 to stick in an inner core 13, then be transported under the effect of the 6th lateral cylinder above the first shell 12, now the 5th vertical cylinder 9.2 drives contact pin 9.3 to be inserted in shell by inner core 13, then rollback; Four-cylinder 7.1 drives the second chuck 7.2 to clamp the assembly of porcelain bushing 11, shell 12 and inner core 13 three, continue to move to the right under the drive of horizontal reciprocating movement assembly 6, move to the below of inner core hold down gag, the 7th vertical cylinder 10.1 is with dynamic head 10.2 to be pressed in shell 12 by inner core 13.Action and so forth, achieves the automatic assembling of porcelain bushing 11, shell 12 and inner core 13 three.