CN204276799U - A kind of bolt processing integrated machine - Google Patents

Abstract

The utility model relates to a kind of bolt processing integrated machine, comprise frame, decompressor, feeding mold base, conveying device, pure conveyer and workbench, thin material conveyer is fixed on the upper right side of workbench, conveying device is positioned at the lower left of pure conveyer, and conveying device is fixed on the left upper end of workbench, frame and table vertical are arranged, feeding mold base is positioned at the left side of conveying device, feeding mold base is fixed on the upper rear end of frame, decompressor is positioned at the dead ahead of feeding mold base, and decompressor is fixed on the front end, top of frame.The utility model has the high and working (machining) efficiency advantages of higher of reasonable in design, automaticity, automatically can realize material loading, and bolt head and undergauge processing can be completed simultaneously, shorten the technique of bolt processing, improve the working (machining) efficiency of bolt, be conducive to the mass processing of bolt.

Description

A kind of bolt processing integrated machine

Technical field

The utility model relates to bolt manufacture field, specifically a kind of bolt processing integrated machine.

Background technology

In the process of bolt, cold-heading, the red processing mode beaten are also comparatively common, and wherein, cold-heading directly utilizes mould punching, makes bolt machine-shaping.Existing bolt cold-heading adds man-hour, that the head of bolt and the shaft portion of bolt are opened processing, i.e. first punching press on a lathe, the head of bar is made to form hex bolts head, then on other lathe, punching press makes the other end undergauge of bar, to form the screw thread Ministry of worker to be added, process screw thread finally by thread rolling machine in the screw thread Ministry of worker to be added.Above this mode due to the operation related to more, make the working (machining) efficiency of bolt relatively low, have influence on the mass production of bolt.

Summary of the invention

For above-mentioned technology, the utility model proposes a kind of reasonable in design, automaticity is high, working (machining) efficiency is high, automatically can realize material loading, and can complete the device of bolt head and undergauge processing, i.e. a kind of bolt processing integrated machine simultaneously.

A kind of bolt processing integrated machine, comprise frame, decompressor, feeding mold base, conveying device, thin material conveyer and workbench, described pure conveyer is fixed on the upper right side of workbench, described conveying device is positioned at the lower left of pure conveyer, and described conveying device is fixed on the left upper end of workbench, described frame and table vertical are arranged, described feeding mold base is positioned at the left side of conveying device, described feeding mold base is fixed on the upper rear end of frame, described decompressor is positioned at the dead ahead of feeding mold base, described decompressor is fixed on the front end, top of frame.Add man-hour carrying out bolt mass, now bar is thrown in in pure conveyer, start conveying device, also can be synchronous order about pure conveyer feed, so pure conveyer exports a bar at every turn, just in time fall on a conveyor, conveying device is utilized to be delivered to by bar on feeding mold base, and then start the punching press of decompressor realization to multiple bar, make bolt head one-shot forming, and complete undergauge process, after this semi-finished product after punching press can be put in thread rolling machine and carry out thread rolling, to complete screw thread process.

Described decompressor comprises punching cylinder, casing, annular platen and pressure head, described casing is fixed on the front end, top of frame, described punching cylinder is arranged on casing along the width being parallel to frame, described annular platen is positioned at the rear side of casing, described annular platen is connected with punching cylinder, and described pressure head is along on the circumferencial direction rear end face being fixed on annular platen symmetrically of annular platen.When needs carry out punch process, start punching cylinder, move after annular platen can be ordered about, pressure head is impacted on bar, to complete punching press.

Described feeding mold base comprises back seat, position rotaring motor, stem reducing mould seat, stem reducing mould, exhibition dish, contraposition cylinder, outer bit block, material-taking rack, position-limited hoop, feeding rotating disk, back-moving spring and interior bit block, described back seat is fixed on the upper rear end of frame, described position rotaring motor is fixed on the front end of back seat, described stem reducing mould seat structure in the form of annular discs, the dead in line of described stem reducing mould seat and position rotaring motor, the rear end of described stem reducing mould seat is fixed by screws on the front end face of back seat, the center of described stem reducing mould seat is provided with axle and portals, the axis that described stem reducing mould portals with axle is on the gyroaxis front end face being fixed on stem reducing mould seat symmetrically, the quantity of described stem reducing mould is five, described stem reducing mould is equipped with undergauge nib, on described stem reducing mould seat, correspondence is provided with the guide hole be connected with undergauge nib respectively, the axle of described position rotaring motor portals through axle and to be connected with feeding rotating disk, on the periphery of described feeding rotating disk symmetrically be provided with five chuck, the rear side of described five chuck is equipped with a semicircular axle bracket, described back-moving spring uses to form reseting module in pairs, described reseting module respectively correspondence is arranged in five chuck, the front end of described reseting module is corresponding to be respectively connected with interior bit block.

Described interior bit block comprises semicircle interior contraposition body, in described semicircle, the middle part of contraposition body is provided with interior half point hexagon platform, the rear side of described interior half point hexagon platform is provided with No. two axle brackets, the dead in line of contraposition body in the axis of described No. two axle brackets and semicircle, in described semicircle, the rear end of contraposition body is arranged with slip guide pillar, described slip guide pillar is corresponding to be respectively slidably matched with five chuck, and the corresponding empty set of described back-moving spring is on slip guide pillar.

The upper rear end of described position-limited hoop is provided with external beam, described position-limited hoop is connected with stem reducing mould seat by external beam, described position-limited hoop comprises outreach part, annulus hoop body and guide supporting plate, described annulus hoop body is 3/4ths circular rings, the described upper end of annulus hoop body is connected with the left end of outreach part, the right-hand member of described annulus hoop body is connected with the left end of guide supporting plate, described guide supporting plate to the right inclined upward is arranged, described annulus hoop body is evenly equipped with four alveolus along the circumferencial direction of annulus hoop body, described exhibition dish is the corresponding rear side being distributed in four alveolus respectively, be connected between described exhibition dish and annulus hoop body, described contraposition cylinder is along the corresponding dead ahead being distributed in exhibition dish of radial direction of feeding rotating disk, described contraposition cylinder correspondence is connected with exhibition dish, described outer bit block respectively correspondence is arranged on contraposition cylinder, described outer bit block is corresponding to be respectively slidably matched with alveolus, described outer bit block comprises outer contraposition body, the front end of described outer contraposition body is provided with outer half point hexagon platform, the rear side of described outer half point hexagon platform is provided with No. three axle brackets, hex bolts head groove is formed after described outer half point hexagon platform coordinates with interior half point hexagon platform.

The left end of described material-taking rack is fixed on the right part of guide supporting plate, and described material-taking rack to the right inclined upward is arranged.

Utilize coordinating of material-taking rack and conveying device, to complete feeding, then, bar can roll along guide supporting plate, until bar snaps onto in an axle bracket, start position rotaring motor, drive feeding dial rotation, the inner side of bar is made to be stuck in an axle bracket, the outside of bar is then against on the inner ring surface of annulus hoop body, the inner ring surface of annulus hoop body is utilized to serve good position-limiting action to bar, misplace to prevent bar, can make in feeding dial rotation simultaneously, guarantee that bar rotates together along with feeding dial rotation, namely such bar has been evenly distributed in an axle bracket, once get four bars, when one of them bar moves to the top of feeding rotating disk, punch process can be carried out, start punching cylinder, move after can ordering about annular platen, pressure head is impacted on bar, to complete punching press, in the process of punching press, stamping press can be synchronous compression reseting spring, make outer bit block, after interior bit block coordinates, hex bolts head groove is formed after utilizing outer half point hexagon platform to coordinate with interior half point hexagon platform, after such bar is subject to stamping press, hex bolts head Slot shaping can be utilized for hex bolts head, the rear portion of bar also can be got in reducing die hole, to complete undergauge processing, namely the utility model completes head processing and the undergauge processing of bolt simultaneously, traditional two operations are combined into an operation, greatly improve the efficiency of bolt processing, also ensure that the axiality between the head of bolt and the screw thread Ministry of worker to be added of bolt.

Described conveying device comprises wheel carrier, driving wheel, transporting chain plate, conveying supporting plate and driven pulley, described wheel carrier is fixing on the table, described driving wheel is arranged on the left end of wheel carrier, described driven pulley is arranged on the right-hand member of wheel carrier, described transporting chain plate is wrapped between driving wheel, driven pulley, and described conveying supporting plate is arranged on the outer surface of transporting chain plate uniformly.When needs carry out conveying bar, start driving wheel, synchronous drive transporting chain plate rotates, such bar can drop in conveying supporting plate, the rotation of transporting chain plate can be utilized bar to be delivered to the high order end of transporting chain plate, finally to utilize material-taking rack to take bar away, complete the transhipment to bar.

Described pure conveyer comprises bracket, outer feed bin, interior feed bin, plate, material toggling cylinder, feeding is taken turns, guide passage, connecting rod and runner, described bracket is fixed on the upper right side of workbench, described outer feed bin is arranged on bracket, the upper end of described outer feed bin is provided with charge door, described interior feed bin is positioned at immediately below charge door, described interior feed bin and outer feed bin are connected, the upper end of described plate and the top of interior feed bin are hinged, described material toggling cylinder is fixed on the right side wall of interior feed bin, the right lower quadrant of described material toggling cylinder and plate is hinged, the uncovered setting in bottom of described interior feed bin, described feeding wheel is positioned at the bottom open-mouth of feed bin, described feeding wheel is connected by bearing with the madial wall of outer feed bin, described guide passage is arranged on the lower left of the open-mouth of interior feed bin, the exit, lower end of described guide passage is near transporting chain plate, described runner is fixed on the bottom of outer feed bin, described runner rolls on the outer surface of transporting chain plate, lower end and the runner bias of described connecting rod are hinged, the upper end of described connecting rod and feeding are taken turns eccentric hinged.Described feeding wheel is provided with semicircular feeding groove.The eccentric throw of described runner and the hinged place of connecting rod is less than feeding and takes turns the eccentric throw with the hinged place of connecting rod.

The right-hand member height of described material-taking rack is lower than the height of transporting chain plate topmost place horizontal plane.Such bar, when moving to the high order end of transporting chain plate, is namely caught by material-taking rack and is about to the bar of whereabouts, to complete the transhipment of bar.

The beneficial effects of the utility model are: the utility model has the high and working (machining) efficiency advantages of higher of reasonable in design, automaticity, automatically material loading can be realized, and bolt head and undergauge processing can be completed simultaneously, shorten the technique of bolt processing, improve the working (machining) efficiency of bolt, be conducive to the mass processing of bolt.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, utility model is further illustrated.

Fig. 1 is main TV structure schematic diagram of the present utility model;

Fig. 2 is plan structure schematic diagram of the present utility model;

Fig. 3 is antero-lateral perspective structural representation of the present utility model;

Fig. 4 is rear perspective structural representation of the present utility model;

Fig. 5 is the left TV structure schematic diagram of feeding mold base of the present utility model;

Fig. 6 is the antero-lateral perspective structural representation of feeding mold base of the present utility model;

Fig. 7 is the rear perspective structural representation of feeding mold base of the present utility model;

Fig. 8 is the main TV structure schematic diagram of feeding mold base of the present utility model;

The perspective view that Fig. 9 is feeding rotating disk of the present utility model, back-moving spring is connected with interior bit block;

Figure 10 is the perspective view of interior bit block of the present utility model;

The perspective view that Figure 11 is stem reducing mould seat of the present utility model, stem reducing mould connects;

The perspective view that Figure 12 is exhibition dish of the present utility model, material-taking rack, position-limited hoop connect;

Figure 13 is the perspective view of outer bit block of the present utility model;

The perspective view that Figure 14 is conveying device of the present utility model, pure conveyer is connected with workbench;

The main TV structure schematic diagram that Figure 15 is conveying device of the present utility model, pure conveyer is connected with workbench;

Figure 16 is the structural representation of feeding of the present utility model wheel.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, below the utility model being set forth further.

As shown in Fig. 1 to Figure 16, a kind of bolt processing integrated machine, comprise frame 1, decompressor 2, feeding mold base 3, conveying device 4, thin material conveyer 5 and workbench 6, described pure conveyer 5 is fixed on the upper right side of workbench 6, described conveying device 4 is positioned at the lower left of pure conveyer 5, and described conveying device 4 is fixed on the left upper end of workbench 6, described frame 1 is arranged vertically with workbench 6, described feeding mold base 3 is positioned at the left side of conveying device 4, described feeding mold base 3 is fixed on the upper rear end of frame 1, described decompressor 2 is positioned at the dead ahead of feeding mold base 3, described decompressor 2 is fixed on the front end, top of frame 1.Add man-hour carrying out bolt mass, now bar is thrown in in pure conveyer 5, start conveying device 4, also can be synchronous order about pure conveyer 5 feed, so pure conveyer 5 exports a bar at every turn, just in time drop in conveying device 4, conveying device 4 is utilized to be delivered to by bar on feeding mold base 3, and then startup decompressor 2 realizes the punching press to multiple bar, make bolt head one-shot forming, and complete undergauge process, after this semi-finished product after punching press can be put in thread rolling machine and carry out thread rolling, to complete screw thread process.

Described decompressor 2 comprises punching cylinder 2a, casing 2b, annular platen 2c and pressure head 2d, described casing 2b is fixed on the front end, top of frame 1, described punching cylinder 2a is arranged on casing 2b along the width being parallel to frame 1, described annular platen 2c is positioned at the rear side of casing 2b, described annular platen 2c is connected with punching cylinder 2a, and described pressure head 2d is along on the circumferencial direction rear end face being fixed on annular platen 2c symmetrically of annular platen 2c.When needs carry out punch process, start punching cylinder 2a, move after annular platen 2c can be ordered about, pressure head 2d is impacted on bar, to complete punching press.

Described feeding mold base 3 comprises back seat 301, position rotaring motor 302, stem reducing mould seat 303, stem reducing mould 304, exhibition dish 305, contraposition cylinder 306, outer bit block 307, material-taking rack 308, position-limited hoop 309, feeding rotating disk 310, back-moving spring 311 and interior bit block 312, described back seat 301 is fixed on the upper rear end of frame 1, described position rotaring motor 302 is fixed on the front end of back seat 301, described stem reducing mould seat 303 structure in the form of annular discs, the dead in line of described stem reducing mould seat 303 and position rotaring motor 302, the rear end of described stem reducing mould seat 303 is fixed by screws on the front end face of back seat 301, the center of described stem reducing mould seat 303 is provided with axle and portals 303a, described stem reducing mould 304 portals the axis of 303a on the gyroaxis front end face being fixed on stem reducing mould seat 303 symmetrically with axle, the quantity of described stem reducing mould 304 is five, described stem reducing mould 304 is equipped with undergauge nib 304a, on described stem reducing mould seat 303, correspondence is provided with the guide hole 303b be connected with undergauge nib 304a respectively, the axle of described position rotaring motor 302 is connected through portal 303a and feeding rotating disk 310 of axle, on the periphery of described feeding rotating disk 310 symmetrically be provided with five chuck 310a, the rear side of described five chuck 310a is equipped with a semicircular axle bracket 310b, described back-moving spring 311 uses in pairs to form reseting module, described reseting module respectively correspondence is arranged on five chuck 310a, the front end of described reseting module is corresponding to be respectively connected with interior bit block 312.

Described interior bit block 312 comprises semicircle interior contraposition body 312a, in described semicircle, the middle part of contraposition body 312a is provided with interior half point hexagon platform 312b, the rear side of described interior half point hexagon platform 312b is provided with No. two axle bracket 312c, the dead in line of contraposition body 312a in the axis of described No. two axle bracket 312c and semicircle, in described semicircle, the rear end of contraposition body 312a is arranged with slip guide pillar 312d, described slip guide pillar 312d is corresponding to be respectively slidably matched with five chuck 310a, and the corresponding empty set of described back-moving spring 311 is on slip guide pillar 312d.

The upper rear end of described position-limited hoop 309 is provided with external beam 309a, described position-limited hoop 309 is connected with stem reducing mould seat 303 by external beam 309a, described position-limited hoop 309 comprises outreach part 309b, annulus hoop body 309c and guide supporting plate 309d, described annulus hoop body 309c is 3/4ths circular rings, the upper end of described annulus hoop body 309c is connected with the left end of outreach part 309b, the right-hand member of described annulus hoop body 309c is connected with the left end of guide supporting plate 309d, described guide supporting plate 309d to the right inclined upward arranges, circumferencial direction along annulus hoop body 309c on described annulus hoop body 309c is evenly equipped with four alveolus 309e, described exhibition dish 305 is the corresponding rear side being distributed in four alveolus 309e respectively, be connected between described exhibition dish 305 and annulus hoop body 309c, described contraposition cylinder 306 is along the corresponding dead ahead being distributed in exhibition dish 305 of radial direction of feeding rotating disk 310, described contraposition cylinder 306 correspondence is connected with exhibition dish 305, described outer bit block 307 respectively correspondence is arranged on contraposition cylinder 306, described outer bit block 307 is corresponding to be respectively slidably matched with alveolus 309e, described outer bit block 307 comprises outer contraposition body 307a, the front end of described outer contraposition body 307a is provided with outer half point hexagon platform 307b, the rear side of described outer half point hexagon platform 307b is provided with No. three axle bracket 307c, hex bolts head groove is formed after described outer half point hexagon platform 307b coordinates with interior half point hexagon platform 312b.

The left end of described material-taking rack 308 is fixed on the right part of guide supporting plate 309d, and described material-taking rack 308 to the right inclined upward is arranged.

Utilize coordinating of material-taking rack 308 and conveying device 4, to complete feeding, then, bar can roll along guide supporting plate 309d, until bar snaps onto in an axle bracket 310b, start position rotaring motor 302, feeding rotating disk 310 is driven to rotate, the inner side of bar is made to be stuck in an axle bracket 310b, the outside of bar is then against on the inner ring surface of annulus hoop body 309c, the inner ring surface of annulus hoop body 309c is utilized to serve good position-limiting action to bar, misplace to prevent bar, can rotate at feeding rotating disk 310 simultaneously and make, guarantee that bar rotates together along with feeding rotating disk 310 rotates, namely such bar has been evenly distributed in an axle bracket 310b, once get four bars, when one of them bar moves to the top of feeding rotating disk 310, punch process can be carried out, start punching cylinder 2a, move after can ordering about annular platen 2c, pressure head 2d is impacted on bar, to complete punching press, in the process of punching press, stamping press can be synchronous compression reseting spring 311, make outer bit block 307, after interior bit block 312 coordinates, hex bolts head groove is formed after utilizing outer half point hexagon platform 307b to coordinate with interior half point hexagon platform 312b, after such bar is subject to stamping press, hex bolts head Slot shaping can be utilized for hex bolts head, the rear portion of bar also can be got in the 304a of reducing die hole, to complete undergauge processing, namely the utility model completes head processing and the undergauge processing of bolt simultaneously, traditional two operations are combined into an operation, greatly improve the efficiency of bolt processing, also ensure that the axiality between the head of bolt and the screw thread Ministry of worker to be added of bolt.

Described conveying device 4 comprises wheel carrier 401, driving wheel 402, transporting chain plate 403, conveying supporting plate 404 and driven pulley 405, described wheel carrier 401 is fixed on workbench 6, described driving wheel 402 is arranged on the left end of wheel carrier 401, described driven pulley 405 is arranged on the right-hand member of wheel carrier 401, described transporting chain plate 403 is wrapped between driving wheel 402, driven pulley 405, and described conveying supporting plate 404 is arranged on the outer surface of transporting chain plate 403 uniformly.When needs carry out conveying bar, start driving wheel 402, synchronous drive transporting chain plate 403 rotates, such bar can drop in conveying supporting plate 404, the rotation of transporting chain plate 403 can be utilized bar to be delivered to the high order end of transporting chain plate 403, finally utilize material-taking rack 308 to take bar away, complete the transhipment to bar.

Described pure conveyer 5 comprises bracket 501, outer feed bin 502, interior feed bin 503, plate 504, material toggling cylinder 505, feeding wheel 506, guide passage 507, connecting rod 508 and runner 509, described bracket 501 is fixed on the upper right side of workbench 6, described outer feed bin 502 is arranged on bracket 501, the upper end of described outer feed bin 502 is provided with charge door 502a, described interior feed bin 503 is positioned at immediately below charge door 502a, described interior feed bin 503 is connected with outer feed bin 502, the upper end of described plate 504 and the top of interior feed bin 503 are hinged, described material toggling cylinder 505 is fixed on the right side wall of interior feed bin 503, described material toggling cylinder 505 is hinged with the right lower quadrant of plate 504, the uncovered setting in bottom of described interior feed bin 503, described feeding wheel 506 is positioned at the bottom open-mouth of feed bin 503, described feeding wheel 506 is connected by bearing with the madial wall of outer feed bin 502, described guide passage 507 is arranged on the lower left of the open-mouth of interior feed bin 503, the exit, lower end of described guide passage 507 is near transporting chain plate 403, described runner 509 is fixed on the bottom of outer feed bin 502, described runner 509 rolls on the outer surface of transporting chain plate 403, the lower end of described connecting rod 508 and runner 509 are eccentric hinged, it is hinged that the upper end of described connecting rod 508 and feeding take turns 506 bias.Described feeding wheel 506 is provided with semicircular feeding groove 506a.Described runner 509 and the eccentric throw of the hinged place of connecting rod 508 are less than the eccentric throw of hinged place that feeding take turns 506 and connecting rod 508.What thin material conveyer 5 adopted is the principle of crank and rocker mechanism, the characteristic of the reciprocally swinging of rocking bar is utilized to realize exporting bar, namely feeding is utilized to take turns 506, connecting rod 508, runner 509 forms crank and rocker mechanism, wherein, runner 509 is throw of crankshaft with the eccentric throw of the hinged place of connecting rod 508, feeding wheel 506 is the radius of rocking bar with the eccentric throw of the hinged place of connecting rod 508, such throw of crankshaft is less than rocking bar radius, crank can turn round by whole circle, apply as follows: in the process that transporting chain plate 403 rotates, because runner 509 rolls on the outer surface of transporting chain plate 403, the runner 509 that makes that like this can be synchronous rotates, and then drivening rod 508, feeding is driven to take turns 506 shuttle rotations, such feeding groove 506a can interior feed bin 503 bottom and the feeding mouth place of guide passage 507 move back and forth, when feeding groove 506a is positioned at feed bin 503, feeding groove 506a can snap in a bar, and then feeding groove 506a is when being rocked to the feeding mouth place of guide passage 507, bar is put in guide passage 507, guide passage 507 is utilized to be delivered to by bar on corresponding conveying supporting plate 404, and so forth, bar in interior feed bin 503 can be exported, adopt material toggling cylinder 505, plate 504 can be ordered about, plate 504 is swung around the top place of being hinged with interior feed bin 503, move towards the position at feeding groove 506a place to stir the bar in interior feed bin 503, ensure the abundant of feed.

The right-hand member height of described material-taking rack 308 is lower than the height of transporting chain plate 403 topmost place horizontal plane.Such bar, when moving to the high order end of transporting chain plate 403, is namely caught by material-taking rack 308 and is about to the bar of whereabouts, to complete the transhipment of bar.

During work, bar is put in interior feed bin 503 from charge door 502a by operating personnel, and then start driving wheel 402, transporting chain plate 403 is driven to rotate, the synchronous runner 509 that makes rolls, 506 shuttle rotations are taken turns to drive feeding, such feeding groove 506a can interior feed bin 503 bottom and the feeding mouth place of guide passage 507 move back and forth, ceaselessly the bar in interior feed bin 503 is delivered in guide passage 507, namely single-piece exports, the bar be output can drop on corresponding conveying supporting plate 404, and then utilize the rotation of transporting chain plate 403, bar is delivered to the high order end to transporting chain plate 403, recycling material-taking rack 308 is caught and is about to the bar of whereabouts, to complete the transhipment of bar, after this, start position rotaring motor 302, feeding rotating disk 310 is driven to rotate, the bar on material-taking rack 308 is made to snap onto in an axle bracket 310b, position rotaring motor 302 is rotated further, until when first bar moves to the position, the top of feeding rotating disk 310, position rotaring motor 302 is braked, start punching cylinder 2a, what drive ram 2d was corresponding is pressed on bar, the head of bolt can be made shaping, realize the undergauge processing of bolt simultaneously, to improve the efficiency of bolt processing.After shaping, punching cylinder 2a resets, and semi-finished product take out by operating personnel, reinstalls machining screw in thread rolling machine.Cycling like this, can realize the mass processing of bolt.

More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; the just principle of the present utility model described in above-described embodiment and description; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (4)

1. a bolt processing integrated machine, comprise frame (1), decompressor (2), feeding mold base (3), conveying device (4), thin material conveyer (5) and workbench (6), it is characterized in that: described pure conveyer (5) is fixed on the upper right side of workbench (6), described conveying device (4) is positioned at the lower left of pure conveyer (5), and described conveying device (4) is fixed on the left upper end of workbench (6), described frame (1) and workbench (6) are arranged vertically, described feeding mold base (3) is positioned at the left side of conveying device (4), described feeding mold base (3) is fixed on the upper rear end of frame (1), described decompressor (2) is positioned at the dead ahead of feeding mold base (3), described decompressor (2) is fixed on the front end, top of frame (1),

Described decompressor (2) comprises punching cylinder (2a), casing (2b), annular platen (2c) and pressure head (2d), described casing (2b) is fixed on the front end, top of frame (1), described punching cylinder (2a) is arranged on casing (2b) along the width being parallel to frame (1), described annular platen (2c) is positioned at the rear side of casing (2b), described annular platen (2c) is connected with punching cylinder (2a), described pressure head (2d) is along on the circumferencial direction rear end face being fixed on annular platen (2c) symmetrically of annular platen (2c),

Described feeding mold base (3) comprises back seat (301), position rotaring motor (302), stem reducing mould seat (303), stem reducing mould (304), exhibition dish (305), contraposition cylinder (306), outer bit block (307), material-taking rack (308), position-limited hoop (309), feeding rotating disk (310), back-moving spring (311) and interior bit block (312), described back seat (301) is fixed on the upper rear end of frame (1), described position rotaring motor (302) is fixed on the front end of back seat (301), described stem reducing mould seat (303) structure in the form of annular discs, the dead in line of described stem reducing mould seat (303) and position rotaring motor (302), the rear end of described stem reducing mould seat (303) is fixed by screws on the front end face of back seat (301), the center of described stem reducing mould seat (303) is provided with axle and portals (303a), described stem reducing mould (304) is on the gyroaxis front end face being fixed on stem reducing mould seat (303) symmetrically with the portal axis of (303a) of axle, the quantity of described stem reducing mould (304) is five, described stem reducing mould (304) is equipped with undergauge nib (304a), on described stem reducing mould seat (303), correspondence is provided with the guide hole (303b) be connected with undergauge nib (304a) respectively, the axle of described position rotaring motor (302) portals (303a) through axle and feeding rotating disk (310) is connected, on the periphery of described feeding rotating disk (310) symmetrically be provided with five chuck (310a), the rear side of described five chuck (310a) is equipped with a semicircular axle bracket (310b), described back-moving spring (311) uses in pairs to form reseting module, described reseting module respectively correspondence is arranged on five chuck (310a), the front end of described reseting module is corresponding to be respectively connected with interior bit block (312),

Described interior bit block (312) comprises semicircle interior contraposition body (312a), in described semicircle, the middle part of contraposition body (312a) is provided with interior half point hexagon platform (312b), the rear side of described interior half point hexagon platform (312b) is provided with No. two axle brackets (312c), the dead in line of contraposition body (312a) in the axis of described No. two axle brackets (312c) and semicircle, in described semicircle, the rear end of contraposition body (312a) is arranged with slip guide pillar (312d), described slip guide pillar (312d) is corresponding to be respectively slidably matched with five chuck (310a), described back-moving spring (311) corresponding empty set is on slip guide pillar (312d),

The upper rear end of described position-limited hoop (309) is provided with external beam (309a), described position-limited hoop (309) is connected with stem reducing mould seat (303) by external beam (309a), described position-limited hoop (309) comprises outreach part (309b), annulus hoop body (309c) and guide supporting plate (309d), described annulus hoop body (309c) is 3/4ths circular rings, the upper end of described annulus hoop body (309c) is connected with the left end of outreach part (309b), the right-hand member of described annulus hoop body (309c) is connected with the left end of guide supporting plate (309d), described guide supporting plate (309d) to the right inclined upward is arranged, described annulus hoop body (309c) is evenly equipped with four alveolus (309e) along the circumferencial direction of annulus hoop body (309c), described exhibition dish (305) respectively correspondence is distributed in the rear side of four alveolus (309e), be connected between described exhibition dish (305) and annulus hoop body (309c), described contraposition cylinder (306) is distributed in the dead ahead of exhibition dish (305) along the radial direction correspondence of feeding rotating disk (310), described contraposition cylinder (306) correspondence is connected with exhibition dish (305), described outer bit block (307) respectively correspondence is arranged on contraposition cylinder (306), described outer bit block (307) is corresponding to be respectively slidably matched with alveolus (309e), described outer bit block (307) comprises outer contraposition body (307a), the front end of described outer contraposition body (307a) is provided with outer half point hexagon platform (307b), the rear side of described outer half point hexagon platform (307b) is provided with No. three axle brackets (307c), hex bolts head groove is formed after described outer half point hexagon platform (307b) coordinates with interior half point hexagon platform (312b),

The left end of described material-taking rack (308) is fixed on the right part of guide supporting plate (309d), and described material-taking rack (308) to the right inclined upward is arranged;

Described conveying device (4) comprises wheel carrier (401), driving wheel (402), transporting chain plate (403), conveying supporting plate (404) and driven pulley (405), described wheel carrier (401) is fixed on workbench (6), described driving wheel (402) is arranged on the left end of wheel carrier (401), described driven pulley (405) is arranged on the right-hand member of wheel carrier (401), described transporting chain plate (403) is wrapped in driving wheel (402), between driven pulley (405), described conveying supporting plate (404) is arranged on the outer surface of transporting chain plate (403) uniformly,

Described pure conveyer (5) comprises bracket (501), outer feed bin (502), interior feed bin (503), plate (504), material toggling cylinder (505), feeding wheel (506), guide passage (507), connecting rod (508) and runner (509), described bracket (501) is fixed on the upper right side of workbench (6), described outer feed bin (502) is arranged on bracket (501), the upper end of described outer feed bin (502) is provided with charge door (502a), described interior feed bin (503) is positioned at immediately below charge door (502a), described interior feed bin (503) and outer feed bin (502) are connected, the upper end of described plate (504) and the top of interior feed bin (503) are hinged, described material toggling cylinder (505) is fixed on the right side wall of interior feed bin (503), described material toggling cylinder (505) is hinged with the right lower quadrant of plate (504), the uncovered setting in bottom of described interior feed bin (503), described feeding wheel (506) is positioned at the bottom open-mouth of feed bin (503), described feeding wheel (506) is connected by bearing with the madial wall of outer feed bin (502), described guide passage (507) is arranged on the lower left of the open-mouth of interior feed bin (503), the exit, lower end of described guide passage (507) is near transporting chain plate (403), described runner (509) is fixed on the bottom of outer feed bin (502), described runner (509) rolls on the outer surface of transporting chain plate (403), the lower end of described connecting rod (508) and runner (509) are eccentric hinged, it is eccentric hinged that the upper end of described connecting rod (508) and feeding take turns (506).

2. a kind of bolt processing integrated machine according to claim 1, is characterized in that: described feeding wheel (506) is provided with semicircular feeding groove (506a).

3. a kind of bolt processing integrated machine according to claim 1, is characterized in that: the right-hand member height of described material-taking rack (308) is lower than the height of transporting chain plate (403) topmost place horizontal plane.

4. a kind of bolt processing integrated machine according to claim 1, is characterized in that: described runner (509) and the eccentric throw of the hinged place of connecting rod (508) are less than the eccentric throw that feeding takes turns the hinged place of (506) and connecting rod (508).