CN201493429U - Automatic rivet running through device - Google Patents

Abstract

The utility model discloses an automatic rivet running through device realizing automatic rivet running through, which improves production efficiency and effectively avoids miss rivet running-through cases. The device comprises a rivet delivering device, an induction device and a locating device synchronously moving with a part to be riveted, wherein the locating device is provided with trigger blocks one-to-one corresponding to the rivet holes on the part to be riveted, and when the induction device induces any trigger block, the rivet holes on the part to be riveted corresponding to the trigger blocks correspond to the rivet outlets of the rivet delivering device. The motion modes of the part to be riveted and the locating device are predetermined according to the positions of the rivet holes on the part to be riveted, so as to ensure that when the induction device induces any trigger block, the rivet holes on the part to be riveted corresponding to the trigger blocks just move to the rivet outlets of the rivet delivering device. The automatic rivet running through device realizes automatic multihole riveting, and can effectively avoid miss rivet running-through cases.

Description

Automatic throughrivet device

Technical field

The utility model relates to a kind of riveting equipment.

Background technology

Porous riveted joint processing between two above parts such as the riveted joint to magneto flywheel and wheel cover, needs earlier rivet is penetrated in the rivet hole of flywheel and wheel cover.Existing method is to adopt by hand rivet is penetrated in the rivet hole.The magneto flywheel need be worn six rivets usually, and operating personnel are often leaked the phenomenon of wearing a rivet in the process that penetrates rivet hole, causes product to scrap because of leaking processing; Simultaneously manually wear rivet, efficient is low.As seen, adopt manual mode to carry out the porous riveted joint and have that efficient is low, the problem of quality of production difference.

The utility model content

The technical problem that the utility model solved is: provide a kind of making to wear the automatic throughrivet device that the rivet process realizes automation, enhance productivity, effectively stop leak to wear the situation generation of rivet.

The technical scheme that solves the problems of the technologies described above is: automatic throughrivet device, comprise feeding device for nail, induction installation and with the positioner for the treatment of that the riveting part is synchronized with the movement, described positioner has and treats that each riveted holes triggers piece one to one on the riveting part, when described induction installation is sensed any one and is triggered piece, treat on the riveting part with the corresponding riveted holes of this triggerings piece and continuous nail feeding machanism go out to follow closely mouth corresponding.

The beneficial effects of the utility model are: configure the motion mode for the treatment of riveting part and positioner and the position of respectively triggering piece and continuous nail feeding machanism in advance according to the position for the treatment of each riveted holes on the riveting part, promptly can guarantee when described induction installation is sensed any one triggering piece, treat just to move to going out to follow closely mouthful place and going out to follow closely mouth corresponding of continuous nail feeding machanism with the corresponding riveted holes of this triggering piece on the riveting part, and then wear the rivet operation, both realized the automation of porous riveted joint, and can prevent effectively that again leak-stopping wore the situation generation of rivet.This automatic throughrivet device is particularly useful for the uneven riveting part for the treatment of of riveted holes substep is riveted processing.

Description of drawings

Fig. 1 is the structural representation of the application's automatic throughrivet device.

Fig. 2 is for adding the structural representation of nailing machine structure in the application's automatic throughrivet device.

Fig. 3 is that the K of Fig. 2 is to schematic diagram.

Fig. 4 is an ejector pin and the structural representation that keeps off the nailing machine structure in the application's automatic throughrivet device.

Fig. 5 is the vertical view of positioner in the application's automatic throughrivet device.

Fig. 6 is the state diagram of rivet in slideway in the application's automatic throughrivet device.

Be labeled as among the figure: lowering or hoisting gear 1, binding groove 2, hopper 3, sensor 4, slideway 5, sensor 6, push pin 7, retaining pin 8, drive unit 9, conduit 10, induction installation 1, positioner 12, pallet 13, motor 14, controller 15, treat riveting part 16, rivet 17, trigger piece 18, feeding device for nail 19, whirligig 20.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described further.

Automatic throughrivet device as shown in Figure 1, comprise feeding device for nail 19, induction installation 11 and with the positioner 12 for the treatment of that riveting part 16 is synchronized with the movement, described positioner 12 has and treats that each riveted holes triggers piece 18 one to one on the riveting part 16, when described induction installation 11 is sensed any one and is triggered piece 18, treat on the riveting part 16 with these triggerings piece 18 corresponding riveted holes and continuous nail feeding machanism 19 go out to follow closely mouth corresponding.Above-mentioned " riveted holes and continuous nail feeding machanism 19 go out nail mouthful corresponding " is meant that riveted holes and the relative position that goes out to follow closely between the mouth can make continuous nail feeding machanism 19 that rivet is penetrated in the riveted holes for the treatment of riveting part 16.Configure the motion mode for the treatment of riveting part 16 and positioner 12 in advance and respectively trigger piece 18 and the position of continuous nail feeding machanism 19 according to the position for the treatment of each riveted holes on the riveting part 16, can guarantee like this when described induction installation 11 is sensed any one triggering piece 18, treat just to move to going out to follow closely mouthful place and going out to follow closely mouth corresponding of continuous nail feeding machanism 19 with these triggering piece 18 corresponding riveted holes on the riveting part 16, and then wear the rivet operation, both realized the automation of porous riveted joint, and can prevent effectively that again leak-stopping wore the situation generation of rivet.

This automatic throughrivet device is applicable to the riveted joint processing of riveted holes under multiple non-homogeneous row's step mode.When being arranged in a linear such as each riveted holes on treating riveting part 16, can be with the triggering piece 18 on the positioner 12 along arranged in a straight line, make the spacing distance that triggers between the piece 18 equal with spacing distance between the corresponding riveted holes, guarantee at last to treat that riveting part 16 and positioner 12 do rectilinear motion in an identical manner, so just can guarantee when described induction installation 11 is sensed any one and triggered piece 18, treat on the riveting part 16 with these triggerings piece 18 corresponding riveted holes and continuous nail feeding machanism 19 go out to follow closely mouth corresponding.

Moreover, this automatic throughrivet device also is particularly useful for the riveted joint between disk-like accessory such as magneto flywheel of introducing in the background technology and the wheel cover.Arrange because the riveted holes on this type of part is hoop usually, therefore can adopt following manner to realize automatic throughrivet.As shown in Figure 1, to treat that riveting part 16 is installed on the whirligig 20 and do spinning motion, described positioner 12 be installed in the top for the treatment of riveting part 16 and have respectively with treat riveting part 16 on the corresponding rivet pilot hole of each riveted holes, the described periphery setting that respectively triggers piece 18 along positioner 12, described induction installation 11 are arranged on the movement locus that triggers piece 18.Each riveted holes and each trigger piece 18 and each rivet pilot hole is relation one to one, as shown in Figure 5, that is to say that the angle that triggers between the piece 18 interval between angle at interval and the corresponding riveted holes this moment is identical, and respectively trigger piece 18 be provided with the orientation also with corresponding riveted holes that the orientation is set is identical, therefore when described induction installation 11 is sensed any one triggering piece 18, on the positioner 12 with these triggering piece 18 corresponding rivet pilot holes just with continuous nail feeding machanism 19 to go out nail mouthful corresponding, then the rivet 17 that comes out from continuous nail feeding machanism 19 is imported into by the rivet pilot hole on the positioner 12 and treats on the riveting part 16 accordingly the riveted holes.

As shown in Figure 1, concrete structure as feeding device for nail 19, described feeding device for nail 19 comprises the slideway 5 that is used to carry rivet 17, the width of described slideway 5 is slightly larger than the bar portion diameter of rivet 17, output at slideway 5 is provided with the conduit 10 that is communicated with and extends with slideway 5 downwards, and the lower nozzle of conduit 10 is positioned at the top of riveted holes.As shown in Figure 6,, can guarantee that rivet 17 is single in order mobile, when rivet 17 moves to the output of slideway 5, import through conduit 10 again and treat in the riveted holes of riveting part 16 because the width of slideway 5 is slightly larger than the bar portion diameter of rivet 17.

As shown in Figure 4, for make above-mentioned this feeding device for nail 19 have when riveted holes move to continuous nail feeding machanism 19 go out nail mouthful place the time, send into a rivet 17 from the trend riveted holes, be respectively equipped with ejector pin mechanism and retaining nailing machine structure in the both sides of slideway 5, be respectively equipped with in described ejector pin mechanism and the retaining nailing machine structure and push pin 7 and retaining pin 8, describedly push pin 7 and retaining pin 8 distance of rivet 17 bar portion diameters at interval on the length direction of slideway 5, described push pin 7 and retaining pin 8 alternately stretch in the slideway 5 by drive unit 9.Described push pin 7 and retaining pin 8 can by drive unit 9 synchronously, motion in the same way, like this when pushing pin 7 when stretching into slideway 5, retaining pin 8 retractions, pushing pin 7 promotes that rivets 17 advance and finally from conduit 10 outputs; When pushing pin 7 withdrawals, retaining pin 8 stretches into slideway 5, thereby stops rivet 17 to travel forward.By push pin 7 and the retaining pin 8 alternating movement, a rivet 17 can advance at every turn.

In order to realize automatic binding, described feeding device for nail 19 also comprise be arranged on slideway 5 inputs add the nailing machine structure.As Fig. 2, shown in Figure 3, as a kind of concrete structure that adds the nailing machine structure, the described nailing machine structure that adds comprises hopper 3 and the binding groove 2 that is arranged in the hopper 3, described binding groove 2 drives by lowering or hoisting gear 1 and moves up and down in hopper 3, when binding groove 2 was in certain altitude, the input of its output and slideway 5 was connected.By the motion up and down of binding groove 2, make in the hopper 3 rivet 17 heads up, bar portion towards undercarriage in the groove of binding groove 2.The width of described binding groove 2 is slightly larger than the bar portion diameter in rivet 17, guarantees that rivet 17 is single in order to enter in the slideway 5.In addition, as shown in Figure 3, described slideway 5 and binding groove 2 are all downward-sloping along the throughput direction of rivet 17, thereby rely on the rivet 17 that makes automatically of rivet 17 to enter slideway 5 and travel forward from binding groove 2 automatically.Described slideway 5 is consistent with the angle of inclination of binding groove 2, so that make rivet 17 enter slideway 5 from binding groove 2 more smoothly.

Embodiment

Carry out the riveted joint between magneto flywheel and the wheel cover, offer and treat riveting part 16 positions rivet pilot hole one to one at positioner 12, and install and treat that each riveted holes triggers piece 18 one to one on the riveting part 16 at the periphery of positioner 12, by the location alignment pin positioner 12 is installed in the top for the treatment of riveting part 16, it is corresponding to the riveted holes for the treatment of on the riveting part 16 that each rivet pilot hole is exposed.Whirligig 20 is made up of pallet 13 and motor 14, the riveting part 16 for the treatment of that installs positioner 12 is placed on the pallet 13, press start button, motor 14 drives pallet 13 rotations, treat riveting part 16 and positioner 12 on the pallet also rotate simultaneously, when the 18 sensed devices 11 of the triggering piece on the positioner 12 are checked through, signal passes to control system 15, control system 15 order motors 14 stop operating, one of them rivet pilot hole is over against the outlet of conduit 10 on this moment positioner 12, this moment, control system 15 was given drive unit 9 signals, made to push pin 7 and 8 actions of retaining pin, began to send the rivet action.Whenever send a rivet, sensor 6 can detect a signal, and send control system 15 counting with detected signal, after control system 15 obtains signal that a rivet penetrates, treat riveting part 16 and positioner 12 that 14 rotations of order motor, motor 14 drive on the pallet 13 rotate, when the triggering of the next one on the positioning disk 12 piece 18 sensed devices 11 detect, send signal and give control system 15, the action that the whole device of control system 15 orders is worn second rivet.As shown in Figure 1, also be provided with the sensor 4 that is used to detect rivet 17 on slideway 5, described sensor 4 adds the operation of nailing machine structure by control system 15 controls.When sensor 4 did not detect rivet 17 on the slideway 5, signal passed to control system 15, by control system 15 control lowering or hoisting gears 1 binding groove 2 was moved up and down in hopper 3, and then carried out automatic binding.

Claims (10)

1. automatic throughrivet device, it is characterized in that: comprise feeding device for nail (19), induction installation (11) and with the positioner (12) for the treatment of that riveting part (16) is synchronized with the movement, described positioner (12) is provided with and treats that last each riveted holes of riveting part (16) triggers piece (18) one to one, when described induction installation (11) is sensed any one and is triggered piece (18), treat riveting part (16) go up with the corresponding riveted holes of this triggerings piece (18) and continuous nail feeding machanism (19) go out to follow closely mouth corresponding.

2. automatic throughrivet device as claimed in claim 1, it is characterized in that: each riveted holes is being treated on the riveting part (16) along the hoop substep, describedly treat that riveting part (16) is installed on the whirligig (20) and do spinning motion, described positioner (12) is installed in the top for the treatment of riveting part (16) and has respectively goes up the corresponding rivet pilot hole of each riveted holes with treating riveting part (16), the described periphery setting that respectively triggers piece (18) along positioner (12), described induction installation (11) are arranged on the movement locus that triggers piece (18).

3. automatic throughrivet device as claimed in claim 1, it is characterized in that: described feeding device for nail (19) comprises the slideway (5) that is used to carry rivet (17), the width of described slideway (5) is slightly larger than the bar portion diameter of rivet (17), output at slideway (5) is provided with the conduit (10) that is communicated with and extends with slideway (5) downwards, and the lower nozzle of conduit (10) is positioned at the top of riveted holes.

4. automatic throughrivet device as claimed in claim 3, it is characterized in that: be respectively equipped with ejector pin mechanism and retaining nailing machine structure in the both sides of slideway (5), be respectively equipped with in described ejector pin mechanism and the retaining nailing machine structure and push pin (7) and keep off pin (8), the distance of described pushing pin (7) and retaining pin (a 8) interval rivet (17) bar portion diameter on the length direction of slideway (5), described pushing pin (7) and retaining pin (8) alternately stretch in the slideway (5) by drive unit (9).

5. automatic throughrivet device as claimed in claim 3 is characterized in that: described feeding device for nail (19) also comprise be arranged on slideway (5) input add the nailing machine structure.

6. automatic throughrivet device as claimed in claim 5, it is characterized in that: the described nailing machine structure that adds comprises hopper (3) and is arranged on the interior binding groove (2) of hopper (3), described binding groove (2) drives by lowering or hoisting gear (1) and moves up and down in hopper (3), when binding groove (2) when being in certain altitude, the input of its output and slideway (5) is connected.

7. automatic throughrivet device as claimed in claim 6 is characterized in that: the width of described binding groove (2) is slightly larger than the bar portion diameter of rivet (17).

8. automatic throughrivet device as claimed in claim 6 is characterized in that: described slideway (5) and binding groove (2) are all downward-sloping along the throughput direction of rivet (17).

9. automatic throughrivet device as claimed in claim 8 is characterized in that: described slideway (5) is consistent with the angle of inclination of binding groove (2).

10. automatic throughrivet device as claimed in claim 5 is characterized in that: be provided with the sensor (4) that is used to detect rivet (17) on slideway (5), described sensor (4) adds the operation of nailing machine structure by control system (15) control.

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