CN103691942B - Full-automatic silver alloy contact re-pressing machine - Google Patents
Full-automatic silver alloy contact re-pressing machine Download PDFInfo
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- CN103691942B CN103691942B CN201310752271.8A CN201310752271A CN103691942B CN 103691942 B CN103691942 B CN 103691942B CN 201310752271 A CN201310752271 A CN 201310752271A CN 103691942 B CN103691942 B CN 103691942B
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Abstract
The invention relates to silver alloy contact machining equipment, in particular to a full-automatic silver alloy contact re-pressing machine. The technical scheme includes that the full-automatic silver alloy contact re-pressing machine comprises a machine body and a machining platform, one longitudinal end of the machining platform is a feeding end, the other end of the machining platform is a machining end, a stamping mechanism is arranged at the machining end, a tray, a conveying track, a material accommodating mechanism and a pushing mechanism are arranged at the feeding end, the material accommodating mechanism can longitudinally slide along the machining platform in a reciprocating manner, materials in the conveying track can be pushed to the material accommodating mechanism by the pushing mechanism, and an ejecting mechanism which corresponds to the material accommodating mechanism is arranged on the lower portion of the feeding end of the machining platform; a core clamping mechanism capable of ascending and descending along the machining platform is arranged on one side of the feeding end, and cores on the material accommodating mechanism can be fetched by the core clamping mechanism when the material accommodating mechanism is positioned at the feeding end. According to the technical scheme, the full-automatic silver alloy contact re-pressing machine has the advantages of high production efficiency and capabilities of implementing batch production, reducing production cost and eliminating potential safety hazards.
Description
Technical field
The present invention relates to a kind of silver alloy contact process equipment, particularly the multiple press of a kind of full-automatic silver alloy contact.
Background technology
Electrical contact is the vitals of primary cut-out, switch cubicle, isolating switch, earthed switch, and its performance directly affects quality and the service life of these High-Voltage Electrical Appliances.Traditional electrical contact processing is carried out mainly through manual, put in mould by the silver alloy powder processed needed for electrical contact and silver powder by manual, and then implement processing by manual pressure mould, the working (machining) efficiency of this kind of mode of operation is low, and batch production electrical contact then needs a large amount of manpowers, make it production cost to remain high, easily cause the waste of material in the process; And during manual operation, there is certain potential safety hazard, as careless slightly, the punching press of mould can damage the hand of operator.
Summary of the invention
For the deficiency that prior art exists, the invention provides a kind ofly to can be mass, production efficiency is high, the multiple press of full-automatic silver alloy contact that reduces production cost, eliminate safe hidden trouble.
For achieving the above object, the invention provides following technical scheme: the multiple press of a kind of full-automatic silver alloy contact, it is characterized in that: include body, be located at the processing platform on body, longitudinal one end of processing platform is feed end, the other end is processing end, its processing end place is provided with punching mechanism, feed end place is provided with charging tray, the feeding track be connected with charging tray, can along the longitudinal material placement mechanism toward polyslip of processing platform and the pusher that the material in feeding track can be pushed in material placement mechanism, the bottom of described processing platform feed end is provided with the material jacking mechanism that arrange corresponding to material placement mechanism, the side of feed end is provided with the core branch clamping device that can be elevated along processing platform extracted by the core branch on it when material placement mechanism is in feed end.
Adopt technique scheme, machine-shaping and wait for that the silver alloy contact of multiple pressure is placed in charging tray, and enter into feeding track by charging tray, the silver alloy contact entering feeding track is pushed in material placement mechanism by pusher, core branch is also put in material placement mechanism by core branch clamping device simultaneously, material placement mechanism is along the straight skidding of processing platform to the processing end place of processing platform, punching mechanism implements punching press to the core branch in material placement mechanism and silver alloy contact, the placement of core branch is to prevent silver alloy contact impaired in punching course, make the pressurized dynamics of silver alloy contact more evenly steady simultaneously, complete after multiple pressure until silver alloy contact, material placement mechanism is along processing platform straight skidding to feed end place, core branch in material placement mechanism takes out by core branch clamping device, then material jacking mechanism ejects in material placement mechanism through the silver alloy contact of multiple pressure, just whole manufacturing procedure is completed with this, then the multiple pressure of next silver alloy contact is carried out again with this operation, without the need to manual operation, the potential safety hazard existed when eliminating manual operation, improve production efficiency, reduce the multiple press of full-automatic silver alloy contact of production cost simultaneously.
The present invention is set to further: punching mechanism includes the drift of erection processing platform processing end top and drives drift towards the driving cylinder of processing platform movement; Described feeding track and processing platform be arranged in parallel, pusher and processing platform are vertical setting, this pusher includes mount pad, is located on mount pad and may extend to the push rod at feeding track place and drive the cylinder block of push rod, is connected between cylinder block and push rod by linkage block; Described material placement mechanism includes mounting frame, the cylinder of drive installation framework slippage, the module be located in mounting frame, and module is provided with material and places die cavity; The ejector beam that described material jacking mechanism includes material ejection cylinder and is connected with material ejection cylinder, it is adaptive that die cavity placed by the material in described drift and ejector beam and module.
Wherein, feeding track offers the locating aperture placed for push rod, one end of described linkage block is connected with cylinder block, and other end place offers the slot for push rod grafting, coordinates between linkage block with mount pad in guide rail guide groove.
Adopt technique scheme, it is simple that structure is set like this, easy to process; On feeding track, arranging of locating aperture can make push rod be pushed in material placement mechanism by the material in feeding track on the one hand, also can implement guiding to push rod on the other hand, make the operation of push rod more stable.
The present invention is further set to: core branch clamping device include be set up in lift cylinder on body and with lift cylinder be connected can the clamping head of opening and closing, described clamping head includes the finger cylinder be connected with the cylinder axis of lift cylinder and two gripper jaws be connected with finger cylinder, finger cylinder is provided with two can in the same way or the cylinder axis of oppositely movement, and two gripper jaws are connected respectively at two cylinder axis.
Adopt above-mentioned technical side to decide on a verdict, arrange like this processing and easy to assembly, structure is simple.
The present invention is further set to: the both lateral sides that body is positioned at processing platform processing end is provided with material placement mechanism detent mechanism, and this material placement mechanism detent mechanism includes the locating piece of being located at processing platform both lateral sides and two locating pieces can be driven to drive cylinder towards the locating piece of processing platform movement.
Adopt technique scheme, the setting of material placement mechanism detent mechanism can implement location to material placement mechanism, prevent punching mechanism in punching course, material placement mechanism offsets and causes the stamping position of silver alloy contact to offset, and the punching press dynamics that silver alloy contact is subject to is uneven.
Below in conjunction with accompanying drawing, the invention will be further described.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view of the embodiment of the present invention;
Fig. 2 is the I portion enlarged diagram of Fig. 1;
Fig. 3 is the sectional perspective schematic diagram of the embodiment of the present invention;
Fig. 4 is the schematic perspective view of material placement mechanism in the embodiment of the present invention;
Fig. 5 is the schematic perspective view of embodiment of the present invention SMIS branch clamping device;
Fig. 6 is the schematic perspective view of pusher in the embodiment of the present invention;
Fig. 7 is the schematic perspective view of material jacking mechanism in the embodiment of the present invention;
Fig. 8 is the decomposing schematic representation of material placement mechanism in the embodiment of the present invention.
Detailed description of the invention
The multiple press of a kind of full-automatic silver alloy contact as Figure 1-Figure 8, include body 1, be located at the processing platform 2 on body 1, longitudinal one end of processing platform 2 is feed end 21, the other end is processing end 22, its processing end 22 place is provided with punching mechanism 3, feed end 21 place is provided with charging tray 4, the feeding track 41 be connected with charging tray 4, can along the longitudinal material placement mechanism 5 toward polyslip of processing platform 2 and the pusher 6 that the material in feeding track 41 can be pushed in material placement mechanism 5, the bottom of processing platform 2 feed end 21 is provided with the material jacking mechanism 7 that arrange corresponding to material placement mechanism 5, the side of feed end 21 is provided with the core branch clamping device 8 that can be elevated along processing platform 2 extracted by the core branch on it when material placement mechanism 5 is in feed end 21.In such scheme, machine-shaping and wait for that the silver alloy contact of multiple pressure is placed in charging tray 4, and enter into feeding track 41 by charging tray 4, the silver alloy contact entering feeding track 41 is pushed in material placement mechanism 5 by pusher 6, core branch is also put in material placement mechanism 5 by core branch clamping device simultaneously, material placement mechanism 5 holds 22 places along the straight skidding of processing platform 2 to the processing of processing platform 2, core branch in punching mechanism 3 pairs of material placement mechanisms 5 and silver alloy contact implement punching press, the placement of core branch is to prevent silver alloy contact impaired in punching course, make the pressurized dynamics of silver alloy contact more evenly steady simultaneously, complete after multiple pressure until silver alloy contact, material placement mechanism 5 is along processing platform 2 straight skidding to feed end 21 place, core branch in material placement mechanism 5 takes out by core branch clamping device 8, then material jacking mechanism 7 ejects in material placement mechanism 5 through the silver alloy contact of multiple pressure, just whole manufacturing procedure is completed with this, then the multiple pressure of next silver alloy contact is carried out again with this operation, without the need to manual operation, the potential safety hazard existed when eliminating manual operation, improve production efficiency, reduce the multiple press of full-automatic silver alloy contact of production cost simultaneously.
In embodiments of the present invention, punching mechanism 3 includes erection processing platform 2 and processes drift 31 above end 22 and drive drift 31 towards the driving cylinder 32 of processing platform 2 movement; Feeding track 41 and processing platform 2 be arranged in parallel, pusher 6 and processing platform 2 are vertical setting, this pusher 6 includes mount pad 61, is located on mount pad 61 and may extend to the push rod 62 at feeding track 41 place and drive the cylinder block 63 of push rod 62, is connected between cylinder block 63 and push rod 62 by linkage block 64; Material placement mechanism 5 includes mounting frame 51, the cylinder 52 of drive installation framework 51 slippage, the module 53 be located in mounting frame 51, and module 53 is provided with material and places die cavity 54; The ejector beam 72 that material jacking mechanism 7 includes material ejection cylinder 71 and is connected with material ejection cylinder 71, drift 31 and ejector beam 72 place die cavity 54 adaptation with the material in module 53.Feeding track 41 offers the locating aperture 411 placed for push rod 62, one end of linkage block 64 is connected with cylinder block 63, and other end place offers the slot 641 for push rod 62 grafting, coordinates between linkage block 64 with mount pad 61 in guide rail guide groove.It is simple that structure is set like this, easy to process; On feeding track 41, arranging of locating aperture 411 can make push rod 62 be pushed in material placement mechanism 5 by the material in feeding track 41 on the one hand, also can implement guiding to push rod 62 on the other hand, make the operation of push rod 62 more stable.
In embodiments of the present invention, core branch clamping device 8 include be set up in lift cylinder 81 on body 1 and with lift cylinder 81 be connected can the clamping head 82 of opening and closing, clamping head 82 includes the finger cylinder 821 be connected with the cylinder axis of lift cylinder 81 and two gripper jaws 822 be connected with finger cylinder 821, finger cylinder 821 be provided with two can in the same way or cylinder axis 8211, two gripper jaw 822 of oppositely movement be connected with two cylinder axis 8211 respectively.
In embodiments of the present invention, body 1 is positioned at the both lateral sides that processing platform 2 processes end 22 and is provided with material placement mechanism detent mechanism 9, and this material placement mechanism detent mechanism 9 includes the locating piece 91 of being located at processing platform 2 both lateral sides and two locating pieces 91 can be driven to drive cylinder 92 towards the locating piece of processing platform 2 movement.The setting of material placement mechanism detent mechanism 9 can implement location to material placement mechanism 5, prevent punching mechanism 3 in punching course, material placement mechanism 5 offsets and causes the stamping position of silver alloy contact to offset, and the punching press dynamics that silver alloy contact is subject to is uneven.
In embodiments of the present invention, mounting frame 51 is made up of the installing frame of two pieces of spicing forming types, elastic compression assembly 55 is provided with between two installing frames, two installing frames are respectively left installing frame 511 and right installing frame 512, connected by connector 56 between two installing frames, connector 56 is connected with cylinder 52, left installing frame 511 and right installing frame 512 include vertical edge 513 and two parallel anyhow limits 514 vertically disposed with vertical edge 513 respectively, anyhow the limit 514 of left installing frame 511 offers connecting hole 5111, anyhow the limit 514 of right installing frame 512 offers threaded connection hole 5121, elastic compression assembly 55 includes the connecting rod 551 plugged with in the connecting hole 5121 on two installing frames limit 514 anyhow, one end place that connecting rod 551 is inserted into right installing frame 512 threaded connection hole 5121 is provided with screw thread, the other end is provided with spring 552, connector is the connecting plate connecting left installing frame 511 and right installing frame 512 limit 514 anyhow, connecting plate is connected with left installing frame 511 and right installing frame 512 by screw 57, and screw 57 extends to one end in the limit anyhow 514 of left installing frame 511 and right installing frame 512 and connecting rod 551 clamping is located.Connecting rod 551 offers the locating hole 5511 with screw 57 adaptation.
Claims (6)
1. the multiple press of full-automatic silver alloy contact, it is characterized in that: include body, the processing platform be located on body, longitudinal one end of processing platform is feed end, the other end is processing end, its processing end place is provided with punching mechanism, feed end place be provided with charging tray, the feeding track be connected with charging tray, can along processing platform longitudinally toward the material placement mechanism of polyslip and the pusher that the material in feeding track can be pushed in material placement mechanism, the bottom of described processing platform feed end is provided with the material jacking mechanism that arrange corresponding to material placement mechanism; The side of feed end is provided with the core branch clamping device that can be elevated along processing platform extracted by the core branch on material placement mechanism when material placement mechanism is in feed end.
2. the multiple press of full-automatic silver alloy contact according to claim 1, is characterized in that: described punching mechanism includes the drift of erection processing platform processing end top and drives drift towards the driving cylinder of processing platform movement; Described feeding track and processing platform be arranged in parallel, pusher and processing platform are vertical setting, this pusher includes mount pad, is located on mount pad and may extend to the push rod at feeding track place and drive the cylinder block of push rod, is connected between cylinder block and push rod by linkage block; Described material placement mechanism includes mounting frame, the cylinder of drive installation framework slippage, the module be located in mounting frame, and module is provided with material and places die cavity; The ejector beam that described material jacking mechanism includes material ejection cylinder and is connected with material ejection cylinder, it is adaptive that die cavity placed by the material in described drift and ejector beam and module.
3. the multiple press of full-automatic silver alloy contact according to claim 2, it is characterized in that: described feeding track offers the locating aperture placed for push rod, one end of described linkage block is connected with cylinder block, other end place offers the slot for push rod grafting, coordinates between linkage block with mount pad in guide rail guide groove.
4. the multiple press of the full-automatic silver alloy contact according to claim 1 or 2 or 3, it is characterized in that: described core branch clamping device include be set up in lift cylinder on body and with lift cylinder be connected can the clamping head of opening and closing, described clamping head includes the finger cylinder be connected with the cylinder axis of lift cylinder and two gripper jaws be connected with finger cylinder, finger cylinder is provided with two can in the same way or the cylinder axis of oppositely movement, and two gripper jaws are connected with two cylinder axis respectively.
5. the multiple press of the full-automatic silver alloy contact according to claim 1 or 2 or 3, it is characterized in that: the both lateral sides that described body is positioned at processing platform processing end is provided with material placement mechanism detent mechanism, this material placement mechanism detent mechanism includes the locating piece of being located at processing platform both lateral sides and two locating pieces can be driven to drive cylinder towards the locating piece of processing platform movement.
6. the multiple press of full-automatic silver alloy contact according to claim 4, it is characterized in that: the both lateral sides that described body is positioned at processing platform processing end is provided with material placement mechanism detent mechanism, this material placement mechanism detent mechanism includes the locating piece of being located at processing platform both lateral sides and two locating pieces can be driven to drive cylinder towards the locating piece of processing platform movement.
Priority Applications (1)
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CN201310752271.8A CN103691942B (en) | 2013-12-30 | 2013-12-30 | Full-automatic silver alloy contact re-pressing machine |
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CN201310752271.8A CN103691942B (en) | 2013-12-30 | 2013-12-30 | Full-automatic silver alloy contact re-pressing machine |
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CN103691942A CN103691942A (en) | 2014-04-02 |
CN103691942B true CN103691942B (en) | 2015-07-15 |
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CN201310752271.8A Expired - Fee Related CN103691942B (en) | 2013-12-30 | 2013-12-30 | Full-automatic silver alloy contact re-pressing machine |
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Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108526339B (en) * | 2018-05-23 | 2019-10-25 | 郑灵芝 | A kind of feeding device applied to sheet metal component bending on electronic components |
CN108620497B (en) * | 2018-05-25 | 2023-10-17 | 杭州立捷机电设备有限公司 | Full-automatic plodder |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3328840A (en) * | 1965-04-23 | 1967-07-04 | Pentronix Inc | Powder compacting press |
JPH1060502A (en) * | 1996-08-21 | 1998-03-03 | Mitsubishi Materials Corp | Powder molding device |
CN201788853U (en) * | 2010-08-14 | 2011-04-06 | 黄凯松 | Triple-compound electrical contact production device |
CN102904393A (en) * | 2012-09-28 | 2013-01-30 | 广州嘉特利微电机实业有限公司 | Refrigeration compressor stator iron core re-pressing machine |
CN203649395U (en) * | 2013-12-30 | 2014-06-18 | 瑞安市永明电工合金厂 | Automatic silver alloy contact re-pressing machine |
-
2013
- 2013-12-30 CN CN201310752271.8A patent/CN103691942B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3328840A (en) * | 1965-04-23 | 1967-07-04 | Pentronix Inc | Powder compacting press |
JPH1060502A (en) * | 1996-08-21 | 1998-03-03 | Mitsubishi Materials Corp | Powder molding device |
CN201788853U (en) * | 2010-08-14 | 2011-04-06 | 黄凯松 | Triple-compound electrical contact production device |
CN102904393A (en) * | 2012-09-28 | 2013-01-30 | 广州嘉特利微电机实业有限公司 | Refrigeration compressor stator iron core re-pressing machine |
CN203649395U (en) * | 2013-12-30 | 2014-06-18 | 瑞安市永明电工合金厂 | Automatic silver alloy contact re-pressing machine |
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