CN204135670U - Lock core dedicated full-automatic processing unit (plant) - Google Patents

Abstract

The utility model relates to a kind of lock core dedicated full-automatic processing unit (plant), comprise frame, the platform of described frame is connected successively material loading conveying shearing device, compression perforating mechanism and conveying transfer device are installed, described conveying transfer device is provided with longitudinal borehole mechanism and clamp system.The utility model compact conformation, rationally, handiness, first by material loading conveying shearing device, raw material are cut off one by one, then in compression perforating mechanism, complete punching, enter conveying transfer device after punching, be transferred in conveying device, longitudinal borehole is progressively completed in conveying device, the operation of horizontal borehole, functional reliability is good, and operating efficiency is high.

Description

Lock core dedicated full-automatic processing unit (plant)

Technical field

The utility model relates to machining technique field, especially a kind of lock core dedicated full-automatic processing unit (plant).

Background technology

Lock core is the major part controlling lock unlatching, is the heart of lockset, refers to can rotate and the core driving locking bolt to move with key is supporting.In the machining process of lock core, adopt manual operation in prior art, its functional reliability is poor, inefficiency.

Utility model content

The applicant, for the shortcoming in above-mentioned existing production technology, provides a kind of lock core dedicated full-automatic processing unit (plant) rational in infrastructure, thus improves dependability, increases work efficiency.

The technical scheme that the utility model adopts is as follows:

A kind of lock core dedicated full-automatic processing unit (plant), comprises frame, the platform of described frame is connected successively and is provided with material loading conveying shearing device, compression perforating mechanism and conveying transfer device, described conveying transfer device is provided with longitudinal borehole mechanism and clamp system.

Further improvement as technique scheme:

The structure of described material loading conveying shearing device is: comprise material loading conveying mechanism, the front end of described material loading conveying mechanism is connected shut-off mechanism; The structure of described material loading conveying mechanism is: comprise feed mechanism, the structure of described feed mechanism is: comprise down through spaced first base plate of the second column and lower installation board, described lower installation board is fixed with upper mounting plate by Four-slider, the first lead is inserted in the middle part of described Four-slider, guide plate is installed in the one end being positioned at lower installation board, described first lead is fixed on guide plate, the end being positioned at lower installation board is also fixed with feeding cylinder, and output and the upper mounting plate of described feeding cylinder are affixed; Be positioned on upper mounting plate and be provided with the 3rd guide pad, the side of described 3rd guide pad has draw-in groove, and the sidepiece of described upper mounting plate is also fixed with mobile cylinder by the first right angle block, and the piston rod head of described mobile cylinder snaps in described draw-in groove; The front end being positioned at feed mechanism is also arranged at intervals with the first column, the 4th fixed head is installed at the top of described first column, the first guide pad installed by described 4th fixed head, the first lift cylinder controlling its height and position is installed at described first guide pad top, the sidepiece being positioned at the 4th fixed head is also provided with the second guide pad of square, and the top of described second guide pad is fixed with the second lift cylinder by mounting blocks; Have the hole through lock core in the middle part of above-mentioned each guide pad, described first guide pad, the second guide pad and the 3rd guide pad are positioned at same linear position; The side being positioned at feed mechanism is also provided with the first riser, the sidepiece fixed guide cylinder of described first riser, and the output of described guide cylinder is fixed with the first guide pillar by the first fixed block; Also comprise stand, the top of described stand is fixed with the first promotion cylinder, and the described first output promoting cylinder installs the transfer block of conveying lock core, and the head of described first guide pillar docks with transfer block.

The structure of described shut-off mechanism is: comprise the first installing plate fixing the first motor, described first installing plate is provided with chute, the first slide plate slided along it is connected with in described chute, described first slide plate is fixed with the first reductor by the second installing plate, the output revolving shaft of described first reductor installs cutter; The sidepiece of described first reductor is also fixed on rear plate, the mounting structure of described rear plate is: comprise header board, described header board is provided with guide rail, plate after fixing by slide block on described guide rail, vertically be installed on bottom described header board on the second base plate, described second base plate installs cylinder, and output and first contiguous block of described cylinder are affixed, and described first contiguous block is through affixed with rear plate in the middle part of header board; Described cutter are between the second guide pad and the 3rd guide pad.

The structure of described compression perforating mechanism is: comprise clamping device, and perforating mechanism is installed respectively in the both sides of described clamping device; The structure of described clamping device is: comprise clamp assembly, and front end and the rear end of described clamp assembly are respectively arranged with conveying mechanism; The structure of described clamp assembly is: comprise the 3rd column that interval is vertically placed, the first cover plate is fixed in described 3rd column upper end, below described first cover plate, telescopic cylinder is installed, affixed second riser of output of described telescopic cylinder, outside described second riser, clamping group is installed, the structure of described clamping group is: comprise first clamping cylinder fixing with the second riser, described first clamping cylinder lower end is connected to the first clamp arm and the second clamp arm by the 3rd installing plate; Also comprise the 3rd fixed head, the bottom of described 3rd fixed head is provided with the 3rd lift cylinder, clamping seats is installed at the top of described 3rd fixed head, described clamping seats shape structure at a right angle, first right angle arm top of clamping seats offers the groove of clamping lock core, is positioned at groove one end and is extended with the first boss, described first boss is fixed with the first compact heap, offer pressing groove bottom described first compact heap, described pressing groove and groove form the break-through groove through lock core; Be positioned at clamping seats first right angle arm sidepiece and be also connected with auxiliary clamp block, described first clamp arm abuts with the first compact heap top, and described second clamp arm through the first clamping slot of auxiliary clamp block, and abuts with the first compact heap top; Be positioned at both sides affixed first fixed head respectively of the second right angle arm of clamping seats, described first fixed head is connected with the second fixed head by guide pillar, first longitudinal cylinder is fixed in the inner side of described second fixed head, the output of described first longitudinal cylinder connects back-up block assembly, and described back-up block assembly top card is in groove; The structure of described conveying mechanism is: comprise the bracing frame vertically laid, and is provided with the second motor with bracing frame outside vertical, and the head clearance of support frame as described above is provided with support plate, and described support plate two ends are provided with roller, installs conveyer belt between two rollers; The structure of described perforating mechanism is: comprise the 3rd base plate, installation frame on described 3rd base plate, the 3rd base plate being positioned at framework installs the second slide plate by slipping mechanism, the second reductor fixed by described second slide plate, the output of described second reductor installs drill bit, the one end being positioned at framework is also fixed with the first propelling movement cylinder, and the described first output pushing cylinder is connected with the second slide plate; Have the first draw-in groove in the middle part of described auxiliary clamp block, be positioned at first clamping slot of Upper vertical direction setting through the second clamp arm of the first draw-in groove; The structure of described back-up block assembly is: comprise pony sill, described pony sill is extended with F type back-up block, and described F type back-up block is arranged in groove.

The structure of conveying transfer device is: the conveyer belt comprising conveying lock core, the output of described conveyer belt is connected transfer device, lock core is transferred in conveying device by described transfer device, the structure of described transfer device is: comprise spaced second foundation, described second foundation is fixed with top board, described top board has notch, be positioned on top board and be also fixed with the second promotion cylinder, described second output promoting cylinder fixes the second contiguous block, described second contiguous block is through notch, the bottom being positioned at top board is provided with the second guide pillar, described second guide pillar is fixed with the 3rd slide plate by the 5th slide block, described second contiguous block and the 3rd slide plate fastening, second longitudinal cylinder is fixed in the bottom being positioned at the 3rd slide plate, and the output of described second longitudinal cylinder fixes the first lateral cylinder, and the second projection of gripper arm seat installs clamp arm to mounting clamp arm seat bottom described first lateral cylinder, also comprise the 4th column, the top of described 4th column is fixed with the second clamping slot coordinated with lock core by locking member, described clamp arm docks with the second clamping slot, the structure of described conveying device is: comprise spaced supporting seat, in described supporting seat, duplex chain wheel is installed, between two duplex chain wheels, double strand chain is installed, on described double strand chain, interval is provided with multiple transfer block assembly, the structure of described transfer block assembly is: comprise the first fixing foundation, and described first foundation top is provided with deck by pulley, described deck by bearing pin and double strand chain chain link fastening, be positioned at the top mounting-fixing base of deck, lock core placed by described holder, connected by support column between adjacent two the first foundation.

The structure of described first foundation is: described first foundation becomes rectangular structure, is positioned at the first two ends, foundation top and is formed with the second boss, described second boss has the pulley installing hole installing pulley, is positioned at the first foundation crown center and is formed with the first projection.

The structure of described holder is: comprise sole piece, is provided with the circular arc frame placing lock core in the middle part of described sole piece, the support that the outside being positioned at circular arc frame has two groups of intervals to place.

The structure of described deck is: the bottom surface of deck is extended with three parallel trapezoidal projections, described trapezoidal projection has pin-and-hole.

The structure of longitudinal borehole mechanism is: comprise the top cover installed by four shore supports, hole is had in the middle part of described top cover, the two ends of institute's perforate are separately installed with left support block and right support block, the outer end of described right support block is provided with cross slide way, described cross slide way is fixed with the second connector by the first slide block, described right support block is also fixed with the second lateral cylinder, the output of described second lateral cylinder abuts with the first slide block, described second connector is fixed with the first connector, described first connector arranges longitudinal rail, by the second slide block firm banking on described longitudinal rail, most first connector also installs the 3rd longitudinal cylinder, the output of described 3rd longitudinal cylinder abuts with the second slide block, described base installs the 3rd motor, the output of described 3rd motor installs drill bit, described 3rd motor is anchored on base by the second cover plate, the sidewall of described left support block also has chute, described chute installs the second compact heap by the 3rd slide block, described second compact heap is through the perforate of top cover institute, the 4th lift cylinder is installed by gripper shoe in the top of described second compact heap, the output of described 4th lift cylinder is connected with the second compact heap, the sidewall of described second compact heap has installing hole, and the two ends of described second compact heap are respectively arranged with boss, and the bottom being positioned at the second compact heap has the second draw-in groove coordinated with lock core.

The structure of described clamp system is: comprise underframe, the top of described underframe is provided with slide rail, described slide rail is fixed with installing rack by slide block, described installing rack is fixed with the second right angle block, described second right angle block top is fixed with the second clamping cylinder, and the output of described second clamping cylinder installs clamp; Through there being the second lead in the middle part of described second right angle block; One end of described underframe is provided with the second propelling movement cylinder by the second fixed block, and the described second output pushing cylinder abuts with installing rack.

The beneficial effects of the utility model are as follows:

The utility model compact conformation, rationally, handiness, first by material loading conveying shearing device, raw material are cut off one by one, then in compression perforating mechanism, complete punching, enter conveying transfer device after punching, be transferred in conveying device, longitudinal borehole is progressively completed in conveying device, the operation of horizontal borehole, functional reliability is good, and operating efficiency is high.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is structural representation of the present utility model (omission frame).

Fig. 3 is the structural representation of the utility model material loading conveying shearing device.

Fig. 4 is the utility model material loading conveying mechanism structural representation.

Fig. 5 is the structural representation of the utility model feed mechanism.

Fig. 6 is the structural representation of this practicality shut-off mechanism.

The structural representation (omission cutter) at another visual angle of Fig. 7 the utility model shut-off mechanism.

Fig. 8 is the structural representation of compression perforating mechanism of the present utility model.

Fig. 9 is the application drawing of clamping device of the present utility model.

Figure 10 is the structural representation of the utility model clamp system.

Figure 11 is the structural representation of the utility model clamping seats.

The structural representation of Figure 12 the utility model clamping group.

The structural representation of Figure 13 the utility model first compact heap.

The structural representation of Figure 14 the utility model auxiliary clamp block.

The structural representation of Figure 15 the utility model back-up block.

Figure 16 is the structural representation of the utility model perforating mechanism.

Figure 17 is the structural representation of the utility model conveying transfer device.

Figure 18 is the structural representation (omission chain) of the utility model conveying device.

Figure 19 is the utility model transfer block explosive view.

Figure 20 is the structural representation of the utility model foundation.

Figure 21 is the structural representation of the utility model holder.

Figure 22 is the structural representation of the utility model deck.

Figure 23 is the structural representation of the utility model transfer device.

Figure 24 is the structural representation of the longitudinal borehole mechanism of the utility model.

Figure 25 is the structural representation of the utility model second compact heap.

Figure 26 is the application drawing of the utility model clamp system.

Figure 27 is the structural representation of the utility model clamp system

Wherein: 1, transfer block; 2, first cylinder is promoted; 3, stand; 4, the first lift cylinder; 5, the first guide pad; 6, the second lift cylinder; 7, mounting blocks; 8, the second guide pad; 9, the 4th fixed head; 10, the first column; 11, the first guide pillar; 12, the first fixed block; 13, the first riser; 14, feed mechanism; 15, shut-off mechanism; 16, material loading conveying mechanism; 1401, the 3rd guide pad; 1402, the first right angle block; 1403, mobile cylinder; 1404, piston rod; 1405, upper mounting plate; 1406, Four-slider; 1407, the first lead; 1408, lower installation board; 1409, the second column; 1410, the first base plate; 1411, guide plate; 1412, feeding cylinder; 1501, the first motor; 1502, the first installing plate; 1503, chute; 1504, the first slide plate; 1505, the second installing plate; 1506, the first reductor; 1507, rear plate; 1508, guide rail; 1509, the second base plate; 1510, rotating shaft; 1511, cutter; 1512, header board; 1513, the first contiguous block; 1514, the first telescopic cylinder; 17, material loading conveying shearing device; 18, perforating mechanism is compressed; 19, transfer device is carried; 22, longitudinal borehole mechanism; 23, clamp system; 24, frame; 25, platform; 302, support plate; 303, the 3rd column; 304, the first cover plate; 305, the second telescopic cylinder; 306, the second riser; 307, clamping group; 701, the first clamping cylinder; 702, the 3rd installing plate; 703, the first clamp arm; 704, the second clamp arm; 308, auxiliary clamp block; 801, the first clamping slot; 802, the first draw-in groove; 309, the first compact heap; 3901, pressing groove; 310, clamping seats; 1001, groove; 1002, the first boss; 311, the first fixed head; 312, back-up block assembly; 1201, F type back-up block; 1202, pony sill; 313, first longitudinal cylinder; 314, the second fixed head; 315, the 3rd fixed head; 316, the 3rd lift cylinder; 317, bracing frame; 318, the second motor; 319, roller; 20, perforating mechanism; 21, clamping device; 901, first cylinder is pushed; 902, the second slide plate; 903, framework; 904, the 3rd base plate; 905, the second reductor; 26, conveying device; 27, transfer device; 28, conveyer belt; 101, supporting seat; 102, duplex chain wheel; 103, support column; 104, transfer block assembly; 105, lock core; 106, holder; 107, deck; 108, pulley; 109, the first foundation; 110, pulley installing hole; 111, the second boss; 112, the first projection; 113, sole piece; 114, support; 115, circular arc frame; 116, bottom surface; 117, trapezoidal projection; 118, pin-and-hole; 201, second cylinder is promoted; 202, the second contiguous block; 203, top board; 204, the 5th slide block; 205, the 3rd slide plate; 206, second longitudinal cylinder; 207, the second guide pillar; 208, the first lateral cylinder; 209, gripper arm seat; 210, the 3rd clamp arm; 211, the second foundation; 212, the 4th column; 213, the second clamping slot; 214, the second projection; 401, right support block; 402, the 4th lift cylinder; 403, gripper shoe; 404, left support block; 405, the second compact heap; 406, top cover; 407, pillar; 408, the second lateral cylinder; 409, the 3rd motor; 410, base; 411, the second cover plate; 412, cross slide way; 413, the second connector; 414, the first connector; 415, longitudinal rail; 416, the 3rd longitudinal cylinder; 501, installing hole; 502, boss; 503, the second draw-in groove; 604, second cylinder is pushed; 605, the second fixed block; 606, underframe; 607, the second right angle block; 608, installing rack; 609, slide block; 610, the second clamping cylinder; 611, clamp; 612, the second lead; 613, slide rail.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described.

As shown in Fig. 1-Figure 27, the lock core dedicated full-automatic processing unit (plant) of the present embodiment, comprise frame 24, the platform 25 of frame 24 is connected successively material loading conveying shearing device 17, compression perforating mechanism 18 and conveying transfer device 19 are installed, conveying transfer device 19 is provided with longitudinal borehole mechanism 22 and clamp system 23.

The structure of material loading conveying shearing device 17 is: comprise material loading conveying mechanism 16, and the front end of material loading conveying mechanism 16 is connected shut-off mechanism 15, the structure of material loading conveying mechanism 16 is: comprise feed mechanism 14, the structure of feed mechanism 14 is: comprise down through spaced first base plate 1410 of the second column 1409 and lower installation board 1408, lower installation board 1408 is fixed with upper mounting plate 1405 by Four-slider 1406, the first lead 1407 is inserted in the middle part of Four-slider 1406, guide plate 1411 is installed in the one end being positioned at lower installation board 1408, first lead 1407 is fixed on guide plate 1411, the end being positioned at lower installation board 1408 is also fixed with feeding cylinder 1412, output and the upper mounting plate 1405 of feeding cylinder 1412 are affixed, be positioned on upper mounting plate 1405 and be provided with the 3rd guide pad 1401, the side of the 3rd guide pad 1401 has draw-in groove, the sidepiece of upper mounting plate 1405 is also fixed with mobile cylinder 1403 by the first right angle block 1402, and piston rod 1404 head of mobile cylinder 1403 snaps in draw-in groove, the front end being positioned at feed mechanism 14 is also arranged at intervals with the first column 10, the 4th fixed head 9 is installed at the top of the first column 10,4th fixed head 9 is installed the first guide pad 5, the first lift cylinder 4 controlling its height and position is installed at first guide pad 5 top, the top that the sidepiece being positioned at the 4th fixed head 9 is also provided with the second guide pad 8, second guide pad 8 of square is fixed with the second lift cylinder 6 by mounting blocks 7, have the hole through lock core 105 in the middle part of above-mentioned each guide pad, the first guide pad 5, second guide pad 8 and the 3rd guide pad 1401 are positioned at same linear position, the side being positioned at feed mechanism 14 is also provided with the sidepiece fixed guide cylinder of the first riser 13, first riser 13, and the output of guide cylinder is fixed with the first guide pillar 11 by the first fixed block 12, also comprise stand 3, the top of stand 3 is fixed with the head that output that the first promotion cylinder 2, first promotes cylinder 2 installs transfer block 1, first guide pillar 11 of conveying lock core 105 and docks with transfer block 1.

The structure of shut-off mechanism 15 is: comprise the first installing plate 1502 fixing the first motor 1501, first installing plate 1502 is provided with chute 1503, the first slide plate 1504 slided along it is connected with in chute 1503, the output revolving shaft 1,510 first slide plate 1504 being fixed with the first reductor 1506, first reductor 1506 by the second installing plate 1505 installs cutter 1511; The sidepiece of the first reductor 1506 is also fixed on rear plate 1507, the mounting structure of rear plate 1507 is: comprise header board 1512, header board 1512 is provided with guide rail 1508, plate 1507 after fixing by slide block on guide rail 1508, vertically be installed on the second base plate 1509 bottom header board 1512, second base plate 1509 installs cylinder 1514, and output and first contiguous block 1513 of cylinder 1514 are affixed, and the first contiguous block 1513 is through affixed with rear plate 1507 in the middle part of header board 1512; Cutter 1511 are between the second guide pad 8 and the 3rd guide pad 1401.

The structure compressing perforating mechanism 18 is: comprise clamping device 21, the both sides of clamping device 21 install perforating mechanism 20 respectively; The structure of clamping device 21 is: comprise clamp assembly, and front end and the rear end of clamp assembly are respectively arranged with conveying mechanism; The structure of clamp assembly is: comprise the 3rd column 303 that interval is vertically placed, the first cover plate 304 is fixed in 3rd column 303 upper end, second telescopic cylinder 305 is installed below first cover plate 304, affixed second riser 306 of output of the second telescopic cylinder 305, outside second riser 306, clamping group 307 is installed, the structure of clamping group 307 is: comprise first clamping cylinder 701, first clamping cylinder 701 lower end fixing with the second riser 306 and be connected to the first clamp arm 703 and the second clamp arm 704 by the 3rd installing plate 702; Also comprise the 3rd fixed head 315, the bottom of the 3rd fixed head 315 is provided with the 3rd lift cylinder 316, clamping seats 310 is installed at the top of the 3rd fixed head 315, clamping seats 310 shape structure at a right angle, first right angle arm top of clamping seats 310 offers the groove 1001 of clamping lock core 105, be positioned at groove 1001 one end and be extended with the first boss 1002, first boss 1002 is fixed with the first compact heap 309, offer pressing groove 3901 bottom first compact heap 309, pressing groove 3901 and groove 1001 form the break-through groove through lock core 105; Be positioned at clamping seats 310 first right angle arm sidepiece to be also connected with auxiliary clamp block 308, first clamp arm 703 and to abut with the first compact heap 309 top, the second clamp arm 704 through the first clamping slot 801 of auxiliary clamp block 308, and abuts with the first compact heap 309 top; Be positioned at both sides affixed first fixed head 311 respectively of the second right angle arm of clamping seats 310, first fixed head 311 is connected with the second fixed head 314 by guide pillar, first longitudinal cylinder 313 is fixed in the inner side of the second fixed head 314, the output of first longitudinal cylinder 313 connects back-up block assembly 312, and back-up block assembly 312 top card is in groove 1001; The structure of conveying mechanism is: comprise the bracing frame 317 vertically laid, with bracing frame 317 outside vertical, the second motor 318 is installed, the head clearance of bracing frame 317 is provided with support plate 302, and support plate 302 two ends are provided with roller 319, installs conveyer belt between two rollers 319; The structure of perforating mechanism 20 is: comprise the 3rd base plate 904, installation frame 903 on 3rd base plate 904, the 3rd base plate 904 being positioned at framework 903 installs the second slide plate 902 by slipping mechanism, second slide plate 902 is fixed the second reductor 905, the output of the second reductor 905 installs drill bit, the one end being positioned at framework 903 is also fixed with the output that the first propelling movement cylinder 901, first pushes cylinder 901 and is connected with the second slide plate 902; Have the first draw-in groove 802 in the middle part of auxiliary clamp block 308, be positioned at first clamping slot 801 of Upper vertical direction setting through the second clamp arm 704 of the first draw-in groove 802; The structure of back-up block assembly 312 is: comprise pony sill 1202, pony sill 1202 is extended with F type back-up block 1201, F type back-up block 1201 and is arranged in groove 1001.

The structure of conveying transfer device 19 is: the conveyer belt 28 comprising conveying lock core 105, the output of conveyer belt 28 is connected transfer device 27, lock core 105 is transferred in conveying device 26 by transfer device 27, the structure of transfer device 27 is: comprise spaced second foundation 211, second foundation 211 is fixed with top board 203, top board 203 has notch, be positioned on top board 203 and be also fixed with the second promotion cylinder 201, second output promoting cylinder 201 fixes the second contiguous block 202, second contiguous block 202 is through notch, the bottom being positioned at top board 203 is provided with the second guide pillar 207, second guide pillar 207 is fixed with the 3rd slide plate 205 by the 5th slide block 204, second contiguous block 202 and the 3rd slide plate 205 fastening, second longitudinal cylinder 206 is fixed in the bottom being positioned at the 3rd slide plate 205, the output of second longitudinal cylinder 206 fixes the first lateral cylinder 208, mounting clamp arm seat 209 bottom first lateral cylinder 208, the second projection 214 of gripper arm seat 209 installs the 3rd clamp arm 210, the top also comprising the 4th column the 212, four column 212 is fixed with by locking member the second clamping slot the 213, three clamp arm 210 coordinated with lock core 105 and docks with the second clamping slot 213, the structure of conveying device 26 is: comprise spaced supporting seat 101, in supporting seat 101, duplex chain wheel 102 is installed, between two duplex chain wheels 102, double strand chain is installed, on double strand chain, interval is provided with multiple transfer block assembly 104, the structure of transfer block assembly 104 is: comprise the first fixing foundation 109, first foundation 109 top is provided with deck 107 by pulley 108, deck 107 by bearing pin and double strand chain chain link fastening, be positioned at the top mounting-fixing base 106 of deck 107, holder 106 placed lock core 105, connected by support column 103 between adjacent two the first foundation 109.

The structure of the first foundation 109 is: the first 109 one-tenth, foundation rectangular structure, be positioned at the first two ends, foundation 109 top and be formed with the second boss 111, second boss 111 has the pulley installing hole 110 installing pulley 108, be positioned at the first foundation 109 crown center and be formed with the first projection 112.

The structure of holder 106 is: comprise sole piece 113, is provided with the circular arc frame 115 placing lock core 105 in the middle part of sole piece 113, the support 114 that the outside being positioned at circular arc frame 115 has two groups of intervals to place.

The structure of deck 107 is: the bottom surface 116 of deck 107 is extended with three parallel trapezoidal protruding 117, has pin-and-hole 118 on trapezoidal protruding 117.

The structure of longitudinal borehole mechanism 22 is: comprise and support by four pillars 407 top cover 406 installed, hole is had in the middle part of top cover 406, the two ends of institute's perforate are separately installed with left support block 404 and right support block 401, the outer end of right support block 401 is provided with cross slide way 412, cross slide way 412 is fixed with the second connector 413 by the first slide block, right support block 401 is also fixed with the second lateral cylinder 408, the output of the second lateral cylinder 408 abuts with the first slide block, second connector 413 is fixed with the first connector 414, first connector 414 arranges longitudinal rail 415, by the second slide block firm banking 410 on longitudinal rail 415, most first connector 414 also installs the 3rd longitudinal cylinder 416, the output of the 3rd longitudinal cylinder 416 abuts with the second slide block, base 410 installs the 3rd motor 409, the output of the 3rd motor 409 installs drill bit, 3rd motor 409 is anchored on base 410 by the second cover plate 411, the sidewall of left support block 404 also has chute, chute installs the second compact heap 405 by the 3rd slide block, second compact heap 405 is through top cover 406 perforates, the 4th lift cylinder 402 is installed by gripper shoe 403 in the top of the second compact heap 405, the output of the 4th lift cylinder 402 is connected with the second compact heap 405, the sidewall of the second compact heap 405 has installing hole 501, the two ends of the second compact heap 405 are respectively arranged with boss 502, and the bottom being positioned at the second compact heap 405 has the second draw-in groove 503 coordinated with lock core 105.

The structure of clamp system 23 is: comprise underframe 606, the top of underframe 606 is provided with slide rail 613, slide rail 613 is fixed with installing rack 608 by slide block 609, installing rack 608 is fixed with the second right angle block 607, the output that second right angle block 607 top is fixed with the second clamping cylinder 610, second clamping cylinder 610 installs clamp 611; Through there being the second lead 612 in the middle part of second right angle block 607; The output that one end of underframe 606 is provided with the second propelling movement cylinder 604, second propelling movement cylinder 604 by the second fixed block 605 abuts with installing rack 608.

In actual use procedure, the raw material of processing lock core 105 are delivered on the upper mounting plate 1405 of feed mechanism 14, progressively raw material are fed forward under the effect of feeding cylinder 1412, during conveying, all through in institute's perforate in the middle part of the first guide pad 5, second guide pad 8 and the 3rd guide pad 1401.By the stroke of feeding cylinder 1412, the progress of its conveying can be controlled easily.The design of the first lift cylinder 4 and the second lift cylinder 6, can control the place height and position of the first guide pad 5, second guide pad 8 easily.Simultaneously, start the first telescopic cylinder 1514, under the effect of the first contiguous block 1513, rear plate 1507 slides along guide rail 1508, the first reductor 1506 is then driven to be subjected to displacement, until move to cutter 1511 between the second guide pad 8 and the 3rd guide pad 1401, start the first motor 1501, cutter 1511 by it by disconnected cutting.Lock core 105 after cutting enters clamping device 21 by conveyer belt, clamping device 21 operates, and starts the second motor 318 and pushes in the crack of groove 1001 of clamping seats 310 by lock core 105 workpiece of processing to be clamped by the conveyer belt (not shown in FIG.) on roller 319, start first longitudinal cylinder 313 when driving back-up block assembly 312 to make lock core 105 move to assigned address, start the 3rd lift cylinder 316 and adjust the height of clamping seats 310 thus the proper height of adjustment lock core 105, start the first clamping cylinder 701, the first clamp arm 703 is made to compress the first compact heap 309, second clamp arm 704, through the first clamping slot 801 of auxiliary clamp block 308, compresses the first compact heap 309, thus lock core 105 top is abutted completely be fixed in pressing groove 3901, perforating mechanism 20 works, lock core is punched, after the operation such as to be punctured terminates, by conveying mechanism, workpiece is delivered in conveying transfer device 19, its specific operation process is as follows: lock core 105 is delivered to transfer device 27 from conveyer belt 28, lock core 105 is pushed in the second clamping slot 213, promote cylinder 201 to work, promote the 3rd clamp arm 210 and move to lock core 105 top, longitudinal cylinder 206 works, promote the 3rd clamp arm 210 to decline, and lock core 105 is clamped, after clamping, longitudinal cylinder 206 drives the 3rd clamp arm 210 to rise, then promote cylinder 201 and move to lock core 105 desired location (namely the holder 106 of conveying device 26 is interior), then the double strand chain work of conveying device 26, lock core 105 is progressively delivered to each station successively, clamped by clamp system 23, hold-down mechanism compresses, complete longitudinal punching one by one, the laterally work of punching.Easy to use, operating efficiency is high.

More than describing is to explanation of the present utility model, and be not the restriction to utility model, the utility model limited range, see claim, within protection domain of the present utility model, can do any type of amendment.

Claims (10)

1. a lock core dedicated full-automatic processing unit (plant), it is characterized in that: comprise frame (24), the platform (25) of described frame (24) is connected successively material loading conveying shearing device (17), compression perforating mechanism (18) and conveying transfer device (19) are installed, described conveying transfer device (19) is provided with longitudinal borehole mechanism (22) and clamp system (23).

2. lock core dedicated full-automatic processing unit (plant) as claimed in claim 1, it is characterized in that: the structure of described material loading conveying shearing device (17) is: comprise material loading conveying mechanism (16), the front end of described material loading conveying mechanism (16) is connected shut-off mechanism (15), the structure of described material loading conveying mechanism (16) is: comprise feed mechanism (14), the structure of described feed mechanism (14) is: comprise down through spaced first base plate (1410) of the second column (1409) and lower installation board (1408), (1408) are fixed with upper mounting plate (1405) by Four-slider (1406) to described lower installation board, the first lead (1407) is inserted at described Four-slider (1406) middle part, guide plate (1411) is installed in the one end being positioned at lower installation board (1408), described first lead (1407) is fixed on guide plate (1411), the end being positioned at lower installation board (1408) is also fixed with feeding cylinder (1412), output and the upper mounting plate (1405) of described feeding cylinder (1412) are affixed, be positioned on upper mounting plate (1405) and be provided with the 3rd guide pad (1401), the side of described 3rd guide pad (1401) has draw-in groove, the sidepiece of described upper mounting plate (1405) is also fixed with mobile cylinder (1403) by the first right angle block (1402), and piston rod (1404) head of described mobile cylinder (1403) snaps in described draw-in groove, the front end being positioned at feed mechanism (14) is also arranged at intervals with the first column (10), the 4th fixed head (9) is installed at the top of described first column (10), upper installation first guide pad (5) of described 4th fixed head (9), the first lift cylinder (4) controlling its height and position is installed at described first guide pad (5) top, the sidepiece being positioned at the 4th fixed head (9) is also provided with second guide pad (8) of square, and the top of described second guide pad (8) is fixed with the second lift cylinder (6) by mounting blocks (7), have the hole through lock core (105) in the middle part of above-mentioned each guide pad, described first guide pad (5), the second guide pad (8) and the 3rd guide pad (1401) are positioned at same linear position, the side being positioned at feed mechanism (14) is also provided with the first riser (13), the sidepiece fixed guide cylinder of described first riser (13), and the output of described guide cylinder is fixed with the first guide pillar (11) by the first fixed block (12), also comprise stand (3), the top of described stand (3) is fixed with the first promotion cylinder (2), described first output promoting cylinder (2) installs the transfer block (1) of conveying lock core (105), and the head of described first guide pillar (11) docks with transfer block (1).

3. lock core dedicated full-automatic processing unit (plant) as claimed in claim 2, it is characterized in that: the structure of described shut-off mechanism (15) is: comprise the first installing plate (1502) fixing the first motor (1501), described first installing plate (1502) is provided with chute (1503), the first slide plate (1504) slided along it is connected with in described chute (1503), described first slide plate (1504) is fixed with the first reductor (1506) by the second installing plate (1505), the output revolving shaft (1510) of described first reductor (1506) installs cutter (1511), the sidepiece of described first reductor (1506) is also fixed on rear plate (1507), the mounting structure of described rear plate (1507) is: comprise header board (1512), described header board (1512) is provided with guide rail (1508), plate (1507) after fixing by slide block on described guide rail (1508), described header board (1512) bottom is vertically installed on the second base plate (1509), described second base plate (1509) installs cylinder (1514), output and first contiguous block (1513) of described cylinder (1514) are affixed, described first contiguous block (1513) is affixed with rear plate (1507) through header board (1512) middle part, described cutter (1511) are positioned between the second guide pad (8) and the 3rd guide pad (1401).

4. lock core dedicated full-automatic processing unit (plant) as claimed in claim 1, it is characterized in that: the structure of described compression perforating mechanism (18) is: comprise clamping device (21), the both sides of described clamping device (21) install perforating mechanism (20) respectively, the structure of described clamping device (21) is: comprise clamp assembly, and front end and the rear end of described clamp assembly are respectively arranged with conveying mechanism, the structure of described clamp assembly is: comprise the 3rd column (303) that interval is vertically placed, the first cover plate (304) is fixed in described 3rd column (303) upper end, described first cover plate (304) below is provided with the second telescopic cylinder (305), affixed second riser (306) of output of described second telescopic cylinder (305), clamping group (307) is installed in described second riser (306) outside, the structure of described clamping group (307) is: comprise first clamping cylinder (701) fixing with the second riser (306), described first clamping cylinder (701) lower end is connected to the first clamp arm (703) and the second clamp arm (704) by the 3rd installing plate (702), also comprise the 3rd fixed head (315), the bottom of described 3rd fixed head (315) is provided with the 3rd lift cylinder (316), clamping seats (310) is installed at the top of described 3rd fixed head (315), described clamping seats (310) shape structure at a right angle, first right angle arm top of clamping seats (310) offers the groove (1001) of clamping lock core (105), be positioned at groove (1001) one end and be extended with the first boss (1002), described first boss (1002) is fixed with the first compact heap (309), described first compact heap (309) bottom offers pressing groove (3901), described pressing groove (3901) and groove (1001) form the break-through groove through lock core (105), be positioned at clamping seats (310) first right angle arm sidepiece and be also connected with auxiliary clamp block (308), described first clamp arm (703) abuts with the first compact heap (309) top, described second clamp arm (704) through first clamping slot (801) of auxiliary clamp block (308), and abuts with the first compact heap (309) top, be positioned at both sides affixed first fixed head (311) respectively of the second right angle arm of clamping seats (310), described first fixed head (311) is connected with the second fixed head (314) by guide pillar, first longitudinal cylinder (313) is fixed in the inner side of described second fixed head (314), the output of described first longitudinal cylinder (313) connects back-up block assembly (312), and described back-up block assembly (312) top card is in groove (1001), the structure of described conveying mechanism is: comprise the bracing frame (317) vertically laid, with bracing frame (317) outside vertical, the second motor (318) is installed, the head clearance of support frame as described above (317) is provided with support plate (302), described support plate (302) two ends are provided with roller (319), install conveyer belt between two rollers (319), the structure of described perforating mechanism (20) is: comprise the 3rd base plate (904), the upper installation frame (903) of described 3rd base plate (904), the 3rd base plate (904) being positioned at framework (903) installs the second slide plate (902) by slipping mechanism, described second slide plate (902) fixes the second reductor (905), the output of described second reductor (905) installs drill bit, the one end being positioned at framework (903) is also fixed with the first propelling movement cylinder (901), and the described first output pushing cylinder (901) is connected with the second slide plate (902), described auxiliary clamp block (308) middle part has the first draw-in groove (802), is positioned at first clamping slot (801) of Upper vertical direction setting through the second clamp arm (704) of the first draw-in groove (802), the structure of described back-up block assembly (312) is: comprise pony sill (1202), described pony sill (1202) is extended with F type back-up block (1201), and described F type back-up block (1201) is arranged in groove (1001).

5. lock core dedicated full-automatic processing unit (plant) as claimed in claim 1, it is characterized in that: the structure of conveying transfer device (19) is: the conveyer belt (28) comprising conveying lock core (105), the output of described conveyer belt (28) is connected transfer device (27), lock core (105) is transferred in conveying device (26) by described transfer device (27), the structure of described transfer device (27) is: comprise spaced second foundation (211), described second foundation (211) is fixed with top board (203), (203) have notch to described top board, be positioned on top board (203) and be also fixed with the second promotion cylinder (201), described second output promoting cylinder (201) fixes the second contiguous block (202), described second contiguous block (202) is through notch, the bottom being positioned at top board (203) is provided with the second guide pillar (207), described second guide pillar (207) is fixed with the 3rd slide plate (205) by the 5th slide block (204), described second contiguous block (202) is fastening with the 3rd slide plate (205), second longitudinal cylinder (206) is fixed in the bottom being positioned at the 3rd slide plate (205), the output of described second longitudinal cylinder (206) fixes the first lateral cylinder (208), described first lateral cylinder (208) bottom mounting clamp arm seat (209), the upper installation the 3rd clamp arm (210) of the second projection (214) of gripper arm seat (209), also comprise the 4th column (212), the top of described 4th column (212) is fixed with the second clamping slot (213) coordinated with lock core (105) by locking member, and described 3rd clamp arm (210) docks with the second clamping slot (213), the structure of described conveying device (26) is: comprise spaced supporting seat (101), in described supporting seat (101), duplex chain wheel (102) is installed, between two duplex chain wheels (102), double strand chain is installed, on described double strand chain, interval is provided with multiple transfer block assembly (104), the structure of described transfer block assembly (104) is: comprise fixing the first foundation (109), described first foundation (109) top is provided with deck (107) by pulley (108), described deck (107) by bearing pin and double strand chain chain link fastening, be positioned at the top mounting-fixing base (106) of deck (107), described holder (106) is placed lock core (105), connected by support column (103) between adjacent two the first foundation (109).

6. lock core dedicated full-automatic processing unit (plant) as claimed in claim 5, it is characterized in that: the structure of described first foundation (109) is: described first foundation (109) becomes rectangular structure, be positioned at the first foundation (109) two ends, top and be formed with the second boss (111), described second boss (111) has the pulley installing hole (110) installing pulley (108), be positioned at the first foundation (109) crown center and be formed with the first projection (112).

7. lock core dedicated full-automatic processing unit (plant) as claimed in claim 5, it is characterized in that: the structure of described holder (106) is: comprise sole piece (113), described sole piece (113) middle part is provided with the circular arc frame (115) placing lock core (105), the support (114) that the outside being positioned at circular arc frame (115) has two groups of intervals to place.

8. lock core dedicated full-automatic processing unit (plant) as claimed in claim 5, it is characterized in that: the structure of described deck (107) is: the bottom surface (116) of deck (107) is extended with three parallel trapezoidal projections (117), described trapezoidal projection (117) has pin-and-hole (118).

9. lock core dedicated full-automatic processing unit (plant) as claimed in claim 1, it is characterized in that: the structure of longitudinal borehole mechanism (22) is: comprise the top cover (406) installed by the support of four pillars (407), described top cover (406) middle part has hole, the two ends of institute's perforate are separately installed with left support block (404) and right support block (401), the outer end of described right support block (401) is provided with cross slide way (412), described cross slide way (412) is fixed with the second connector (413) by the first slide block, described right support block (401) is also fixed with the second lateral cylinder (408), the output of described second lateral cylinder (408) abuts with the first slide block, described second connector (413) is fixed with the first connector (414), described first connector (414) arranges longitudinal rail (415), by the second slide block firm banking (410) on described longitudinal rail (415), most first connector (414) also installs the 3rd longitudinal cylinder (416), the output of described 3rd longitudinal cylinder (416) abuts with the second slide block, the upper installation the 3rd motor (409) of described base (410), the output of described 3rd motor (409) installs drill bit, described 3rd motor (409) is anchored on base (410) by the second cover plate (411), the sidewall of described left support block (404) also has chute, described chute installs the second compact heap (405) by the 3rd slide block, described second compact heap (405) is through the perforate of top cover (406) institute, the 4th lift cylinder (402) is installed by gripper shoe (403) in the top of described second compact heap (405), the output of described 4th lift cylinder (402) is connected with the second compact heap (405), the sidewall of described second compact heap (405) has installing hole (501), the two ends of described second compact heap (405) are respectively arranged with boss (502), and the bottom being positioned at the second compact heap (405) has the second draw-in groove (503) coordinated with lock core (105).

10. lock core dedicated full-automatic processing unit (plant) as claimed in claim 1, it is characterized in that: the structure of described clamp system (23) is: comprise underframe (606), the top of described underframe (606) is provided with slide rail (613), described slide rail (613) is fixed with installing rack (608) by slide block (609), described installing rack (608) is fixed with the second right angle block (607), described second right angle block (607) top is fixed with the second clamping cylinder (610), and the output of described second clamping cylinder (610) installs clamp (611); Described second right angle block (607) middle part is through there being the second lead (612); One end of described underframe (606) is provided with the second propelling movement cylinder (604) by the second fixed block (605), and the described second output pushing cylinder (604) abuts with installing rack (608).