CN106001757B - High-velocity wire cuts circular sawing machine - Google Patents

Abstract

The invention belongs to Metal Cutting technical fields, are related to a kind of high-velocity wire cutting circular sawing machine.It includes base, the base is equipped with cutting mechanism, the base is connected with feeding mechanism, the cutting mechanism includes cutting sheet and the cutting sheet driver with cutting sheet drive connection, a cleavage block driver with the output end that can axially move back and forth is equipped on base, cutting sheet is arranged in cleavage block and is flexibly connected with cleavage block, and the bottom of cleavage block and base are hinged, and the top of cleavage block and the output end of cleavage block driver are hinged.Cutting speed of the present invention is fast, high-efficient, and precision is high.

Description

High-velocity wire cuts circular sawing machine

Technical field

The invention belongs to Metal Cutting technical fields, are related to a kind of high-velocity wire cutting circular sawing machine.

Background technique

Circular sawing machine can be divided into metal annular sawing machine and woodworking circular sawing machine according to converted products.Be divided into according to feeding mode it is vertical, It is horizontal and scissor.It can be divided into manually according to control mode, it is 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 contact realization cutting with metal by the way of moving horizontally, and cutting speed is slow.

As Chinese patent literature disclose a kind of slideway type metal circular saw [application number: 201110246519.4], including Fuselage, the feed device being mounted on fuselage, feed arrangement, servo motor and electric cabinet, further include by oil cylinder and inductor Realize the automatic feed preparation device of automatic charging feeding.The present invention can quick sawing various cross sectional shapes steel, the metals such as iron material Material, no material autostop, sawdust centralized collection have single or a plurality of material automatic charging, self-feeding, scale, automatic The integrated functions such as clamping, cutting, the built-in automatic lubricating system of complete each moving part of machine, easy maintenance save the working time, Ergonomic is greatly improved, is the perfect efficient metal annular sawing machine of a sawing precision.

Although above scheme provides sawing precision, saw cutting speed is not still improved.

Summary of the invention

Regarding the issue above, the present invention provides a kind of high-velocity wire cuts circular sawing machine.

In order to achieve the above objectives, present invention employs following technical proposals: a kind of high-velocity wire cutting circular sawing machine, including machine Seat, the base are equipped with cutting mechanism, and the base is connected with feeding mechanism, and the cutting mechanism includes cutting sheet And the cutting sheet driver being drivingly connected with cutting sheet, being equipped with one on base has the output that can axially move back and forth The cleavage block driver at end, cutting sheet are arranged in cleavage block and are flexibly connected with cleavage block, and the bottom of cleavage block and base are cut with scissors It connects, the top of cleavage block and the output end of cleavage block driver are hinged.

In above-mentioned high-velocity wire cutting circular sawing machine, the output end of the cleavage block driver is cut in being horizontally disposed with Cutting a driver is cylinder or oil cylinder, is additionally provided with a feeding pressure mechanism on the base, which can be along the vertical direction Pump, when feeding pressure mechanism moves down described in feeding pressure mechanism can push down metal to be cut, work as feeding pressure mechanism When up moving, feeding pressure mechanism and metal to be cut are detached from.

In above-mentioned high-velocity wire cutting circular sawing machine, on the base and it is located at the lower section of cutting mechanism equipped with one Discharge mechanism, the discharge mechanism include the discharge groove for the metal discharge after cutting, and the discharge groove includes being in The first discharge groove being obliquely installed and the second discharge groove being flexibly connected with the first discharge groove, second discharge groove are equipped with One discharge groove driver that the second discharge groove can be driven mobile, the discharge groove driver are fixed on base.

In above-mentioned high-velocity wire cutting circular sawing machine, first discharge groove is fixed on base, the first discharge groove One end far from cleavage block is located in the second discharge groove and has gap between the second discharge groove, and first discharge groove is solid It is scheduled on base and is located at below cleavage block

In above-mentioned high-velocity wire cutting circular sawing machine, one piece is equipped in first discharge groove and protrudes from the first discharge The deceleration item of trench bottom, the width of the deceleration item is of same size with the first discharge groove, and the discharge groove driver includes row Hopper drives cylinder, and the discharge groove driving cylinder is fixed on base, and discharge groove drives the output end and second row of cylinder Hopper connection, the bottom of the second discharge groove are fixed with one piece of discharge groove connecting plate, the output end of the discharge groove driving cylinder It is hinged with discharge groove connecting plate.

In above-mentioned high-velocity wire cutting circular sawing machine, the feeding mechanism includes the feeding being flexibly connected with base Seat, the material feeding seat, which is equipped with one, can clamp sending for metal to be cut when metal to be cut is placed on material feeding seat Expect clamping component, material feeding seat can be moved forward and backward metal to be cut being sent to the cutting mechanism positioned at material feeding seat end In, the cutting mechanism is arranged on base.

In above-mentioned high-velocity wire cutting circular sawing machine, the material feeding seat connects servo-driver, is fixed on base At least two litter being parallel to each other, material feeding seat are set on litter and can move before and after litter under the driving of servo-driver It is dynamic.

In above-mentioned high-velocity wire cutting circular sawing machine, the material feed clamping component includes being fixed on material feeding seat to determine Position clamping plate and clamping block assembly that is opposite with positioning splint and being flexibly connected with material feeding seat, the clamping block assembly can be to calmly Position clamping plate direction before and after move back and forth, the material feed clamping block assembly include material feed clamping cylinder and with material feed clamping cylinder The material feed clamping block that is fixedly connected of output end, the material feed clamping block is opposite with positioning splint, on the base also Equipped with a cutting abutment plate opposite with cutting mechanism.

It further include a feeding mechanism, the feeding mechanism is connected in above-mentioned high-velocity wire cutting circular sawing machine Feeding groove mechanism, the feeding groove mechanism include the rack being fixedly connected with base, and chute feeder is located at frame top and connection Cutting mechanism, the rolling feeding material component that the feeding trench bottom has several axially spaced-aparts along chute feeder evenly distributed, institute One is additionally provided in the rack stated can be to the mobile clamping group to clamp the metal to be cut in chute feeder in the direction of chute feeder Part.

In above-mentioned high-velocity wire cutting circular sawing machine, the rack is equipped with a material stock frame, the material stock frame It is flexibly connected close to one end of feeding groove mechanism with rack, the other end can be risen or fallen along the vertical direction to make the material stock frame be in It is obliquely installed or adjusts the tilt angle 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 into feeding groove mechanism, is equipped with a blocking mechanism in frame top, the blocking mechanism can be along vertical side The metal to be cut on material stock frame is ramped up or declines and can block when blocking mechanism rises, the material stock frame includes several Arranged in parallel to deposit material rack component in frame top, it includes support bar and the height hinged with support bar that this, which deposits material rack component, Adjustment bar, the one end of the support bar far from height adjustment item and rack are hinged, the height adjustment item and rack activity It connects and can go up and down along the vertical direction.

Compared with the prior art, the advantages of the present invention are as follows:

1, when cutting metal, cutting sheet oblique movement from top to bottom generates the effect of two power, improves cutting speed Degree, the structure of chute feeder can to different direction feedings, convenient for the product of cutting different size, improve the degree of automation and Working efficiency.

2, material stock frame which has a compact structure and a reasonable design, is set up directly in rack, occupies little space, and can reach self-feeding Effect.

3, feeding mechanism keeps feeding process steadily reliable, can clamp metal in cutting, improve cutting accuracy.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of cutting mechanism；

Fig. 3 is the structural schematic diagram of discharge mechanism；

Fig. 4 is the structural schematic diagram in another direction Fig. 3；

Fig. 5 is the structural schematic diagram of feeding mechanism；

Fig. 6 is the partial schematic diagram of feeding groove mechanism；

Fig. 7 is the structural schematic diagram of feeding groove mechanism；

Fig. 8 is the structural schematic diagram of material stock frame.

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

Specific embodiment

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

As shown in Figs 1-4, a kind of high-velocity wire cuts circular sawing machine, including base 100, and the base 100 is equipped with and cuts Cutting mill structure 20, the base 100 are connected with feeding mechanism 60, the cutting mechanism 20 include cutting sheet 201 and with cutting The cutting sheet driver (not shown) that piece 201 is drivingly connected, cutting sheet driver is preferably hydraulic motor, is also possible to electricity Machine is equipped with a cleavage block driver 202 with the output end that can axially move back and forth, cutting sheet on base 100 201 are arranged in cleavage block 203 and are flexibly connected with cleavage block 203, and the bottom of cleavage block 203 and base 100 are hinged, cleavage block 203 top and the output end of cleavage block driver 202 are hinged.

The cutting sheet of existing metal-shearing machine is cut by the way of moving in parallel, in the present embodiment, When cleavage block driver 202 pulls cleavage block 203 mobile, since cleavage block 203 and base 100 are hinged, cleavage block 203 In oblique movement from top to bottom, cutting sheet 201 is identical as the motion profile of cleavage block 203, in this motion process, cutting sheet 201 generate two power, and one is power straight down, the power being horizontally oriented, under the action of two power, cutting speed It significantly improves

Specifically, for the output end of cleavage block driver 202 in being horizontally disposed with, cleavage block driver 202 is cylinder or oil Cylinder is additionally provided with a feeding pressure mechanism 204 on the base 100, which can up and down reciprocatingly transport along the vertical direction It is dynamic, when feeding pressure mechanism 204 moves down described in feeding pressure mechanism 204 can push down metal to be cut, when feeding pressure mechanism 204 is past When upper movement, feeding pressure mechanism 204 and metal to be cut are detached from.Specifically, feeding pressure mechanism 204 includes being vertically arranged in base Press cylinder 205 on 100, the end of the press cylinder 205 are connected with a binder block 206, and 206 end of binder block can Elastic cushion is arranged.

Lower section on base 100 and positioned at cutting mechanism 20 is equipped with a discharge mechanism 2, and the discharge mechanism 2 includes For the first discharge groove 21 of the metal discharge after cutting, first discharge groove 21 includes the first row being inclined to set Hopper 21 and the second discharge groove 26 being flexibly connected with the first discharge groove 21, second discharge groove 26 are equipped with one and can drive The mobile discharge groove driver 22 of dynamic second discharge groove 26, the discharge groove driver 22 are fixed on base 100.

First discharge groove 21 is fixed on base 100, and the first discharge groove 21 is located at second row far from one end of cleavage block 203 There is gap, first discharge groove 21 is fixed on base 100 and is located in hopper 26 and between the second discharge groove 26 203 lower section of cleavage block

One piece of deceleration item 23 for protruding from 21 bottom of the first discharge groove, the width of the deceleration item 23 are equipped in first discharge groove 21 Spending discharge groove driver 22 of same size with the first discharge groove 21, described includes that discharge groove drives cylinder 24, the row Hopper driving cylinder 24 is fixed on base 100, and the output end of discharge groove driving cylinder 24 is connect with the second discharge groove 26, and second The bottom of discharge groove 26 is fixed with one piece of discharge groove connecting plate 25, the output end and discharge groove of the discharge groove driving cylinder 24 Connecting plate 25 is hinged.

The course of work of cutting mechanism 20 is: metal 200 to be cut is placed in chute feeder 11, and mobile set distance is extremely After corresponding with cutting sheet 201, cutting sheet driver drives cutting sheet 201 to rotate, and cleavage block driver 202 pulls cleavage block 203 It is mobile to metal 200 to be cut, cutting, cleavage block driver in cutting process are formed after cutting sheet 201 contacts 202 persistently pull cleavage block 203 until cutting is completed, and after the completion of cutting, cleavage block driver 202 pushes cleavage block 203 to reset. Metal after cutting drops into the first discharge groove 21, encounters the deceleration of deceleration item 23, enters in the second discharge groove 26 and be discharged.

As shown in figure 5, feeding mechanism 60 includes the material feeding seat 601 being flexibly connected with base 100, the material feeding seat 601 It is equipped with the material feed clamping component that metal to be cut can be clamped when metal to be cut is placed on material feeding seat 601 403602, material feeding seat 601 can be moved forward and backward metal to be cut being sent to the cutting mechanism positioned at 601 end of material feeding seat In 20, the cutting mechanism 20 is arranged on base 100.

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

Material feed clamping component 602 includes the positioning splint 605 that is fixed on material feeding seat 601 and opposite with positioning splint 605 The clamping block assembly 606 set and be flexibly connected with material feeding seat 601, the clamping block assembly 606 can be to the side of positioning splint 605 It moves back and forth forwards, backwards, the clamping block assembly 606 includes material feed clamping cylinder 607 and defeated with material feed clamping cylinder 607 The material feed clamping block 608 that outlet is fixedly connected, the material feed clamping block 608 and opposite, the described base of positioning splint 605 A cutting abutment plate 609 opposite with cutting mechanism 20 is additionally provided on 100.

It is oblique to cut 609 top of abutment plate, and plane locating for the cutting sheet 610 of cutting mechanism 20 is located at cutting and supports Outside the end of backup plate 609, cutting mechanism 20 basic will not cut abutment plate 609 in cutting process, cut abutment plate to be cut The metal 200 cut plays positioning action, prevents from shaking in cutting process, to improve cutting accuracy.Clamp block assembly 606 further include the guiding column assembly 611 being fixed on material feeding seat 601, and the end of the guiding column assembly 611 is fixedly connected with folder Tight block 608, guiding column assembly 611 can be the structure that slide bar adds locating piece.

The course of work of feeding mechanism 60 is: metal 200 to be cut is placed on material feeding seat 601, material feed clamping cylinder 607 movements push material feed clamping blocks 608 to travel forward and resists the side of metal 200 to be cut, the metal 200 of cutting it is another Side resists positioning splint 605, to realize fixation, servo-driver 603 is acted, and material feeding seat 601 travels forward simultaneously along litter 604 It drives the metal 200 of cutting to move forward at cutting mechanism 20, cutting mechanism 20 can be opened at this time and carry out cutting operation, In cutting process, metal 200 to be cut is abutted against in the cutting abutment plate 609 opposite with cutting mechanism 20, cutting process It will not shake, keep cutting steady, precision improves.

After the completion of cutting, material feed clamping cylinder 607 is retracted, and unclamps metal, and material feeding seat 601 is retracted, material feed clamping cylinder 607 It works again and clamps metal, the brought forward metal again of material feeding seat 601, and so on.

As shown in Figure 6 and Figure 7, feeding mechanism 60 is connected with feeding groove mechanism 40, the feeding groove mechanism 40 include with The rack 101 that base 100 is fixedly connected, chute feeder 401 are located at 101 top of rack and connection cutting mechanism 20, the feeding 401 bottom of slot has the evenly distributed rolling feeding material component 402 of several axially spaced-aparts along chute feeder 401, the rack 101 On be additionally provided with one can be to the mobile clamping component to clamp the metal to be cut in chute feeder 401 in the direction of chute feeder 401 403。

Metal 200 to be cut is put into chute feeder 401, is clamped component 403 and is clamped, cuts when clamping to metal It cuts, prevents metal 200 to be cut from shaking in cutting process, to improve cutting accuracy.Feeding material component 402 is rolled for conveying Metal 200 to be cut, transmission process is steadily reliable.

Specifically, chute feeder 401 includes two feeding items 404 being parallel to each other that 101 side of rack is arranged in, feeding The section of item 404 is preferably rectangle, the rolling feeding material component 402 include two opposite feeding bearing blocks 405, two Feeding bearing block 405 is fixedly connected with two feeding items 404 correspondingly respectively, and the both ends of feeding rolling roller 406 are inserted respectively Enter into two feeding bearing blocks 405 and be rotatablely connected with feeding bearing block 405, when metal 200 to be cut is placed on feeding rolling When on dynamic roller 406, the effect for rolling feeding is played, feeding process is steady.

Close to 101 side of rack feeding bearing block 405 be equipped with one in the horizontal direction position fix and can be along week To the anti-deviation component 407 of rotation, metal 200 to be cut is prevented to be detached from chute feeder 401.Anti-deviation component 407 includes and feeding Anti-deviation positioning column 408 that bearing block 405 is fixedly connected and be set on anti-deviation positioning column 408 and with anti-deviation positioning column The anti-deviation rolling column 409 of 408 rotation connections.

Clamping component 403 includes several feeding locating racks 410 being arranged in rack 101, the feeding locating rack 410 Axially spaced-apart along chute feeder 401 uniformly arranges, and feeding locating rack 410 is located at the outside of chute feeder 401, the rack On 101 and it is located at the inside of chute feeder 401 equipped with a clamping block assembly 411 that can be mobile to the direction of feeding locating rack 410. Clamping block assembly 411 includes gripping block 412 and gripping block driving mechanism 413, and the gripping block driving mechanism 413 passes through transmission Part 414 and gripping block 412 are hinged.

Gripping block driving mechanism 413 includes the gripping block bull stick 415 that can circumferentially rotate for being connected with driver, described Driving member 414 includes the first drive rod 416 and the second drive rod 417, wherein one end of the first drive rod 416 and gripping block turn Bar 415 is fixedly connected, and the other end and the second drive rod 417 are hinged, the one end of the second drive rod 417 far from the first drive rod 416 Hinged with gripping block 412, the gripping block 412 is located at 401 top of chute feeder.Feeding locating rack 410 and 101 activity of rack are even It connects, and is connected with screw rod on feeding locating rack 410, screw rod can connect motor or rotation cylinder, and when screw rod rotation, feeding is fixed Position frame 410 can be moved in the horizontal direction to close to or far from clamping block assembly 411.

The course of work of feeding groove mechanism 40 is: when needing feeding, metal 200 to be cut is rolled along feeding rolling roller 406 It is dynamic, it is sent in cutting mechanism, in the feeding process, anti-deviation rolling column 409 and feeding locating rack 410 play two sides and determine Position prevents metal 200 to be cut to be detached from chute feeder 401, and when needing to cut, gripping block driving mechanism 413 is acted, driving first To drive gripping block 412 close to metal 200 to be cut, metal 200 to be cut is distinguished for drive rod 416 and the second drive rod 417 It is held out against with feeding locating rack 410 and gripping block 412, stationary state is maintained in cutting process, improve cutting accuracy.

As illustrated in figures 1 and 8, rack 101 is equipped with a material stock frame 301, and the material stock frame 301 is close to feeding scouring machine One end of structure 40 is flexibly connected with rack 101, and the other end can rise or fall to keep material stock frame 301 inclined along the vertical direction The tilt angle of material stock frame 301 is set or adjusted, when metal to be cut is placed on material stock frame 301, metal energy to be cut edge Material stock frame 301 roll into feeding groove mechanism 40, at the top of rack 101 be equipped with a blocking mechanism 303, the blocking machine Structure 303 can rise or fall along the vertical direction and can block the gold to be cut on material stock frame 301 when blocking mechanism 303 rises Belong to, the material stock frame 301 include it is several it is arranged in parallel deposit material rack component 304 at the top of rack 101, the material stock frame group Part 304 includes support bar 305 and the height adjustment item 306 hinged with support bar 305, and the support bar 305 is adjusted far from height One end and the rack 101 for saving item 306 are hinged, and the height adjustment item 306 is flexibly connected with rack 101 and can be along the vertical direction Lifting.

Evenly spaced on height adjustment item 306 to be equipped with several card slots 307, the rack 101 is equipped with and card slot 307 The strip 308 to match, when card slot 307 is embedded into strip 308, the height adjustment item 306 and the fixed company of rack 101 It connects.

Material stock frame 301 further include be fixed on the top of rack 101 and with deposit the one-to-one material stock plate 309 of material rack component 304, The material rack component 304 of depositing is arranged on material stock plate 309, and material stock plate 309 is spaced apart from each other uniform setting.Support bar 305 with Material stock plate 309 is hinged, and strip 308 is arranged on material stock plate 309.

Blocking mechanism 303 includes the barrier plate 310 being arranged on material stock plate 309, and the barrier plate 310 can be along vertical side It ramps up or declines, when barrier plate 310 rises, the barrier plate 310 can extend 305 top of support bar, work as barrier plate When 310 decline, the barrier plate 310 is retracted into 310 top lower section of barrier plate.Barrier plate 310 is close to feeding groove mechanism 302 Side is equipped with 311 between the accommodating of barrier plate, and the barrier plate 310 is movably connected in 311 between barrier plate accommodating, described Barrier plate 310 connects elevating lever 312, and elevating lever 312 is connected with the cylinder being vertically arranged.

As shown in connection with fig. 1, the barrier plate 310 on each material stock plate 309 is connected on elevating lever 312 to make barrier plate 310 can connect the drivers such as cylinder, oil cylinder with 312 synchronization lifting of elevating lever, elevating lever 312 goes up and down elevating lever 312.

Feeding groove mechanism 302 includes the chute feeder 314 that bottom is equipped with several roll wheel assemblies 313, and the side of chute feeder 314 is set There are several stop block material bars 315, play side positioning action, the other side is equipped with several movable barriers for rolling connection with chute feeder 314 Frame 316.Movable barrier frame 316 includes the blocking column 317 being vertically arranged in chute feeder 314 and is set on blocking column 317 Movable barrier set 318.When metal 200 to be cut is rolled along chute feeder 314, movable barrier set 318 plays side and positioning is stopped to be made With, and with 200 rolling friction of metal to be cut, not will cause damage.

The course of work of material stock frame 301 is: metal 200 to be cut is placed sequentially on the support bar 305 of material stock frame 301, The gradient of support bar 305 is adjusted by height adjustment item 306, elevating lever 312 declines, and barrier plate 310 declines, metal to be cut 200 roll into chute feeder 314, and elevating lever 312 rises, and barrier plate 310 rises, and metal 200 to be cut is prevented to roll into feeding In slot 314, stop block material bar 315 and the movable barrier set 318 of the two sides of chute feeder 314 each serves as positioning action.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although base 100, rack 101, chute feeder 11, discharge mechanism 2, cutting mechanism 20, is used more herein One discharge groove 21, discharge groove driver 22, deceleration item 23, discharge groove drive cylinder 24, discharge groove connecting plate 25, the second discharge groove 26, metal 200 to be cut, cutting sheet 201, cleavage block driver 202, cleavage block 203, feeding pressure mechanism 204, press cylinder 205, binder block 206, material stock frame 301, feeding groove mechanism 302, blocking mechanism 303, deposit material rack component 304, be support bar 305, high Spend 311, elevating lever 312, rolling between adjustment bar 306, card slot 307, strip 308, material stock plate 309, barrier plate 310, barrier plate accommodating Wheel assembly 313, stop block material bar 315, movable barrier frame 316, stops column 317, movable barrier to cover 318, feeding scouring machine at chute feeder 314 Structure 40, rolls feeding material component 402, clamping component 403, feeding item 404, feeding bearing block 405, feeding rolling roller at chute feeder 401 406, anti-deviation component 407, anti-deviation positioning column 408, anti-deviation rolling column 409, feeding locating rack 410, clamping block assembly 411, gripping block 412, gripping block driving mechanism 413, driving member 414, gripping block bull stick 415, the first drive rod 416, second pass Lever 417, feeding mechanism 60, material feeding seat 601, material feed clamping component 602, servo-driver 603, litter 604, positioning splint 605, block assembly 606, material feed clamping cylinder 607, material feed clamping block 608, cutting abutment plate 609, cutting sheet 610, guiding are clamped The terms such as column assembly 611, but it does not exclude the possibility of using other terms.The use of these items is only for more easily Describe and explain essence of the invention；Being construed as any additional limitation is disagreed with spirit of that invention 's.

Claims (8)

1. a kind of high-velocity wire cuts circular sawing machine, including base (100), the base (100) is equipped with cutting mechanism (20), The base (100) is connected with feeding mechanism (60), which is characterized in that the cutting mechanism (20) includes cutting sheet (201) and with cutting sheet (201) the cutting sheet driver being drivingly connected, having on base (100) equipped with one can be along axis To the cleavage block driver (202) of the output end of reciprocating motion, cutting sheet (201) setting in cleavage block (203) and with cutting Seat (203) is flexibly connected, and hingedly, the top of cleavage block (203) and cleavage block drive for the bottom and base (100) of cleavage block (203) The output end of dynamic device (202) is hinged,

The feeding mechanism (60) is connected with feeding groove mechanism (40), and the feeding groove mechanism (40) includes and base (100) rack (101) being fixedly connected, chute feeder (401) is located at the top of rack (101) and connection cutting mechanism (20), described Chute feeder (401) bottom there is the evenly distributed rolling feeding material component (402) of several axially spaced-aparts along chute feeder (401), Be additionally provided in the rack (101) one can to the direction of chute feeder (401) it is mobile to clamp in chute feeder (401) to The clamping component (403) of metal is cut,

The rack (101) is equipped with a material stock frame (301), and the material stock frame (301) is close to feeding groove mechanism (40) One end be flexibly connected with rack (101), the other end can be risen or fallen along the vertical direction to keeping material stock frame (301) inclined The tilt angle of material stock frame (301) is set or adjusted, when metal to be cut is placed on material stock frame (301), metal to be cut It can be rolled into along material stock frame (301) in feeding groove mechanism (40), a blocking mechanism (303) is equipped at the top of rack (101), The blocking mechanism (303) can rise or fall along the vertical direction and can block material stock frame when blocking mechanism (303) rise (301) metal to be cut on, the material stock frame (301) include several depositing at the top of rack (101) arranged in parallel Material rack component (304), it includes support bar (305) and the height adjustment item hinged with support bar (305) that this, which deposits material rack component (304), (306), the support bar (305) far from height adjustment item (306) one end and rack (101) hingedly, the height tune Section item (306) is flexibly connected with rack (101) and can go up and down along the vertical direction,

Cutting sheet driver is hydraulic motor or motor.

2. high-velocity wire according to claim 1 cuts circular sawing machine, which is characterized in that the cleavage block driver (202) for output end in being horizontally disposed with, cleavage block driver (202) is cylinder or oil cylinder, and the base is additionally provided on (100) One feeding pressure mechanism (204), the feeding pressure mechanism (204) can pump along the vertical direction, when feeding pressure mechanism (204) down Feeding pressure mechanism (204) described in when movement can push down metal to be cut, when feeding pressure mechanism (204) up moves, swager Structure (204) and metal to be cut are detached from.

3. high-velocity wire according to claim 1 cuts circular sawing machine, which is characterized in that on the base (100) and position It is equipped with a discharge mechanism (2) in the lower section of cutting mechanism (20), the discharge mechanism (2) includes for the gold after cutting Belong to discharge the first discharge groove (21), first discharge groove (21) include the first discharge groove (21) being inclined to set and with The second discharge groove (26) that first discharge groove (21) is flexibly connected, second discharge groove (26), which is equipped with one, can drive the The mobile discharge groove driver (22) of two discharge grooves (26), the discharge groove driver (22) are fixed on base (100).

4. high-velocity wire according to claim 3 cuts circular sawing machine, which is characterized in that first discharge groove (21) is solid It is scheduled on base (100), it is interior and with that the first discharge groove (21) far from the one end of cleavage block (203) is located at the second discharge groove (26) There is gap, first discharge groove (21) is fixed on base (100) and is located at cleavage block between two discharge grooves (26) (203) lower section.

5. high-velocity wire according to claim 4 cuts circular sawing machine, which is characterized in that in first discharge groove (21) The deceleration item (23) of the first discharge groove (21) bottom, the width and the first discharge groove of the deceleration item (23) are protruded from equipped with one piece (21) of same size, the discharge groove driver (22) include discharge groove driving cylinder (24), the discharge groove driving Cylinder (24) is fixed on base (100), and the output end of discharge groove driving cylinder (24) is connect with the second discharge groove (26), and second The bottom of discharge groove (26) is fixed with one piece of discharge groove connecting plate (25), the output end of discharge groove driving cylinder (24) with Discharge groove connecting plate (25) is hinged.

6. high-velocity wire according to claim 1 cuts circular sawing machine, which is characterized in that the feeding mechanism (60) includes The material feeding seat (601) being flexibly connected with base (100), the material feeding seat (601) are equipped with one when metal to be cut is put The material feed clamping component (602) that metal to be cut can be clamped when on material feeding seat (601) is set, material feeding seat (601) can front and back shifting It moves for metal to be cut to be sent in the cutting mechanism (20) of material feeding seat (601) end, the cutting mechanism (20) it is arranged on base (100).

7. high-velocity wire according to claim 6 cuts circular sawing machine, which is characterized in that material feeding seat (601) connection Servo-driver (603) is fixed at least two litter (604) being parallel to each other on base (100), and material feeding seat (601) is arranged It can be moved forward and backward on litter (604) and under the driving of servo-driver (603) along litter (604).

8. high-velocity wire according to claim 7 cuts circular sawing machine, which is characterized in that the material feed clamping component It (602) include the positioning splint (605) being fixed on material feeding seat (601) and the opposite and and material feeding seat with positioning splint (605) (601) the clamping block assembly (606) being flexibly connected, the clamping block assembly (606) can be to before the directions of positioning splint (605) After move back and forth, the clamping block assembly (606) include material feed clamping cylinder (607) and with material feed clamping cylinder (607) The material feed clamping block (608) that output end is fixedly connected, the material feed clamping block (608) and positioning splint (605) are opposite, institute A cutting abutment plate (609) opposite with cutting mechanism (20) is additionally provided on the base (100) stated.