CN104162787A - Full-automatic machining machine special for lock tongue - Google Patents

Abstract

The invention relates to a full-automatic machining machine special for a lock tongue. The full-automatic machining machine special for the lock tongue comprises a machine frame platform, wherein a segmenting device, perforating mechanisms, a chamfering mechanism and a beveling mechanism are connected to the machine frame platform in sequence, and the perforating mechanisms comprise the longitudinal perforating mechanism and the transverse perforating mechanism. The full-automatic machining machine special for the lock tongue is reasonable in structure and convenient to operate, a raw material of the lock tongue is divided to be of a segmented structure through the segmenting device, then punching is conducted on the raw material through the transverse perforating mechanism and the longitudinal perforating mechanism, chamfering is conducted through the chamfering mechanism after punching, and finally, the raw materials is divided into two parts through the beveling mechanism. According to the full-automatic machining machine special for the lock tongue, due to the fact that two oblique lock tongues are machined at a time, the working efficiency is improved to a great extent; stable conveying and accurate beveling of the material of the lock tongues are guaranteed, and the utilization rate of the material is increased.

Description

Dead bolt dedicated full-automatic processing machine

Technical field

The present invention relates to machining technique field, especially a kind of dead bolt dedicated full-automatic processing machine.

Background technology

Dead bolt is the element of lock, and lock is to rely on dead bolt that lock body and dead bolt casket are coupled together and bring into play anti-theft function, thereby rotational lock core can drive the flexible switch of controlling lock body of dead bolt.The shapes such as the dead bolt shape side of having tongue, latch bolt, hook tongue, the processing for latch bolt in prior art adopts manually processing mode one by one conventionally, and operation is loaded down with trivial details, inefficiency, dead bolt dimensional accuracy is difficult to guarantee, and stock utilization is low.

Summary of the invention

The applicant, for the shortcoming in above-mentioned existing production technology, provides a kind of dead bolt dedicated full-automatic processing machine rational in infrastructure, thereby realizes the full-automatic processing of dead bolt, greatly increases work efficiency.

The technical solution adopted in the present invention is as follows:

A kind of dead bolt dedicated full-automatic processing machine, comprises framework platform, on described framework platform, is connected and has sectioning, tapping mechanism, chamfer mechanism and the mechanism of cutting sth. askew successively, and described tapping mechanism comprises longitudinal tapping mechanism and lateral opening mechanism.

Further improvement as technique scheme:

The structure of described sectioning is: comprise shut-off mechanism, one side of described shut-off mechanism is provided with feed mechanism, the structure of described shut-off mechanism is: comprise the first base, on described the first base, fix the 3rd base plate, on described the 3rd base plate, the first riser is vertically installed, one side of described the first riser is provided with the first guide rail, on described the first guide rail, by the first slide block, the first slide plate is installed, on described the first slide plate, be fixed with the first reductor, the output of described the first reductor is installed cutter, described the first reductor drives by the 3rd motor, described the 3rd motor fixing with the 3rd motor mount on, the opposite side that is positioned at the first riser is also provided with guide rod, described guide rod is installed on the 3rd contiguous block, described the 3rd contiguous block and the first slide plate clamping, be positioned on the 3rd base plate and be also fixed with the 3rd lift cylinder, and the output of described the 3rd lift cylinder and the 3rd contiguous block are affixed, two the first gripper shoes are also installed on described the first riser, the structure of described feed mechanism is: comprise the second base, on described the second base, be arranged at intervals with two the second risers, on described the second riser, be fixed with the first mount pad, on described the first mount pad, be provided with the second guide rail, on described the second guide rail, by the second slide block, the second slide plate is installed, on described the second slide plate, be fixed with second and move cylinder and the second guide pad, on described the second guide pad, the second guide pillar is installed, described the second guide pillar head moves cylinder by the second contiguous block and second and is connected, the outer end that is positioned at the first mount pad is also fixed with the first cylinder, the output of described the first cylinder and the second slide plate butt, be positioned at the first guide pad is also installed on the first mount pad, on described the first guide pad, be separately installed with the first guide pillar and joint pin, the second cylinder is fixed in the bottom surface that is positioned at the first mount pad, the output of described the second cylinder is vertically fixed with the first contiguous block, the top of described the first contiguous block and joint pin clamping, described the first guide pad and the second guide pad are positioned at same linear position, the bottom that is positioned at the first mount pad is also provided with the 5th lift cylinder.

The structure of described the first guide pad is: described the first guide pad becomes rectangular structure, the top of described the first guide pad has notch, the middle part of described the first guide pad has the first dead bolt reach through hole through dead bolt, and a side that is positioned at the first guide pad has the first guide pillar installing hole and joint pin installing hole.

The structure of described the second guide pad is: shown in the second guide pad become rectangular structure, the top of described the second guide pad has square groove, described the second guide pad middle part has the second dead bolt reach through hole through dead bolt, and a side that is positioned at the second guide pad has the second guide pillar installing hole.

The structure of described tapping mechanism is: comprise longitudinal tapping mechanism, the output of described longitudinal tapping mechanism is connected lateral opening mechanism, the structure of described longitudinal tapping mechanism is: comprise the first base plate, described the first base plate vertical direction mounting plate, described installing plate top-side is provided with cross slide way and lateral cylinder, the 4th contiguous block along its slip is installed on described cross slide way, the output of described lateral cylinder and the 4th contiguous block are affixed, on described the 4th contiguous block, be fixed with the 5th contiguous block, described the 5th contiguous block is provided with longitudinal rail, on described longitudinal rail, fix the first motor by the second mount pad, longitudinally output and second mount pad of cylinder are affixed, the first mounting cover is passed through by the first motor locking in the top of described the second mount pad, shown in the first motor output install drill bit, also comprise the first column, one side of described the first column is fixed with the first lift cylinder, the output of described the first lift cylinder is installed block by the first holder, the another side that is positioned at the first column is fixed with the second lift cylinder, and the output of described the second lift cylinder is fixed the first lead, described the first column top is provided with clamping and positioning piece, being positioned at the first column outer end is also separately installed with conveying guide pillar and clamps guide pillar, the structure of described lateral opening mechanism is: be positioned at same linear position and be staggeredly equipped with multiple conveyers, adjacent two conveyer places are provided with perforating mechanism, the structure of described perforating mechanism is: comprise the second base plate, on described the second base plate, be fixed with the 5th riser, on described the 5th riser, be provided with the 3rd guide rail, on described the 3rd guide rail, by the 3rd slide block, the 3rd slide plate is installed, on described the 3rd slide plate, pass through the 3rd floor installation the second motor, described the second motor is anchored on the 3rd base by the second mounting cover, the output of described the second motor is installed drill bit, also comprise promotion cylinder, the output of described promotion cylinder and the 3rd slide plate are fastening, also comprise the second column, the top of described the second column is provided with fixed block, with fixed block interval, the 3rd guide pad is installed, the outside that is positioned at the second column is separately installed with the vertical conveying guide rod in locus and clamps guide rod, the mounting structure of described conveying guide rod is: comprise conveying vertical rod, the side of described conveying vertical rod is fixed with the second conveying cylinder, described second carries the fastening conveying guide rod of output of cylinder, described conveying guide rod and dead bolt side butt, the mounting structure of described clamping guide rod is: comprise clamping vertical rod, the side of described clamping vertical rod is fixed with the second clamping cylinder, and the output of described the second clamping cylinder is installed and clamped guide rod by the second clamp, and described clamping guide rod docks with fixed block.

The mounting structure of described conveying guide pillar is: comprise the 3rd riser, described the 3rd riser side is fixed with the first conveying cylinder, described first carries the output of cylinder to be fastened with transfer block, in described transfer block, installs and carries guide pillar, and described conveying guide pillar docks with block.

The mounting structure of described clamping guide pillar is: comprise the 4th riser, the side of described the 4th riser is fixed with the first clamping cylinder, the output of described the first clamping cylinder is fastened with the first clamp, on described the first clamp, installs and clamps guide pillar, and described clamping guide pillar docks with dead bolt.

The structure of described chamfer mechanism is: comprise the clamp that clamps dead bolt, the structure of described clamp is: comprise underframe, the first telescopic cylinder is installed in the bottom of described underframe, lower fixed block is installed at the top of described underframe, described lower fixed block top is provided with boss, and have the second draw-in groove in the both sides of lower fixed block, the cooperation of described lower fixed block top is provided with fixed block, fixed piece bottom has the groove coordinating with boss, and the both sides that are positioned at fixed block have the first draw-in groove, after coordinating with the second draw-in groove, described the first draw-in groove becomes to connect draw-in groove, upper fixed block coordinates after clamping with lower fixed block, and its middle part forms the through hole through dead bolt, the both sides that are positioned at clamp are provided with facing attachment and the first guiding mechanism relatively, and the blade of facing attachment snaps in described perforation draw-in groove, described facing attachment adopts the architectural feature identical with shut-off mechanism, the structure of described the first guiding mechanism is: comprise spaced the second holder and support, guide cylinder is installed on described the second holder top, the output of described guide cylinder connects guide pillar, described support top is fixed with the 4th guide pad, described guide pillar is through the 4th guide pad, and the head of described guide pillar docks with dead bolt.

The structure of mechanism of cutting sth. askew is: comprise dead bolt clamp mechanism, one side of described dead bolt clamp mechanism is provided with cutting mechanism, the output of described cutting mechanism and dead bolt clamp mechanism are obliquely installed, the opposite side of described dead bolt clamp mechanism is provided with the second guiding mechanism, and the front end of described dead bolt clamp mechanism is installed conveying mechanism; The structure of described dead bolt clamp mechanism is: comprise spaced bracing frame one, the top of support frame as described above one is fixed with the 4th base plate, on described the 4th base plate, be fixed with dead bolt clamp, described dead bolt clamp becomes rectangular structure, be positioned at dead bolt clamp middle part and have the reach through hole through dead bolt, movable block is installed in described reach through hole bottom, and described dead bolt clamp upper end has inclined cutter groove; The 4th lift cylinder is installed in the bottom that is positioned at the 4th base plate, and output and the movable block of described the 4th lift cylinder are affixed; On bracing frame one madial wall, be fixed with discharging cylinder, the output of described discharging cylinder is connected and fixed plate, and guide rod one is installed on described fixed head, and described guide rod one head docks with dead bolt; The structure of described cutting mechanism is: comprise the 4th base, on described the 4th base, the second gripper shoe is vertically installed, in described the second gripper shoe, be provided with the 4th guide rail, on described the 4th guide rail, by slide block, flat board is installed, on described flat board, be fixed with the second reductor, the blade of cutting sth. askew is installed on the output revolving shaft of described the second reductor, described in the blade of cutting sth. askew corresponding with inclined cutter groove; Also comprise the 6th riser, be fixed with the motor one that drives the second reductor on described the 6th riser, be positioned on the 4th base the second telescopic cylinder is also installed, the output of described the second telescopic cylinder is with dull and stereotyped affixed; The structure of described conveying mechanism is: comprise the bracing frame two of vertical installation, be vertically installed with motor two with bracing frame two, the top of support frame as described above two is arranged at intervals with support plate, and described support plate two ends are provided with roller, between two rollers, conveyer belt is installed; The structure of described the second guiding mechanism is: comprise spaced the 3rd column and the second lead, described the 3rd column one side connects the piston rod of thruster cylinder, described piston rod is connected with guide rod two through the 3rd column, the 5th guide pad is installed on described the second lead, and described guide rod two docks with workpiece through the 5th guide pad middle part.

45 ° of directions of described dead bolt clamp upper end edge have inclined cutter groove.

Beneficial effect of the present invention is as follows:

The present invention is rational in infrastructure, easy to operate, first by sectioning, dead bolt raw material are divided into structure piecemeal, then by lateral opening mechanism and longitudinal tapping mechanism, it is punched respectively, after punching, carry out chamfer mechanism and carry out chamfering, finally break it into two by the mechanism of cutting sth. askew, two oblique dead bolts of disposable processing, have improved operating efficiency largely; Ensure the smooth transport of dead bolt material and accurately cut sth. askew, having improved stock utilization.

Brief description of the drawings

Fig. 1 is existing.

Fig. 2 is of the present invention.

Fig. 3 is the structural representation of sectioning of the present invention.

Fig. 4 is the structural representation of shut-off mechanism of the present invention.

Fig. 5 is the structural representation of feed mechanism of the present invention.

Fig. 6 is the structural representation of the present invention's the first guide pad.

Fig. 7 is the structural representation of the present invention's the second guide pad.

Fig. 8 is the structural representation of tapping mechanism of the present invention.

Fig. 9 is the structural representation of the longitudinal tapping mechanism of the present invention.

Figure 10 is the structural representation at another visual angle of the longitudinal tapping mechanism of the present invention.

Figure 11 is the structural representation of lateral opening of the present invention mechanism.

Figure 12 is the structural representation of perforating mechanism of the present invention.

Figure 13 is the structural representation of chamfer mechanism of the present invention.

Figure 14 is the structural representation at another visual angle of chamfer mechanism of the present invention.

Figure 15 is the structural representation of facing attachment of the present invention.

Figure 16 is the structural representation of clamp of the present invention.

Figure 17 is the explosive view of fixed block of the present invention.

Figure 18 is the structural representation of the present invention's the first guiding mechanism.

Figure 19 is the cut sth. askew structural representation of mechanism of the present invention.

Figure 20 is the stereogram of conveying mechanism of the present invention.

Figure 21 is the stereogram of the present invention's the second guiding mechanism.

Figure 22 is the stereogram of dead bolt clamp mechanism of the present invention.

Figure 23 is the stereogram of dead bolt clamp of the present invention.

Figure 24 is the stereogram of cutting mechanism of the present invention.

Wherein: 30, shut-off mechanism; 31, feed mechanism; 32, framework platform; 33, the mechanism of cutting sth. askew; 34, chamfer mechanism; 35, tapping mechanism; 36, sectioning; 101, the 3rd motor mount; 102, the 3rd motor; 103, the first guide rail; 104, the first riser; 105, the first slide block; 106, the first slide plate; 107, the first reductor; 108, cutter; 109, the first base; 110, the 3rd base plate; 111, the 3rd lift cylinder; 112, the first gripper shoe; 113, the 3rd contiguous block; 114, guide rod; 201, the first guide pad; 202, the first guide pillar; 203, the second guide pad; 204, the second guide pillar; 205, joint pin; 206, the first contiguous block; 207, the second contiguous block; 208, second move cylinder; 209, the second slide plate; 210, the second slide block; 211, the second guide rail; 212, the second riser; 213, the first cylinder; 214, the second cylinder; 215, the second base; 216, the first mount pad; 217, the 5th lift cylinder; 218, notch; 219, the first dead bolt reach through hole; 220, the first guide pillar installing hole; 221, joint pin installing hole; 222, square groove; 223, the second guide pillar installing hole; 224, the second dead bolt reach through hole; 1, longitudinal cylinder; 2, longitudinal rail; 3, the 5th contiguous block; 4, the 4th contiguous block; 5, cross slide way; 6, lateral cylinder; 7, installing plate; 8, the first base plate; 9, the first column; 10, the first lift cylinder; 11, the first holder; 12, block; 13, carry guide pillar; 14, transfer block; 15, the 3rd riser; 16, first carry cylinder; 17, the first mounting cover; 18, the second mount pad; 19, the first motor; 20, clamping and positioning piece; 21, the first lead; 22, the second lift cylinder; 23, clamp guide pillar; 24, the first clamp; 25, the first clamping cylinder; 26, the 4th riser; 27, longitudinal tapping mechanism; 28, perforating mechanism; 29, conveyer; 303, the 5th riser; 304, promote cylinder; 305, the 3rd guide rail; 306, the 3rd slide block; 307, the 3rd slide plate; 308, the 3rd base; 309, the second mounting cover; 310, the second motor; 311, the second base plate; 312, fixed block; 313, the second column; 314, the 3rd guide pad; 315, clamp guide rod; 316, the second clamp; 317, the second clamping cylinder; 318, clamp vertical rod; 319, second carry cylinder; 330, carry guide rod; 321, carry vertical rod; 401, facing attachment; 402, upper fixed block; 403, lower fixed block; 404, underframe; 405, the first telescopic cylinder; 406, the first guiding mechanism; 407, the first draw-in groove; 408, groove; 409, boss; 410, the second draw-in groove; 411, guide cylinder; 412, the second holder; 413, guide pillar; 414, support; 415, the 4th guide pad; 115, blade; 501, conveying mechanism; 5001, bracing frame two; 5002, support plate; 5003, motor two; 5004, roller; 502, the second guiding mechanism; 601, piston rod; 602, the 5th guide pad; 603, guide rod two; 604, the 3rd column; 605, the second lead; 503, dead bolt clamp mechanism; 701, dead bolt clamp; 702, movable block; 703, the 4th base plate; 704, discharging cylinder; 705, the 4th lift cylinder; 706, bracing frame one; 707, fixed head; 708, guide rod one; 709, inclined cutter groove; 504, cutting mechanism; 801, the blade of cutting sth. askew; 802, the second reductor; 803, motor one; 804, the 4th base; 805, the second telescopic cylinder; 806, the 4th guide rail; 807, flat board; 808, rotating shaft; 809, the 6th riser; 810, the second gripper shoe.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As depicted in figs. 1 and 2, the dead bolt dedicated full-automatic processing machine of the present embodiment, comprise framework platform 32, on framework platform 32, be connected and have sectioning 36, tapping mechanism 35, chamfer mechanism 34 and the mechanism 33 of cutting sth. askew successively, tapping mechanism 35 comprises longitudinal tapping mechanism 27 and lateral opening mechanism.

As shown in Figure 3, the structure of sectioning 36 is: comprise shut-off mechanism 30, one side of shut-off mechanism 30 is provided with feed mechanism 31, as shown in Figure 4, the structure of shut-off mechanism 30 is: comprise the first base 109, on the first base 109, fix the 3rd base plate 110, the first riser 104 is vertically installed on the 3rd base plate 110, one side of the first riser 104 is provided with the first guide rail 103, on the first guide rail 103, by the first slide block 105, the first slide plate 106 is installed, on the first slide plate 106, be fixed with the first reductor 107, the output of the first reductor 107 is installed cutter 108, the first reductor 107 drives by the 3rd motor 102, the 3rd motor 102 fixing with the 3rd motor mount 101 on, the opposite side that is positioned at the first riser 104 is also provided with guide rod 114, guide rod 114 is installed on the 3rd contiguous block 113, the 3rd contiguous block 113 and the first slide plate 106 clampings, be positioned at that on the 3rd base plate 110, to be also fixed with output and the 3rd contiguous block 113 of the 3rd lift cylinder 111, the three lift cylinders 111 affixed, two the first gripper shoes 112 are also installed on the first riser 104,

As shown in Fig. 5, Fig. 6 and Fig. 7, the structure of feed mechanism 31 is: comprise the second base 215, on the second base 215, be arranged at intervals with two the second risers 212, on the second riser 212, be fixed with the first mount pad 216, on the first mount pad 216, be provided with the second guide rail 211, on the second guide rail 211, by the second slide block 210, the second slide plate 209 is installed, on the second slide plate 209, be fixed with second and move cylinder 208 and the second guide pad 203, the second guide pillar 204, the second guide pillar 204 heads are installed on the second guide pad 203 to be moved cylinder 208 by the second contiguous block 207 and second and is connected; The outer end that is positioned at the first mount pad 216 is also fixed with output and second slide plate 209 butts of the first cylinder 213, the first cylinders 213; Be positioned at the first guide pad 201 is also installed on the first mount pad 216, on the first guide pad 201, be separately installed with the first guide pillar 202 and joint pin 205, the second cylinder 214 is fixed in the bottom surface that is positioned at the first mount pad 216, the output of the second cylinder 214 is vertically fixed with top and joint pin 205 clampings of the first contiguous block 206, the first contiguous blocks 206; The first guide pad 201 and the second guide pad 203 are positioned at same linear position; The bottom that is positioned at the first mount pad 216 is also provided with the 5th lift cylinder 217.

The structure of the first guide pad 201 is: the first 201 one-tenth of guide pads rectangular structure, the top of the first guide pad 201 has notch 218, the middle part of the first guide pad 201 has the first dead bolt reach through hole 219 through dead bolt, and a side that is positioned at the first guide pad 201 has the first guide pillar installing hole 220 and joint pin installing hole 221.

The structure of the second guide pad 203 is: shown in 203 one-tenth rectangular structure of the second guide pad, the top of the second guide pad 203 has square groove 222, the second guide pad 203 middle parts have the second dead bolt reach through hole 224 through dead bolt, and a side that is positioned at the second guide pad 203 has the second guide pillar installing hole 223.

As shown in Figure 8, the structure of tapping mechanism 35 is: comprise longitudinal tapping mechanism 27, longitudinally the output of tapping mechanism 27 is connected lateral opening mechanism, as shown in Figure 9 and Figure 10, longitudinally the structure of tapping mechanism 27 is: comprise the first base plate 8, the first base plate 8 vertical direction mounting plates 7, installing plate 7 top-side are provided with cross slide way 5 and lateral cylinder 6, the 4th contiguous block 4 along its slip is installed on cross slide way 5, the output of lateral cylinder 6 and the 4th contiguous block 4 are affixed, on the 4th contiguous block 4, be fixed with the 5th contiguous block 3, the 5th contiguous block 3 is provided with longitudinal rail 2, on longitudinal rail 2, fix the first motor 19 by the second mount pad 18, longitudinally output and second mount pad 18 of cylinder 1 are affixed, lock the first motor 19 by the first mounting cover 17 at the top of the second mount pad 18, shown in the first motor 19 output install drill bit, also comprise the first column 9, one side of the first column 9 is fixed with the first lift cylinder 10, the output of the first lift cylinder 10 is installed block 12 by the first holder 11, the another side that is positioned at the first column 9 is fixed with the output of the second lift cylinder 22, the second lift cylinders 22 and fixes the first lead 21, the first column 9 tops are provided with clamping and positioning piece 20, being positioned at the first column 9 outer ends is also separately installed with conveying guide pillar 13 and clamps guide pillar 23,

As shown in Figure 11 and Figure 12, the structure of lateral opening mechanism is: be positioned at same linear position and be staggeredly equipped with multiple conveyers 29, adjacent two conveyer 29 places are provided with perforating mechanism 28, the structure of perforating mechanism 28 is: comprise the second base plate 311, on the second base plate 311, be fixed with the 5th riser 303, on the 5th riser 303, be provided with the 3rd guide rail 305, on the 3rd guide rail 305, by the 3rd slide block 306, the 3rd slide plate 307 is installed, on the 3rd slide plate 307, by the 3rd base 308, the second motor 310 is installed, the second motor 310 is anchored on the 3rd base 308 by the second mounting cover 309, the output of the second motor 310 is installed drill bit, also comprise and promote cylinder 304, the output and the 3rd slide plate 307 that promote cylinder 304 are fastening, the top that also comprises the second column 313, the second columns 313 is provided with fixed block 312, with fixed block 312 intervals, the 3rd guide pad 314 is installed, the outside that is positioned at the second column 313 is separately installed with the vertical conveying guide rod in locus 330 and clamps guide rod 315, carry the mounting structure of guide rod 330 to be: to comprise and carry vertical rod 321, carry the side of vertical rod 321 to be fixed with the second conveying cylinder 319, second carries the fastening conveying guide rod 330 of output of cylinder 319, carries guide rod 330 and dead bolt side butt, the mounting structure that clamps guide rod 315 is: comprise and clamp vertical rod 318, the side that clamps vertical rod 318 is fixed with the second clamping cylinder 317, the output of the second clamping cylinder 317 is installed and is clamped guide rod 315 by the second clamp 316, clamps guide rod 315 and docks with fixed block 312.

Carry the mounting structure of guide pillar 13 to be: to comprise the 3rd riser 15, the 3rd riser 15 sides are fixed with the first conveying cylinder 16, first carries the output of cylinder 16 to be fastened with transfer block 14, installs and carry guide pillar 13 in transfer block 14, carries guide pillar 13 to dock with block 12.

The mounting structure that clamps guide pillar 23 is: comprise the 4th riser 26, the side of the 4th riser 26 is fixed with the first clamping cylinder 25, the output of the first clamping cylinder 25 is fastened with on the first clamp 24, the first clamps 24 and installs and clamp guide pillar 23, clamps guide pillar 23 and docks with dead bolt.

As Figure 13, Figure 14, Figure 15, Figure 16, shown in Figure 17 and Figure 18, the structure of chamfer mechanism 34 is: comprise the clamp that clamps dead bolt, the structure of clamp is: comprise underframe 404, the first telescopic cylinder 405 is installed in the bottom of underframe 404, lower fixed block 403 is installed at the top of underframe 404, lower fixed block 403 tops are provided with boss 409, and have the second draw-in groove 410 in the both sides of lower fixed block 403, lower fixed block 403 tops cooperations are provided with fixed block 402, upper fixed block 402 bottoms have the groove 408 coordinating with boss 409, and the both sides that are positioned at fixed block 402 have the first draw-in groove 407, the first draw-in groove 407 becomes to connect draw-in groove after coordinating with the second draw-in groove 410, upper fixed block 402 coordinates after clamping with lower fixed block 403, and its middle part forms the through hole through dead bolt, the both sides that are positioned at clamp are provided with facing attachment 401 and the first guiding mechanism 406 relatively, and the blade 115 of facing attachment 401 snaps in and connects in draw-in groove, facing attachment 401 adopts the architectural feature identical with shut-off mechanism 30, the structure of the first guiding mechanism 406 is: comprise spaced the second holder 412 and support 414, guide cylinder 411 is installed on the second holder 412 tops, the output of guide cylinder 411 connects guide pillar 413, support 414 tops are fixed with the 4th guide pad 415, guide pillar 413 is through the 4th guide pad 415, and the head of guide pillar 413 docks with dead bolt.

As shown in Figure 19, Figure 20, Figure 21, Figure 22, Figure 23 and Figure 24, the structure of mechanism 33 of cutting sth. askew is: comprise dead bolt clamp mechanism 503, one side of dead bolt clamp mechanism 503 is provided with cutting mechanism 504, the output of cutting mechanism 504 and dead bolt clamp mechanism 503 are obliquely installed, the opposite side of dead bolt clamp mechanism 503 is provided with the second guiding mechanism 502, and the front end of dead bolt clamp mechanism 503 is installed conveying mechanism 501; The structure of dead bolt clamp mechanism 503 is: comprise spaced bracing frame 1, the top of bracing frame 1 is fixed with the 4th base plate 703, on the 4th base plate 703, be fixed with dead bolt clamp 701,701 one-tenth rectangular structure of dead bolt clamp, be positioned at dead bolt clamp 701 middle parts and have the reach through hole through dead bolt, movable block 702 is installed in reach through hole bottom, and dead bolt clamp 701 upper ends have inclined cutter groove 709; It is affixed that output and the movable block 702 of the 4th lift cylinder 705, the four lift cylinders 705 installed in the bottom that is positioned at the 4th base plate 703; On bracing frame one 706 madial walls, be fixed with discharging cylinder 704, the output of discharging cylinder 704 is connected and fixed plate 707, and guide rod 1 is installed on fixed head 707, and guide rod one 708 heads dock with dead bolt; The structure of cutting mechanism 504 is: comprise the 4th base 804, the second gripper shoe 810 is vertically installed on the 4th base 804, in the second gripper shoe 810, be provided with the 4th guide rail 806, on the 4th guide rail 806, be provided with dull and stereotyped 807 by slide block, on dull and stereotyped 807, be fixed with the second reductor 802, the blade 801 of cutting sth. askew is installed on the output revolving shaft 808 of the second reductor 802, and the blade 801 of cutting sth. askew is corresponding with inclined cutter groove 709; Also comprise and on the 6th riser 809, the six risers 809, be fixed with the motor 1 that drives the second reductor 802, be positioned at output that the second telescopic cylinder 805, the second telescopic cylinders 805 are also installed on the 4th base 804 with dull and stereotyped 807 affixed; The structure of conveying mechanism 501 is: the bracing frame 2 5001 that comprises vertical installation, be vertically installed with motor 2 5003 with bracing frame 2 5001, the top of bracing frame 2 5001 is arranged at intervals with support plate 5002, and support plate 5002 two ends are provided with between 5004, two rollers 5004 of roller conveyer belt is installed; The structure of the second guiding mechanism 502 is: comprise spaced the 3rd column 604 and the second lead 605, the 3rd column 604 1 sides connect the piston rod 601 of thruster cylinder, piston rod 601 is connected with guide rod 2 603 through the 3rd column 604, the 5th guide pad 602 is installed on the second lead 605, and guide rod 2 603 docks with workpiece through the 5th guide pad 602 middle parts.

45 ° of directions of dead bolt clamp 701 upper end edge have inclined cutter groove 709.

In actual use procedure, first dead bolt raw material are divided into piecemeal by sectioning 36, are then punched respectively by longitudinal tapping mechanism 27 and lateral opening mechanism, and then chamfering, finally cuts off output by the mechanism 33 of cutting sth. askew.

Its concrete course of action is as follows: first, in the reach through hole that dead bolt raw material are opened through the second guide pad 203 and the first guide pad 201 by conveying device order, respectively at the first cylinder 213, the second cylinder 214 and second moves under the effect of cylinder 208, promote dead bolt raw material progressively advance (all processes are by the Stroke Control of cylinder), in the time reaching Len req, shut-off mechanism 30 is worked, first carry out tool setting, under the effect of the 3rd lift cylinder 111, adjust cutter 108 positions, then dead bolt raw material are cut off one by one, after cut-out, be delivered in longitudinal tapping mechanism 27 by conveying device, start the second lift cylinder 22, under the effect of the first lead 21, dead bolt is lifted, then drive and carry guide pillar 13 to move, under the effect of the first conveying cylinder 16, the top of carrying guide pillar 13 to promote dead bolt to the first column 9, meanwhile, the first lift cylinder 10 moves, and block 12 is lifted, dead bolt is enclosed in clamping and positioning piece 20, block 12 and carries between guide pillar 13 in fact, and three of dead bolt is faced and clamped, now by lateral cylinder 6 and the longitudinally effect of cylinder 1, adjust drill bit position, can start perforate.Longitudinally after perforate, when dead bolt is delivered to the top of the second column 313 by conveyer 29, now first set perforating mechanism 28 is worked, first the second clamping cylinder 317 is worked, controlling clamping guide rod 315 stretches out, make itself and dead bolt butt, now dead bolt is clamped at and clamps between guide rod 315 and fixed block 312, drive the second motor 310, start dead bolt to punch, when punching, drill bit passes fixed block 312 middle parts to the required tapping of dead bolt, after punching finishes, the second clamping cylinder 317 returns, now, second carries cylinder 319 to work, by carrying guide rod 330 that dead bolt is pushed on next conveyer belt, it is delivered in the second cover perforating mechanism 28 punches.Completed the complete punching work of dead bolt.

Dead bolt is delivered to upper fixed block 402 to be coordinated in the through hole of formation with lower fixed block 403, the first telescopic cylinder 405 can regulate its height and position, then start the chamfer mechanism 34 of both sides simultaneously, after tool setting, blade 115 is snapped in and connect in draw-in groove, then the first guiding mechanism 406 is worked, under the effect of guide cylinder 411, guide pillar 413 promotes dead bolt and advances, and the mating reaction of blade 115 and guide pillar 413 completes the work of both sides, dead bolt top chamfering.Finally, conveying mechanism 501 moves, and starter motor 2 5003 pushes to dead bolt workpiece (not shown in FIG.) to be processed before dead bolt clamp mechanism 503 by the conveyer belt on roller 5004 (not shown in FIG.); Then the second guiding mechanism 502 moves, start thruster cylinder (not shown in FIG.), piston rod 601 with dynamic air cylinder output makes guide rod 2 603 along the 5th guide pad 602, dead bolt workpiece to be processed be pushed in the reach through hole of dead bolt clamp 701, and regulates its place height by the 4th lift cylinder 705; Finally, determine by the movement of the 4th guide rail 806 blade 801 desired locations of cutting sth. askew according to dead bolt workpiece size, the action of cutting sth. askew of one 803 pairs of dead bolt workpiece of drive motors, machines and starts discharging cylinder 704 and carry out discharging, starts the processing of cutting sth. askew of next dead bolt workpiece.

More than describing is explanation of the invention, is not the restriction to invention, and limited range of the present invention, referring to claim, within protection scope of the present invention, can be done any type of amendment.

Claims (10)

1. a dead bolt dedicated full-automatic processing machine, it is characterized in that: comprise framework platform (32), on described framework platform (32), be connected and have sectioning (36), tapping mechanism (35), chamfer mechanism (34) and the mechanism of cutting sth. askew (33) successively, described tapping mechanism (35) comprises longitudinal tapping mechanism (27) and lateral opening mechanism.

2. dead bolt dedicated full-automatic processing machine as claimed in claim 1, it is characterized in that: the structure of described sectioning (36) is: comprise shut-off mechanism (30), one side of described shut-off mechanism (30) is provided with feed mechanism (31), the structure of described shut-off mechanism (30) is: comprise the first base (109), on described the first base (109), fix the 3rd base plate (110), on described the 3rd base plate (110), the first riser (104) is vertically installed, one side of described the first riser (104) is provided with the first guide rail (103), described the first guide rail (103) is upper installs the first slide plate (106) by the first slide block (105), on described the first slide plate (106), be fixed with the first reductor (107), the output of described the first reductor (107) is installed cutter (108), described the first reductor (107) drives by the 3rd motor (102), described the 3rd motor (102) fixing with the 3rd motor mount (101) on, the opposite side that is positioned at the first riser (104) is also provided with guide rod (114), described guide rod (114) is installed on the 3rd contiguous block (113), described the 3rd contiguous block (113) and the first slide plate (106) clamping, be positioned on the 3rd base plate (110) and be also fixed with the 3rd lift cylinder (111), the output of described the 3rd lift cylinder (111) and the 3rd contiguous block (113) are affixed, two the first gripper shoes (112) are also installed on described the first riser (104), the structure of described feed mechanism (31) is: comprise the second base (215), on described the second base (215), be arranged at intervals with two the second risers (212), on described the second riser (212), be fixed with the first mount pad (216), on described the first mount pad (216), be provided with the second guide rail (211), described the second guide rail (211) is upper installs the second slide plate (209) by the second slide block (210), on described the second slide plate (209), be fixed with second and move cylinder (208) and the second guide pad (203), upper the second guide pillar (204) of installing of described the second guide pad (203), described the second guide pillar (204) head moves cylinder (208) by the second contiguous block (207) and second and is connected, the outer end that is positioned at the first mount pad (216) is also fixed with the first cylinder (213), the output of described the first cylinder (213) and the second slide plate (209) butt, be positioned at the first guide pad (201) is also installed on the first mount pad (216), on described the first guide pad (201), be separately installed with the first guide pillar (202) and joint pin (205), the second cylinder (214) is fixed in the bottom surface that is positioned at the first mount pad (216), the output of described the second cylinder (214) is vertically fixed with the first contiguous block (206), the top of described the first contiguous block (206) and joint pin (205) clamping, described the first guide pad (201) and the second guide pad (203) are positioned at same linear position, the bottom that is positioned at the first mount pad (216) is also provided with the 5th lift cylinder (217).

3. dead bolt dedicated full-automatic processing machine as claimed in claim 2, it is characterized in that: the structure of described the first guide pad (201) is: described the first guide pad (201) becomes rectangular structure, the top of described the first guide pad (201) has notch (218), the middle part of described the first guide pad (201) has the first dead bolt reach through hole (219) through dead bolt, and a side that is positioned at the first guide pad (201) has the first guide pillar installing hole (220) and joint pin installing hole (221).

4. dead bolt dedicated full-automatic processing machine as claimed in claim 2, it is characterized in that: the structure of described the second guide pad (203) is: shown in the second guide pad (203) become rectangular structure, the top of described the second guide pad (203) has square groove (222), described the second guide pad (203) middle part has the second dead bolt reach through hole (224) through dead bolt, and a side that is positioned at the second guide pad (203) has the second guide pillar installing hole (223).

5. dead bolt dedicated full-automatic processing machine as claimed in claim 1, is characterized in that: the structure of described tapping mechanism (35) is: comprise longitudinal tapping mechanism (27), the output of described longitudinal tapping mechanism (27) is connected lateral opening mechanism, the structure of described longitudinal tapping mechanism (27) is: comprise the first base plate (8), described the first base plate (8) vertical direction mounting plate (7), described installing plate (7) top-side is provided with cross slide way (5) and lateral cylinder (6), upper the 4th contiguous block (4) of installing along its slip of described cross slide way (5), the output of described lateral cylinder (6) and the 4th contiguous block (4) are affixed, on described the 4th contiguous block (4), be fixed with the 5th contiguous block (3), described the 5th contiguous block (3) is provided with longitudinal rail (2), described longitudinal rail (2) is upper fixes the first motor (19) by the second mount pad (18), longitudinally output and second mount pad (18) of cylinder (1) are affixed, lock the first motor (19) by the first mounting cover (17) at the top of described the second mount pad (18), shown in the first motor (19) output install drill bit, also comprise the first column (9), one side of described the first column (9) is fixed with the first lift cylinder (10), the output of described the first lift cylinder (10) is installed block (12) by the first holder (11), the another side that is positioned at the first column (9) is fixed with the second lift cylinder (22), and the output of described the second lift cylinder (22) is fixed the first lead (21), described the first column (9) top is provided with clamping and positioning piece (20), being positioned at the first column (9) outer end is also separately installed with conveying guide pillar (13) and clamps guide pillar (23), the structure of described lateral opening mechanism is: be positioned at same linear position and be staggeredly equipped with multiple conveyers (29), adjacent two conveyers (29) locate to be provided with perforating mechanism (28), the structure of described perforating mechanism (28) is: comprise the second base plate (311), on described the second base plate (311), be fixed with the 5th riser (303), on described the 5th riser (303), be provided with the 3rd guide rail (305), described the 3rd guide rail (305) is upper installs the 3rd slide plate (307) by the 3rd slide block (306), described the 3rd slide plate (307) is upper installs the second motor (310) by the 3rd base (308), described the second motor (310) is anchored on the 3rd base (308) by the second mounting cover (309), the output of described the second motor (310) is installed drill bit, also comprise and promote cylinder (304), the output of described promotion cylinder (304) and the 3rd slide plate (307) are fastening, also comprise the second column (313), the top of described the second column (313) is provided with fixed block (312), with fixed block (312) interval, the 3rd guide pad (314) is installed, the outside that is positioned at the second column (313) is separately installed with the vertical conveying guide rod (330) in locus and clamps guide rod (315), the mounting structure of described conveying guide rod (330) is: comprise and carry vertical rod (321), the side of described conveying vertical rod (321) is fixed with the second conveying cylinder (319), described second carries the fastening conveying guide rod of output (330) of cylinder (319), described conveying guide rod (330) and dead bolt side butt, the mounting structure of described clamping guide rod (315) is: comprise and clamp vertical rod (318), the side of described clamping vertical rod (318) is fixed with the second clamping cylinder (317), the output of described the second clamping cylinder (317) is installed and is clamped guide rod (315) by the second clamp (316), and described clamping guide rod (315) docks with fixed block (312).

6. dead bolt dedicated full-automatic processing machine as claimed in claim 5, it is characterized in that: the mounting structure of described conveying guide pillar (13) is: comprise the 3rd riser (15), described the 3rd riser (15) side is fixed with the first conveying cylinder (16), described first carries the output of cylinder (16) to be fastened with transfer block (14), the upper installation of described transfer block (14) carried guide pillar (13), and described conveying guide pillar (13) docks with block (12).

7. dead bolt dedicated full-automatic processing machine as claimed in claim 5, it is characterized in that: the mounting structure of described clamping guide pillar (23) is: comprise the 4th riser (26), the side of described the 4th riser (26) is fixed with the first clamping cylinder (25), the output of described the first clamping cylinder (25) is fastened with the first clamp (24), the upper installation of described the first clamp (24) clamps guide pillar (23), and described clamping guide pillar (23) docks with dead bolt.

8. dead bolt dedicated full-automatic processing machine as claimed in claim 1, it is characterized in that: the structure of described chamfer mechanism (34) is: comprise the clamp that clamps dead bolt, the structure of described clamp is: comprise underframe (404), the first telescopic cylinder (405) is installed in the bottom of described underframe (404), lower fixed block (403) is installed at the top of described underframe (404), described lower fixed block (403) top is provided with boss (409), and have the second draw-in groove (410) in the both sides of lower fixed block (403), the cooperation of described lower fixed block (403) top is provided with fixed block (402), fixed piece (402) bottom has the groove (408) coordinating with boss (409), and the both sides that are positioned at fixed block (402) have the first draw-in groove (407), after coordinating with the second draw-in groove (410), described the first draw-in groove (407) becomes to connect draw-in groove, upper fixed block (402) coordinates after clamping with lower fixed block (403), and its middle part forms the through hole through dead bolt, the both sides that are positioned at clamp are provided with facing attachment (401) and the first guiding mechanism (406) relatively, and the blade (115) of facing attachment (401) snaps in described perforation draw-in groove, described facing attachment (401) adopts the architectural feature identical with shut-off mechanism (30), the structure of described the first guiding mechanism (406) is: comprise spaced the second holder (412) and support (414), guide cylinder (411) is installed on described the second holder (412) top, the output of described guide cylinder (411) connects guide pillar (413), described support (414) top is fixed with the 4th guide pad (415), described guide pillar (413) is through the 4th guide pad (415), and the head of described guide pillar (413) docks with dead bolt.

9. dead bolt dedicated full-automatic processing machine as claimed in claim 1, it is characterized in that: described in the cut sth. askew structure of mechanism (33) be: comprise dead bolt clamp mechanism (503), one side of described dead bolt clamp mechanism (503) is provided with cutting mechanism (504), the output of described cutting mechanism (504) and dead bolt clamp mechanism (503) are obliquely installed, the opposite side of described dead bolt clamp mechanism (503) is provided with the second guiding mechanism (502), and the front end of described dead bolt clamp mechanism (503) is installed conveying mechanism (501); The structure of described dead bolt clamp mechanism (503) is: comprise spaced bracing frame one (706), the top of support frame as described above one (706) is fixed with the 4th base plate (703), on described the 4th base plate (703), be fixed with dead bolt clamp (701), described dead bolt clamp (701) becomes rectangular structure, be positioned at dead bolt clamp (701) middle part and have the reach through hole through dead bolt, movable block (702) is installed in described reach through hole bottom, and described dead bolt clamp (701) upper end has inclined cutter groove (709); The 4th lift cylinder (705) is installed in the bottom that is positioned at the 4th base plate (703), and the output of described the 4th lift cylinder (705) and movable block (702) are affixed; On bracing frame one (706) madial wall, be fixed with discharging cylinder (704), the output of described discharging cylinder (704) is connected and fixed plate (707), the upper guide rod one (708) of installing of described fixed head (707), described guide rod one (708) head docks with dead bolt; The structure of described cutting mechanism (504) is: comprise the 4th base (804), on described the 4th base (804), the second gripper shoe (810) is vertically installed, in described the second gripper shoe (810), be provided with the 4th guide rail (806), described the 4th guide rail (806) is upper is provided with flat board (807) by slide block, on described flat board (807), be fixed with the second reductor (802), the upper blade (801) of cutting sth. askew of installing of the output revolving shaft (808) of described the second reductor (802), described in the blade (801) of cutting sth. askew corresponding with inclined cutter groove (709); Also comprise the 6th riser (809), on described the 6th riser (809), be fixed with the motor one (803) that drives the second reductor (802), be positioned on the 4th base (804) the second telescopic cylinder (805) is also installed, the output of described the second telescopic cylinder (805) is affixed with dull and stereotyped (807); The structure of described conveying mechanism (501) is: the bracing frame two (5001) that comprises vertical installation, be vertically installed with motor two (5003) with bracing frame two (5001), the top of support frame as described above two (5001) is arranged at intervals with support plate (5002), described support plate (5002) two ends are provided with roller (5004), between two rollers (5004), conveyer belt are installed; The structure of described the second guiding mechanism (502) is: comprise spaced the 3rd column (604) and the second lead (605), described the 3rd column (604) one sides connect the piston rod (601) of thruster cylinder, described piston rod (601) is connected with guide rod two (603) through the 3rd column (604), upper the 5th guide pad (602) of installing of described the second lead (605), described guide rod two (603) docks with workpiece through the 5th guide pad (602) middle part.

10. dead bolt dedicated full-automatic processing machine as claimed in claim 1, is characterized in that: 45 ° of directions of described dead bolt clamp (701) upper end edge have inclined cutter groove (709).