CN205834369U - High-velocity wire cutting circular sawing machine - Google Patents

Abstract

This utility model belongs to Metal Cutting technical field, relates to a kind of high-velocity wire cutting circular sawing machine.It includes support, described support is provided with cutting mechanism, described support connects feed mechanism, described cutting mechanism includes cutting sheet and the cutting sheet driver with cutting sheet drive connection, being provided with one on support, have can the cleavage block driver of the most reciprocating outfan, in cutting sheet is arranged on cleavage block and being flexibly connected with cleavage block, the bottom of cleavage block is hinged with support, and the top of cleavage block is hinged with the outfan of cleavage block driver.This utility model cutting speed is fast, and efficiency is high, and precision is high.

Description

High-velocity wire cutting circular sawing machine

Technical field

This utility model belongs to Metal Cutting technical field, relates to a kind of high-velocity wire cutting circular sawing machine.

Background technology

Circular sawing machine can be divided into metal annular sawing machine and woodworking circular sawing machine according to converted products.It is divided into vertical according to feeding mode, Horizontal and scissor.Can be divided into manually according to control mode, semi-automatic and full-automatic.And it is equipped with PP Pipe Compound as desired Frame.The cleavage block of existing metal annular sawing machine is to use the mode moved horizontally to contact realization cutting with metal, and cutting speed is slow.

As Chinese patent literature discloses a kind of slideway type metal circular saw [application number: 201110246519.4], including Fuselage, the pay-off being arranged on fuselage, feed arrangement, servo motor and electric cabinet, also include by oil cylinder and induction apparatus Realize the automatic feed preparation device of automatic charging feeding.The present invention can the steel of the quick various cross sectional shape of sawing, the metal such as iron material Material, without material autostop, sawdust centralized collection, has wall scroll or many strip materials automatic charging, self-feeding, scale, automatically The integrated functions such as clamping, cut-out, the most built-in automatic lubricating system of each moving part of full machine, easy maintenance, save the working time, Ergonomic is greatly improved, is the perfect efficient metal annular sawing machine of a sawing precision.

Although such scheme provides sawing precision, but saw cutting speed does not the most improve.

Utility model content

The purpose of this utility model is for the problems referred to above, it is provided that a kind of high-velocity wire cutting circular sawing machine.

For reaching above-mentioned purpose, this utility model have employed following technical proposal: a kind of high-velocity wire cuts circular sawing machine, Including support, described support is provided with cutting mechanism, and described support connects has feed mechanism, described cutting mechanism to include Cutting sheet and the cutting sheet driver with cutting sheet drive connection, be provided with one on support and have and can axially move back and forth The cleavage block driver of outfan, in cutting sheet is arranged on cleavage block and is flexibly connected with cleavage block, the bottom of cleavage block and Support is hinged, and the top of cleavage block is hinged with the outfan of cleavage block driver.

In above-mentioned high-velocity wire cutting circular sawing machine, the outfan of described cleavage block driver, in being horizontally disposed with, is cut Cutting a driver is cylinder or oil cylinder, and described support is additionally provided with a feeding pressure mechanism, and this feeding pressure mechanism can be vertically Pumping, the feeding pressure mechanism described in when feeding pressure mechanism down moves can push down metal to be cut, works as feeding pressure mechanism When up moving, feeding pressure mechanism departs from metal to be cut.

In above-mentioned high-velocity wire cutting circular sawing machine, on described support and be positioned at the lower section of cutting mechanism and be provided with one Discharge mechanism, described discharge mechanism include for will cutting after metal discharge discharge groove, described discharge groove include in The first row hopper being obliquely installed and the second row hopper being flexibly connected with first row hopper, described second row hopper is provided with One discharge groove driver that second row hopper can be driven to move, described discharge groove driver is fixed on support.

In above-mentioned high-velocity wire cutting circular sawing machine, first row hopper is fixed on support, and first row hopper is away from cutting Cut one end of seat in second row hopper and and second row hopper between there is gap, described first row hopper is fixed on machine On seat and be positioned at below cleavage block

In above-mentioned high-velocity wire cutting circular sawing machine, it is provided with one piece in described first row hopper and protrudes from the first discharge The deceleration bar of trench bottom, the width of this deceleration bar is identical with the width of first row hopper, and described discharge groove driver includes row Hopper drives cylinder, described discharge groove to drive cylinder to be fixed on support, and discharge groove drives outfan and the second row of cylinder Hopper connects, and the bottom of second row hopper is fixed with one piece of discharge groove connecting plate, and described discharge groove drives the outfan of cylinder Hinged with discharge groove connecting plate.

In above-mentioned high-velocity wire cutting circular sawing machine, described feed mechanism includes the feeding being flexibly connected with support Seat, described material feeding seat is provided with one can clamp sending of metal to be cut when metal to be cut is placed on material feeding seat Material clamp assembly, material feeding seat can move forward and backward thus metal to be cut is sent to be positioned at the cutting mechanism of material feeding seat end In, described cutting mechanism is arranged on support.

In above-mentioned high-velocity wire cutting circular sawing machine, described material feeding seat connects servo-driver, and support is fixed with Article at least two, the litter being parallel to each other, material feeding seat is set on litter and can move before and after litter under the driving of servo-driver Dynamic.

In above-mentioned high-velocity wire cutting circular sawing machine, described material feed clamping assembly includes that be fixed on material feeding seat determines Position clamping plate and clamping block assembly that is opposite with positioning splint and that be flexibly connected with material feeding seat, described clamping block assembly can be to fixed Moving back and forth before and after the direction of position clamping plate, described clamping block assembly includes material feed clamping cylinder and defeated with material feed clamping cylinder Going out the fixing material feed clamping block connected of end, described material feed clamping block is opposite with positioning splint, and described support is additionally provided with One cutting opposite with cutting mechanism is against plate.

In above-mentioned high-velocity wire cutting circular sawing machine, also including a feed mechanism, described feed mechanism connects to be had Chute feeder mechanism, described chute feeder mechanism includes fixing the frame being connected with support, and chute feeder is positioned at frame top and connection Cutting mechanism, has some rolling feeding material components evenly distributed along the axially spaced-apart of chute feeder, institute bottom described chute feeder It is additionally provided with one in the frame stated to move to the direction of chute feeder thus clamp the clamping group of the metal to be cut in chute feeder Part.

In above-mentioned high-velocity wire cutting circular sawing machine, described frame is provided with a material stock frame, described material stock frame Be flexibly connected with frame near one end of chute feeder mechanism, the other end can vertically rise or fall so that material stock frame in Being obliquely installed or adjust the angle of inclination of material stock frame, when metal to be cut is placed on material stock frame, metal to be cut can be along Material stock frame rolls in chute feeder mechanism, is provided with a blocking mechanism at frame top, and described blocking mechanism can be along vertically side Ramping up or decline and can block when blocking mechanism rises the metal to be cut on material stock frame, described material stock frame includes some Arranged in parallel depositing material rack component at frame top, this is deposited material rack component and includes support bar and the height hinged with support bar Degree adjustment bar, described support bar is hinged with frame away from one end of altitude mixture control bar, and described altitude mixture control bar is lived with frame It is dynamically connected and can vertically lift.

Compared with prior art, the utility model has the advantage of:

1, when cutting metal, cut sheet oblique movement from top to bottom, produce the effect of two power, improve cutting speed Degree, the structure of chute feeder can be to different direction feedings, it is simple to the product of cutting different size, improve automaticity and Work efficiency.

2, material stock shelf structure is compact, reasonable in design, is set directly in frame, takes up room little, can reach self-feeding Effect.

3, feed mechanism makes feeding process steadily reliable, can clamp metal when cutting, improve cutting accuracy.

Accompanying drawing explanation

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

Fig. 2 is the structural representation of cutting mechanism；

Fig. 3 is the structural representation of discharge mechanism；

Fig. 4 is the structural representation in another direction of Fig. 3；

Fig. 5 is the structural representation of feed mechanism；

The partial schematic diagram of Tu6Shi chute feeder mechanism；

The structural representation of Tu7Shi chute feeder mechanism；

Fig. 8 is the structural representation of material stock frame.

In figure: support 100, frame 101, chute feeder 11, discharge mechanism 2, cutting mechanism 20, first row hopper 21, discharge Groove driver 22, deceleration bar 23, discharge groove drive cylinder 24, discharge groove connecting plate 25, second row hopper 26, metal to be cut 200, cut sheet 201, cleavage block driver 202, cleavage block 203, feeding pressure mechanism 204, binder cylinder 205, binder block 206, deposit Bin 301, chute feeder mechanism 302, blocking mechanism 303, deposit material rack component 304, support bar 305, altitude mixture control bar 306, draw-in groove 307, between card article 308, material stock plate 309, barrier plate 310, barrier plate are accommodating 311, elevating lever 312, roll wheel assembly 313, chute feeder 314, backgauge bar 315, movable barrier frame 316, stop post 317, movable barrier set 318, chute feeder mechanism 40, chute feeder 401, rolling Dynamic feeding material component 402, clamp assembly 403, feeding bar 404, feed spool bearing 405, feeding rolling roller 406, anti-deviation assembly 407, anti-deviation locating dowel 408, anti-deviation rolling post 409, feeding locating rack 410, clamping block assembly 411, clamping block 412, folder Tight block drive mechanism 413, driving member 414, clamping block bull stick the 415, first drive link the 416, second drive link 417, feed mechanism 60, material feeding seat 601, material feed clamping assembly 602, servo-driver 603, litter 604, positioning splint 605, clamping block assembly 606, Material feed clamping cylinder 607, material feed clamping block 608, cutting are against plate 609, cutting sheet 610, lead assembly 611.

Detailed description of the invention

The utility model is described in more detail with detailed description of the invention below in conjunction with the accompanying drawings.

As Figure 1-4, a kind of high-velocity wire cutting circular sawing machine, including support 100, described support 100 is provided with to be cut Cutting mill structure 20, described support 100 connect have feed mechanism 60, described cutting mechanism 20 include cutting sheet 201 and with cutting The cutting sheet driver (not shown) of sheet 201 drive connection, cutting sheet driver is preferably hydraulic motor, it is also possible to be electricity Machine, support 100 is provided with one have can the cleavage block driver 202 of the most reciprocating outfan, cut sheet In 201 are arranged on cleavage block 203 and being flexibly connected with cleavage block 203, the bottom of cleavage block 203 is hinged with support 100, cleavage block The top of 203 is hinged with the outfan of cleavage block driver 202.

The cutting sheet of existing metal-shearing machine is all to use the mode moved in parallel to cut, in the present embodiment, When cleavage block driver 202 pulls cleavage block 203 to move, owing to cleavage block 203 is hinged with support 100, therefore cleavage block 203 In oblique movement from top to bottom, cutting sheet 201 is identical with the movement locus of cleavage block 203, in this motor process, cuts sheet 201 produce two power, and one is power straight down, the power being horizontally oriented, under the effect of two power, and cutting speed Significantly improve

Specifically, the outfan of cleavage block driver 202 is in being horizontally disposed with, and cleavage block driver 202 is cylinder or oil Cylinder, described support 100 is additionally provided with a feeding pressure mechanism 204, and this feeding pressure mechanism 204 can the most up and down reciprocatingly be transported Dynamic, the feeding pressure mechanism 204 described in when feeding pressure mechanism 204 down moves can push down metal to be cut, when feeding pressure mechanism 204 is past During upper motion, feeding pressure mechanism 204 departs from metal to be cut.Specifically, feeding pressure mechanism 204 includes being vertically arranged in support Binder cylinder 205 on 100, the end of described binder cylinder 205 connects a binder block 206, and binder block 206 end can To arrange cushion.

On support 100 and be positioned at the lower section of cutting mechanism 20 and be provided with a discharge mechanism 2, described discharge mechanism 2 includes For the discharge groove 21 discharged by the metal after cutting, described discharge groove 21 includes first row hopper 21 He being inclined to set The second row hopper 26 being flexibly connected with first row hopper 21, described second row hopper 26 is provided with one can drive second row The discharge groove driver 22 that hopper 26 moves, described discharge groove driver 22 is fixed on support 100.

First row hopper 21 is fixed on support 100, and first row hopper 21 is positioned at second row away from one end of cleavage block 203 In hopper 26 and and second row hopper 26 between there is gap, described first row hopper 21 is fixed on support 100 and is positioned at Below cleavage block 203

One piece of deceleration bar 23 protruded from bottom first row hopper 21, the width of this deceleration bar 23 it is provided with in first row hopper 21 Spending identical with the width of first row hopper 21, described discharge groove driver 22 includes that discharge groove drives cylinder 24, described row Hopper drives cylinder 24 to be fixed on support 100, and discharge groove drives the outfan of cylinder 24 to be connected with second row hopper 26, and second The bottom of discharge groove 26 is fixed with one piece of discharge groove connecting plate 25, and described discharge groove drives outfan and the discharge groove of cylinder 24 Connecting plate 25 is hinged.

The work process of cutting mechanism 20 is: metal 200 to be cut is placed in chute feeder 11, and mobile setpoint distance is extremely After corresponding with cutting sheet 201, cutting sheet driver drives cutting sheet 201 rotates, and cleavage block driver 202 pulls cleavage block 203 Move to metal 200 to be cut, after cutting sheet 201 contacts, i.e. form cutting, cleavage block driver in cutting process 202 persistently pull cleavage block 203 until having cut, and after having cut, cleavage block driver 202 promotes cleavage block 203 to reset. Metal after cutting drops in first row hopper 21, runs into deceleration bar 23 and slows down, and enters in second row hopper 26 and discharges.

As it is shown in figure 5, feed mechanism 60 includes the material feeding seat 601 being flexibly connected with support 100, described material feeding seat 601 It is provided with a material feed clamping assembly that can clamp metal to be cut when metal to be cut is placed on material feeding seat 601 403602, material feeding seat 601 can move forward and backward thus metal to be cut is sent to be positioned at the cutting mechanism of material feeding seat 601 end In 20, described cutting mechanism 20 is arranged on support 100.

Material feeding seat 601 connects servo-driver 603, and support 100 is fixed with at least two litter being parallel to each other 604, Material feeding seat 601 is set on litter 604 and can move forward and backward along litter 604 under the driving of servo-driver 603.

Material feed clamping assembly 602 includes the positioning splint 605 that is fixed on material feeding seat 601 and relative with positioning splint 605 The clamping block assembly 606 put and be flexibly connected with material feeding seat 601, described clamping block assembly 606 can be to the side of positioning splint 605 Moving back and forth forwards, backwards, described clamping block assembly 606 includes material feed clamping cylinder 607 and defeated with material feed clamping cylinder 607 Go out the fixing material feed clamping block 608 connected of end, the support that described material feed clamping block 608 is opposite with positioning splint 605, described A cutting opposite with cutting mechanism 20 it is additionally provided with against plate 609 on 100.

Cut against the inclined shape in plate 609 top, and the plane that the cutting of cutting mechanism 20 is residing for sheet 610 is positioned at cutting and supports Outside the end of backup plate 609, cutting mechanism 20 will not cut against plate 609 in basis in cutting process, cuts against plate to be cut The metal 200 cut plays positioning action, prevents from shaking in cutting process, thus improves cutting accuracy.Clamping block assembly 606 also include the lead assembly 611 being fixed on material feeding seat 601, and the end of described lead assembly 611 is fixing connects folder Tight block 608, lead assembly 611 can be the structure that slide bar adds locating piece.

The work process of feed mechanism 60 is: metal 200 to be cut is placed on material feeding seat 601, material feed clamping cylinder 607 actions promote material feed clamping blocks 608 to travel forward and prop up the side of metal 200 to be cut, the metal 200 of cutting another Side props up positioning splint 605, thus realizes fixing, and servo-driver 603 action, material feeding seat 601 travels forward along litter 604 And drive the metal 200 of cutting to move forward at cutting mechanism 20, now can open cutting mechanism 20 and carry out cutting operation, In cutting process, metal 200 to be cut abuts against the cutting opposite with cutting mechanism 20 against on plate 609, cuts through Cheng Buhui shakes, and makes cutting steady, and precision improves.

After having cut, material feed clamping cylinder 607 is return, and unclamps metal, and material feeding seat 601 is return, material feed clamping cylinder 607 Work clamping metal again, material feeding seat 601 brought forward metal again, the like.

As shown in Figure 6 and Figure 7, feed mechanism 60 connect have chute feeder mechanism 40, described chute feeder mechanism 40 include with The fixing frame 101 connected of support 100, chute feeder 401 is positioned at frame 101 top and connects cutting mechanism 20, described feeding There is bottom groove 401 some rolling feeding material components 402 evenly distributed along the axially spaced-apart of chute feeder 401, described frame 101 On be additionally provided with one and can move to the direction of chute feeder 401 thus clamp the clamp assembly of the metal to be cut in chute feeder 401 403。

Metal 200 to be cut is put in chute feeder 401, is clamped assembly 403 and clamps, when clamping cuts metal Cut, prevent metal 200 to be cut from rocking in cutting process, thus improve cutting accuracy.Roll feeding material component 402 to be used for carrying Metal 200 to be cut, course of conveying is the most reliable.

Specifically, chute feeder 401 includes two the feeding bars 404 being parallel to each other being arranged on frame 101 sidepiece, feeding The cross section of bar 404 is preferably rectangular, and the described feeding material component 402 that rolls includes two opposite feed spool bearings 405, two Feed spool bearing 405 is fixing one to one with two feeding bars 404 respectively to be connected, and the two ends of feeding rolling roller 406 are inserted respectively Enter in two feed spool bearings 405 and be rotationally connected with feed spool bearing 405, when metal 200 to be cut is placed on feeding rolling Time on action roller 406, playing the effect rolling feeding, feeding process is steady.

Feed spool bearing 405 near frame 101 side is provided with one, and position is fixed and energy is along week in the horizontal direction To the anti-deviation assembly 407 rotated, prevent metal 200 to be cut from departing from chute feeder 401.Anti-deviation assembly 407 includes and feeding The fixing anti-deviation locating dowel 408 connected of bearing block 405 and be set in anti-deviation locating dowel 408 and with anti-deviation locating dowel The 408 anti-deviation rolling posts 409 being rotationally connected.

Clamp assembly 403 includes the some feeding locating racks 410 being arranged in frame 101, described feeding locating rack 410 Axially spaced-apart along chute feeder 401 arranges uniformly, and feeding locating rack 410 is positioned at the outside of chute feeder 401, described frame On 101 and be positioned at the inner side of chute feeder 401 and be provided with a clamping block assembly 411 that can move to the direction of feeding locating rack 410. Clamping block assembly 411 includes clamping block 412 and clamping block drive mechanism 413, and described clamping block drive mechanism 413 passes through transmission Part 414 is hinged with clamping block 412.

Clamping block drive mechanism 413 includes connecting the clamping block bull stick 415 that can circumferentially rotate having driver, described Driving member 414 includes the first drive link 416 and the second drive link 417, and wherein, one end of the first drive link 416 turns with clamping block Bar 415 is fixing to be connected, and the other end and the second drive link 417 are hinged, and the second drive link 417 is away from one end of the first drive link 416 Hinged with clamping block 412, described clamping block 412 is positioned at above chute feeder 401.Feeding locating rack 410 is movable with frame 101 even Connecing, and on feeding locating rack 410, connection has screw mandrel, screw mandrel can connect motor or rotation cylinder, and when screw mandrel rotates, feeding is fixed Position frame 410 can move thus in the horizontal direction closer or far from clamping block assembly 411.

The work process of chute feeder mechanism 40 is: when needs feeding, and metal 200 to be cut rolls along feeding rolling roller 406 Dynamic, it is sent in cutting mechanism, in feeding process, both sides are played fixed by anti-deviation rolling post 409 and feeding locating rack 410 Position, prevents metal 200 to be cut from departing from chute feeder 401, when needs cut, clamps block drive mechanism 413 action, drives first Drive link 416 and the second drive link 417 thus drive clamping block 412 near metal 200 to be cut, metal 200 to be cut is respectively Hold out against with feeding locating rack 410 and clamping block 412, cutting process maintains stationary state, improves cutting accuracy.

As illustrated in figures 1 and 8, frame 101 is provided with a material stock frame 301, and described material stock frame 301 is near chute feeder One end of mechanism 40 is flexibly connected with frame 101, and the other end can vertically rise or fall so that material stock frame 301 is in inclining The angle of inclination of material stock frame 301 is tiltedly set or adjusted, when metal to be cut is placed on material stock frame 301, metal energy to be cut Roll in chute feeder mechanism 40 along material stock frame 301, be provided with a blocking mechanism 303, described stop at frame 101 top Mechanism 303 can vertically rise or fall and can block the gold to be cut on material stock frame 301 when blocking mechanism 303 rises Belonging to, described material stock frame 301 includes some arranged in parallel depositing material rack component 304 at frame 101 top, this material stock frame group Part 304 includes support bar 305 and the altitude mixture control bar 306 hinged with support bar 305, and described support bar 305 is adjusted away from height One end of joint bar 306 is hinged with frame 101, and described altitude mixture control bar 306 is flexibly connected with frame 101 and can be vertically Lifting.

Evenly spaced on altitude mixture control bar 306 being provided with some draw-in grooves 307, described frame 101 is provided with and draw-in groove 307 The card article 308 matched, when draw-in groove 307 is embedded in card article 308, described altitude mixture control bar 306 is fixing with frame 101 even Connect.

Material stock frame 301 also include being fixed on frame 101 top and with deposit material rack component 304 material stock plate 309 one to one, Described material rack component 304 of depositing is arranged on material stock plate 309, the spaced uniform setting of material stock plate 309.Support bar 305 with Material stock plate 309 is hinged, and card article 308 is arranged on material stock plate 309.

Blocking mechanism 303 includes the barrier plate 310 being arranged on material stock plate 309, and described barrier plate 310 can be along vertically side Ramping up or decline, when barrier plate 310 rises, described barrier plate 310 can extend above support bar 305, works as barrier plate During 310 decline, described barrier plate 310 is retracted into below barrier plate 310 top.Barrier plate 310 is near chute feeder mechanism 302 Side be provided with a barrier plate accommodating between 311, described barrier plate 310 be movably connected in barrier plate accommodating between in 311, described Barrier plate 310 connects elevating lever 312, and elevating lever 312 connects the cylinder being vertically arranged.

Shown in Fig. 1, the barrier plate 310 on each material stock plate 309 is connected on elevating lever 312 so that barrier plate 310 can be with elevating lever 312 synchronization lifting, and elevating lever 312 can connect the driver such as cylinder, oil cylinder makes elevating lever 312 lift.

Chute feeder mechanism 302 includes that bottom is provided with the chute feeder 314 of some roll wheel assemblies 313, and the side of chute feeder 314 sets Having some backgauge bars 315, play sidepiece positioning action, opposite side is provided with some movable barrier being connected with chute feeder 314 rolling Frame 316.Movable barrier frame 316 includes that be vertically arranged in chute feeder 314 stops post 317 and be set on stop post 317 Movable barrier set 318.Metal 200 to be cut along chute feeder 314 roll time, movable barrier set 318 play sidepiece stop location make With, and with metal 200 to be cut rolling friction, do not result in damage.

The work process of material stock frame 301 is: metal 200 to be cut is placed sequentially on the support bar 305 of material stock frame 301, Regulated the gradient of support bar 305 by altitude mixture control bar 306, elevating lever 312 declines, and barrier plate 310 declines, metal to be cut 200 roll in chute feeder 314, and elevating lever 312 rises, and barrier plate 310 rises, and stop metal 200 to be cut to roll into feeding In groove 314, the backgauge bar 315 of the both sides of chute feeder 314 and movable barrier set 318 each serve as positioning action.

Specific embodiment described herein is only to this utility model spirit explanation for example.This utility model institute Belong to those skilled in the art described specific embodiment to make various amendment or supplement or use similar Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Although the most more employ support 100, frame 101, chute feeder 11, discharge mechanism 2, cutting mechanism 20, One discharge groove 21, discharge groove driver 22, deceleration bar 23, discharge groove drive cylinder 24, discharge groove connecting plate 25, second row hopper 26, metal 200 to be cut, cutting sheet 201, cleavage block driver 202, cleavage block 203, feeding pressure mechanism 204, binder cylinder 205, binder block 206, material stock frame 301, chute feeder mechanism 302, blocking mechanism 303, deposit material rack component 304, support bar 305, high Between degree adjustment bar 306, draw-in groove 307, card article 308, material stock plate 309, barrier plate 310, barrier plate are accommodating 311, elevating lever 312, rolling Wheel assembly 313, chute feeder 314, backgauge bar 315, movable barrier frame 316, stop post 317, movable barrier set 318, feeding scouring machine Structure 40, chute feeder 401, rolling feeding material component 402, clamp assembly 403, feeding bar 404, feed spool bearing 405, feeding roll Roller 406, anti-deviation assembly 407, anti-deviation locating dowel 408, anti-deviation rolling post 409, feeding locating rack 410, clamping block assembly 411, clamping block 412, clamping block drive mechanism 413, driving member 414, clamping block bull stick the 415, first drive link 416, second pass Lever 417, feed mechanism 60, material feeding seat 601, material feed clamping assembly 602, servo-driver 603, litter 604, positioning splint 605, clamping block assembly 606, material feed clamping cylinder 607, material feed clamping block 608, cutting are against plate 609, cutting sheet 610, guiding Column assembly 611 term such as grade, but it is not precluded from using the probability of other term.These terms are used to be only used to more easily Describe and explain essence of the present utility model；Being construed as any additional restriction is all and this utility model spirit Contrary.

Claims (10)

1. a high-velocity wire cutting circular sawing machine, including support (100), described support (100) is provided with cutting mechanism (20), Described support (100) connects feed mechanism (60), it is characterised in that described cutting mechanism (20) includes cutting sheet (201) and with the cutting sheet driver of cutting sheet (201) drive connection, being provided with one on support (100), have can be along axle To the cleavage block driver (202) of reciprocating outfan, in cutting sheet (201) is arranged on cleavage block (203) and with cutting Seat (203) is flexibly connected, and the bottom of cleavage block (203) is hinged with support (100), and the top of cleavage block (203) is driven with cleavage block The outfan of dynamic device (202) is hinged.

High-velocity wire the most according to claim 1 cutting circular sawing machine, it is characterised in that described cleavage block driver (202) outfan is in being horizontally disposed with, and cleavage block driver (202) is cylinder or oil cylinder, and described support (100) is additionally provided with One feeding pressure mechanism (204), this feeding pressure mechanism (204) can vertically pump, when feeding pressure mechanism (204) down Feeding pressure mechanism (204) described in during motion can push down metal to be cut, when feeding pressure mechanism (204) up moves, and swager Structure (204) departs from metal to be cut.

High-velocity wire the most according to claim 1 cutting circular sawing machine, it is characterised in that on described support (100) and position Be provided with a discharge mechanism (2) in the lower section of cutting mechanism (20), described discharge mechanism (2) includes for by the gold after cutting Belong to the discharge groove (21) discharged, described discharge groove (21) include the first row hopper (21) that is inclined to set and with the first discharge The second row hopper (26) that groove (21) is flexibly connected, described second row hopper (26) is provided with one and can drive second row hopper (26) the discharge groove driver (22) of movement, described discharge groove driver (22) is fixed on support (100).

High-velocity wire the most according to claim 3 cutting circular sawing machine, it is characterised in that first row hopper (21) is fixed on machine On seat (100), first row hopper (21) away from one end of cleavage block (203) be positioned at second row hopper (26) and with the second discharge Having gap between groove (26), described first row hopper (21) is fixed on support (100) and above and is positioned at cleavage block (203) lower section

High-velocity wire the most according to claim 4 cutting circular sawing machine, it is characterised in that in described first row hopper (21) It is provided with one piece of deceleration bar (23) protruding from first row hopper (21) bottom, the width of this deceleration bar (23) and first row hopper (21) width is identical, and described discharge groove driver (22) includes that discharge groove drives cylinder (24), described discharge groove to drive Cylinder (24) is fixed on support (100), and discharge groove drives the outfan of cylinder (24) to be connected with second row hopper (26), and second The bottom of discharge groove (26) is fixed with one piece of discharge groove connecting plate (25), described discharge groove drive the outfan of cylinder (24) with Discharge groove connecting plate (25) is hinged.

High-velocity wire the most according to claim 1 cutting circular sawing machine, it is characterised in that described feed mechanism (60) includes The material feeding seat (601) being flexibly connected with support (100), described material feeding seat (601) is provided with one and puts when metal to be cut Putting the material feed clamping assembly (602) that can clamp metal to be cut when material feeding seat (601) is upper, material feeding seat (601) can front and back move Move thus be sent to metal to be cut be positioned in the cutting mechanism (20) of material feeding seat (601) end, described cutting mechanism (20) it is arranged on support (100).

High-velocity wire the most according to claim 6 cutting circular sawing machine, it is characterised in that described material feeding seat (601) connects Servo-driver (603), support (100) is fixed with at least two litter being parallel to each other (604), and material feeding seat (601) is sheathed Above and can move forward and backward along litter (604) under the driving of servo-driver (603) at litter (604).

High-velocity wire the most according to claim 7 cutting circular sawing machine, it is characterised in that described material feed clamping assembly (602) positioning splint (605) that is fixed on material feeding seat (601) and and and material feeding seat opposite with positioning splint (605) are included (601) the clamping block assembly (606) being flexibly connected, described clamping block assembly (606) can be before the direction of positioning splint (605) After move back and forth, described clamping block assembly (606) include material feed clamping cylinder (607) and with material feed clamping cylinder (607) The material feed clamping block (608) of connection fixed by outfan, and described material feed clamping block (608) is opposite with positioning splint (605), institute A cutting opposite with cutting mechanism (20) it is additionally provided with against plate (609) on the support (100) stated.

High-velocity wire the most according to claim 1 cutting circular sawing machine, it is characterised in that described feed mechanism (60) connects Chute feeder mechanism (40), described chute feeder mechanism (40) is had to include the frame (101) that be connected fixing with support (100), feeding Groove (401) is positioned at frame (101) top and connects cutting mechanism (20), and described chute feeder (401) bottom has some edges and send The rolling feeding material component (402) that the axially spaced-apart of hopper (401) is evenly distributed, described frame (101) is additionally provided with an energy Move to the direction of chute feeder (401) thus clamp the clamp assembly (403) of the metal to be cut in chute feeder (401).

High-velocity wire the most according to claim 9 cutting circular sawing machine, it is characterised in that described frame (101) is provided with One material stock frame (301), described material stock frame (301) is flexibly connected with frame (101) near one end of chute feeder mechanism (40), The other end can vertically rise or fall so that material stock frame (301) is inclined to set or adjusts inclining of material stock frame (301) Rake angle, when metal to be cut is placed on material stock frame (301), metal to be cut can roll into along material stock frame (301) and send In trough mechanism (40), being provided with a blocking mechanism (303) at frame (101) top, described blocking mechanism (303) can be along perpendicular Nogata ramps up or declines and work as when blocking mechanism (303) rises and can block the metal to be cut on material stock frame (301), described Material stock frame (301) includes some arranged in parallel depositing material rack component (304) at frame (101) top, and this deposits material rack component (304) including support bar (305) and the altitude mixture control bar (306) hinged with support bar (305), described support bar (305) is remote Hinged with frame (101) from one end of altitude mixture control bar (306), described altitude mixture control bar (306) is movable with frame (101) even Connect and can vertically lift.