CN104511652A - High-speed circular saw - Google Patents
High-speed circular saw Download PDFInfo
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- CN104511652A CN104511652A CN201410695071.8A CN201410695071A CN104511652A CN 104511652 A CN104511652 A CN 104511652A CN 201410695071 A CN201410695071 A CN 201410695071A CN 104511652 A CN104511652 A CN 104511652A
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Abstract
The invention discloses a high-speed circular saw, comprising: a machine tool, a feeding mechanism, a cutting mechanism, a water pump, and a control cabinet, wherein the feeding mechanism is installed on the left side of the machine tool, the cutting mechanism is installed on the right side of the machine tool, the control cabinet is placed on the left side of the machine tool, the feeding mechanism comprises a feeding front seat, a feeding rear seat, a screw rod, a servo motor, a polished rod, a clamping frame, a top cover plate, a polished rod I, a front pressing cylinder, a clamping sliding table, a guide sleeve I, a control valve I, a V-shaped block, a clamping cushion block, a feeding sliding table, a guide sleeve II, a feeding nut, a feeding framework, a polished rod II, a rear clamping sliding table, a guide sleeve III, a rear pressing cylinder, a control valve II, a rear clamping V-shaped block, and a rear clamping cushion block, the cutting mechanism comprises a base, a guide rail, a servo motor II, a sliding block fixing plate, a ball screw nut fixing block, a ball screw, a sliding chute, a motor fixing plate, a motor, an output belt pulley, a main spindle box, an input belt pulley, and a circular saw web. The saw has the advantages of being convenient to use, labor-saving, time-saving, etc.
Description
Technical field
The present invention relates to a kind of high speed circular saw, be applied to bar manufacture field.
Background technology
In the process of bar, at present, the main metal annular sawing machine that adopts cuts bar, but the cutting motor of these equipment and main spindle box are mounted on slide unit, when cutting bar, need manually to push slide unit and move reciprocatingly, also can reach the object of cutting although it is so, but labour intensity is larger, expend muscle power, and rear end needs artificial feeding to be forward used for cutting, not only bothers, waste of manpower and muscle power, and speed is slow, working (machining) efficiency is low.
Summary of the invention
For solving the defect of prior art, the invention discloses a kind of high speed circular saw of easy to use, saving of work and time.
The invention discloses a kind of high speed circular saw, comprising: lathe, feed mechanism, cutting mechanism, switch board, described feed mechanism is arranged on the left side of lathe, and described cutting mechanism is arranged on the right side of lathe, and described switch board is placed on the left side of lathe.
Described feed mechanism comprises feeding front stall, feeding back seat, screw mandrel, servomotor, polished rod, clamping frames, lamina tecti, polished rod one, front compression cylinder, clamping slide unit, guide pin bushing one, control valve one, V-block, clamping cushion block, feeding slipway, guide pin bushing two, feeding screw, feeding framework, polished rod two, rear clamping slide unit, guide pin bushing three, rear compression cylinder, control valve two, rear folder V-block, rear pad block, described feeding front stall is arranged on front end on the left of lathe by bolt, described feeding back seat is arranged on rear end on the left of lathe by bolt, by bearing, a screw mandrel is installed between described feeding front stall and feeding back seat, described servomotor is installed on feeding back seat, described servomotor is connected with switch board by wire, the output shaft of described servomotor is connected with the rear end of screw mandrel by shaft coupling, two polished rods are set firmly between described feeding front stall and feeding back seat, and screw mandrel is clamped in centre by two polished rods, the centre-height of described screw mandrel is identical with the centre-height of two polished rods, described clamping frames is arranged on feeding front stall by bolt, described lamina tecti is arranged on the upper end of clamping frames by bolt, a polished rod one is vertically installed respectively in the inner left and right sides of described clamping frames, described front compression cylinder is vertically arranged on the upper end of lamina tecti, and the piston rod of front compression cylinder is affixed with clamping slide unit through the inside of lamina tecti, the two ends, left and right of described clamping slide unit set firmly a guide pin bushing one respectively, and two, left and right guide pin bushing one is enclosed within two polished rods in left and right respectively, described control valve one is arranged on switch board side by bolt, described control valve one is connected with front compression cylinder by flexible pipe, described V-block is arranged on the right-hand member of clamping slide unit by bolt, described clamping cushion block is arranged on right-hand member bottom clamping frames by bolt, two guide pin bushings two are installed in the bottom of described feeding slipway, and two guide pin bushings two are enclosed within two polished rods one in left and right respectively, between two guide pin bushings two, a feeding screw is installed bottom described feeding slipway, described feeding screw is connected with screw mandrel, described feeding framework is arranged on feeding slipway by bolt, a polished rod two is vertically installed respectively in the described feeding lower portion left and right sides, the two ends, left and right of described rear clamping slide unit set firmly a guide pin bushing three respectively, and two, left and right guide pin bushing three is enclosed within two polished rods two in left and right respectively, described rear compression cylinder is vertically arranged on the upper end of feeding framework, and the piston rod of rear compression cylinder passes feeding framework upper end and rear clamping slide unit is affixed, described control valve two is arranged on switch board side by bolt, described control valve two is connected with rear compression cylinder by flexible pipe, described rear folder V-block is arranged on the right-hand member of rear clamping slide unit by bolt, described rear clamping cushion block is arranged on right-hand member bottom feeding slipway by bolt.
Described cutting mechanism comprises base, guide rail, servomotor two, slide block fixed head, ball screw screw fixed block, ball screw, chute, motor fixing plate, motor, export belt pulley, main spindle box, input belt pulley, saw blade, described base is arranged on lathe right-hand member by bolt, described base installs two guide rails by bolt, described servomotor two is installed in the front end of base, described servomotor two is connected with switch board by wire, a ball screw screw fixed block is installed by bolt in the lower end of described slide block fixed head, screw in described ball screw is arranged on ball screw screw fixed block, and the output shaft of the front end of ball screw and servomotor two is affixed, two chutes are welded respectively corresponding to the position of guide rail in the bottom of described slide block fixed head, described chute is connected with slide, described motor fixing plate is arranged on slide block fixed head by bolt, described motor is arranged on motor fixing plate by bolt, the output shaft of described motor sets firmly one and export belt pulley, described main spindle box is arranged on slide block fixed head by bolt, the power shaft of described main spindle box sets firmly an input belt pulley, described input belt pulley is connected with output belt pulley by belt, described saw blade is installed on the output shaft of main spindle box.
Owing to adopting technique scheme, the present invention has following advantageous benefits:
1, easy to use;
2, saving of work and time.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of high speed circular saw of the present invention;
Fig. 2 is the structural representation of the feed mechanism of a kind of high speed circular saw of the present invention;
Fig. 3 is the structural representation of the cutting mechanism of a kind of high speed circular saw of the present invention.
Wherein: 1-lathe; 2-feed mechanism; 3-cutting mechanism; 4-switch board; 201 feeding front stalls; 202-feeding back seat; 203-screw mandrel; 204-servomotor; 205-polished rod; 206-clamping frames; 207-lamina tecti; 208-polished rod one; Compression cylinder before 209-; 210-clamps slide unit; 211-guide pin bushing one; 212-control valve one; 213-V type block; 214-clamps cushion block; 215-feeding slipway; 216-guide pin bushing two; 217-feeding screw; 218-feeding framework; 219-polished rod two; Slide unit is clamped after 220-; 221-guide pin bushing three; Compression cylinder after 222-; 223-control valve two; V-block is pressed from both sides after 224-; Pad block after 225-; 301-base; 302-guide rail; 303-servomotor two; 304-slide block fixed head; 305-ball screw screw fixed block; 306-ball screw; 307-chute; 308-motor fixing plate; 309-motor; 310-exports belt pulley; 311-main spindle box; 312-inputs belt pulley; 313-saw blade.
Detailed description of the invention
As shown in Figure 1, the invention discloses a kind of high speed circular saw, comprise: lathe 1, feed mechanism 2, cutting mechanism 3, switch board 4, described feed mechanism 2 is arranged on the left side of lathe 1, described cutting mechanism 3 is arranged on the right side of lathe 1, described water pump 4 is arranged on the right side of lathe 1, and described switch board 4 is placed on the left side of lathe 1.
Described feed mechanism 2 comprises feeding front stall 201, feeding back seat 202, screw mandrel 203, servomotor 204, polished rod 205, clamping frames 206, lamina tecti 207, polished rod 1, front compression cylinder 209, clamping slide unit 210, guide pin bushing 1, control valve 1, V-block 213, clamping cushion block 214, feeding slipway 215, guide pin bushing 2 216, feeding screw 217, feeding framework 218, polished rod 2 219, rear clamping slide unit 220, guide pin bushing 3 221, rear compression cylinder 222, control valve 2 223, rear folder V-block 224, rear pad block 225, described feeding front stall 201 is arranged on front end on the left of lathe 1 by bolt, described feeding back seat 202 is arranged on rear end on the left of lathe 1 by bolt, by bearing, a screw mandrel 203 is installed between described feeding front stall 201 and feeding back seat 202, described servomotor 204 is installed on feeding back seat 202, described servomotor 204 is connected with switch board 4 by wire, the output shaft of described servomotor 204 is connected by the rear end of shaft coupling with screw mandrel 203, two polished rods 205 are set firmly between described feeding front stall 201 and feeding back seat 202, and screw mandrel 203 is clamped in centre by two polished rods 205, the centre-height of described screw mandrel 203 is identical with the centre-height of two polished rods 205, described clamping frames 206 is arranged on feeding front stall 201 by bolt, described lamina tecti 207 is arranged on the upper end of clamping frames 206 by bolt, a polished rod 1 is vertically installed respectively in the inner left and right sides of described clamping frames 206, described front compression cylinder 209 is vertically arranged on the upper end of lamina tecti 207, and the piston rod of front compression cylinder 209 is affixed with clamping slide unit 210 through the inside of lamina tecti 207, the two ends, left and right of described clamping slide unit 210 set firmly a guide pin bushing 1 respectively, and two, left and right guide pin bushing 1 is enclosed within two polished rods 1 in left and right respectively, described control valve 1 is arranged on switch board 4 side by bolt, described control valve 1 is connected with front compression cylinder 209 by flexible pipe, described V-block 213 is arranged on the right-hand member of clamping slide unit 210 by bolt, described clamping cushion block 214 is arranged on right-hand member bottom clamping frames 206 by bolt, two guide pin bushings 2 216 are installed in the bottom of described feeding slipway 215, and two guide pin bushings 2 216 are enclosed within two polished rods 205 in left and right respectively, between two guide pin bushings 2 216, a feeding screw 217 is installed bottom described feeding slipway 215, described feeding screw 217 is connected with screw mandrel 203, described feeding framework 218 is arranged on feeding slipway 215 by bolt, a polished rod 2 219 is vertically installed respectively in the inner left and right sides of described feeding framework 218, the two ends, left and right of described rear clamping slide unit 220 set firmly a guide pin bushing 3 221 respectively, and two, left and right guide pin bushing 3 221 is enclosed within two polished rods 2 219 in left and right respectively, described rear compression cylinder 222 is vertically arranged on the upper end of feeding framework 218, and the piston rod of rear compression cylinder 222 passes feeding framework 218 upper end and rear clamping slide unit 220 is affixed, described control valve 2 223 is arranged on switch board 4 side by bolt, described control valve 2 223 is connected with rear compression cylinder 222 by flexible pipe, described rear folder V-block 224 is welded on the right-hand member of rear clamping slide unit 220, described rear clamping cushion block 225 is welded on right-hand member bottom feeding slipway 215.
Described cutting mechanism 3 comprises base 301, guide rail 302, servomotor 2 303, slide block fixed head 304, ball screw screw fixed block 305, ball screw 306, chute 307, motor fixing plate 308, motor 309, export belt pulley 310, main spindle box 311, input belt pulley 312, saw blade 313, described base 301 is welded on lathe 1 right-hand member, described base 301 welds two guide rails 302, described servomotor 2 303 is installed in the front end of base 301, described servomotor 2 303 is connected with switch board 4 by wire, a ball screw screw fixed block 305 is installed by bolt in the lower end of described slide block fixed head 304, screw in described ball screw 306 is arranged on ball screw screw fixed block 305, and the output shaft of the front end of ball screw 306 and servomotor 2 303 is affixed, two chutes 307 are welded respectively corresponding to the position of guide rail 302 in the bottom of described slide block fixed head 304, described chute 307 is slidably connected with guide rail 302, described motor fixing plate 308 is arranged on slide block fixed head 304 by bolt, described motor 309 is arranged on motor fixing plate 308 by bolt, the output shaft of described motor 309 sets firmly one and export belt pulley 310, described main spindle box 311 is arranged on slide block fixed head 304 by bolt, the power shaft of described main spindle box 311 sets firmly an input belt pulley 312, described input belt pulley 312 is connected with output belt pulley 310 by belt, described saw blade 313 is installed on the output shaft of main spindle box 311.
The present invention implements like this: control servomotor 204 by switch board 4 and rotate, such servomotor 204 drive screw mandrels 203 rotate, the rotation of screw mandrel 203 then makes feeding screw 217 move backward relative to screw mandrel 203, feeding screw 217 drives feeding slipway 215 to move backward along polished rod 205, until stop when designated length between rear folder V-block 224 and rear pad block 225 is stretched out in the front end of bar, after being controlled by control valve 2 223, the piston rod of compression cylinder 222 stretches out, thus clamping slide unit 220 drives rear folder V-block 224 to move downward till bar is pressed on rear pad block 225 by rear folder V-block 224 after promoting, then switch board 4 controls servomotor 204 counter-rotation, same principle, feeding slipway 215 forwards moves, namely feeding slipway 215 clamps this bar by rear folder V-block 224 and rear pad block 225 and carries toward front, until stop when designated length between V-block 213 and clamping cushion block 214 is stretched out in the front end of bar, before being controlled by control valve 1, the piston rod of compression cylinder 209 stretches out, thus promotion clamping slide unit 210 drives V-block 213 to move downward till bar is pressed on clamping cushion block 214 by V-block 213, switch board 4 starts servomotor 2 303 and motor 309, the rotation of servomotor 2 303 drives ball screw 306 to rotate, the rotation of ball screw 306 makes ball screw screw fixed block 305 move right, ball screw screw fixed block 305 and then band movable slider fixed head 304 move right, fixed head 304 drives main spindle box 311 and motor 309 entirety to move right, motor 309 passes through to export belt pulley 310 in the process moved right, input belt pulley 312 drives main spindle box 311 to operate, main spindle box 311 drives saw blade 313 to rotate, therefore namely saw blade 313 completes the cutting to bar in the process moved right, then, switch board 4 controls servomotor 2 303 and reverses, same principle, after saw blade 313 resets, namely a circulation completes, then repeat above-mentioned steps to process, therefore muscle power and manpower is saved very greatly, easy to use, and cutting speed is fast, working (machining) efficiency is high.
Last it is noted that above embodiment only in order to illustrate the present invention and and unrestricted technical scheme described in the invention; Therefore, although this description with reference to each above-mentioned embodiment to present invention has been detailed description, those of ordinary skill in the art should be appreciated that and still can modify to the present invention or equivalent to replace; And all do not depart from technical scheme and the improvement thereof of the spirit and scope of the present invention, it all should be encompassed in right of the present invention.
Claims (3)
1. a high speed circular saw, comprise: lathe, feed mechanism, cutting mechanism, switch board, it is characterized in that: described feed mechanism is arranged on the left side of lathe, described cutting mechanism is arranged on the right side of lathe, and described switch board is placed on the left side of lathe.
2. a kind of high speed circular saw according to claim 1, it is characterized in that: described feed mechanism comprises feeding front stall, feeding back seat, screw mandrel, servomotor, polished rod, clamping frames, lamina tecti, polished rod one, front compression cylinder, clamping slide unit, guide pin bushing one, control valve one, V-block, clamping cushion block, feeding slipway, guide pin bushing two, feeding screw, feeding framework, polished rod two, rear clamping slide unit, guide pin bushing three, rear compression cylinder, control valve two, rear folder V-block, rear pad block, described feeding front stall is arranged on front end on the left of lathe by bolt, described feeding back seat is arranged on rear end on the left of lathe by bolt, by bearing, a screw mandrel is installed between described feeding front stall and feeding back seat, described servomotor is installed on feeding back seat, described servomotor is connected with switch board by wire, the output shaft of described servomotor is connected with the rear end of screw mandrel by shaft coupling, two polished rods are set firmly between described feeding front stall and feeding back seat, and screw mandrel is clamped in centre by two polished rods, the centre-height of described screw mandrel is identical with the centre-height of two polished rods, described clamping frames is arranged on feeding front stall by bolt, described lamina tecti is arranged on the upper end of clamping frames by bolt, a polished rod one is vertically installed respectively in the inner left and right sides of described clamping frames, described front compression cylinder is vertically arranged on the upper end of lamina tecti, and the piston rod of front compression cylinder is affixed with clamping slide unit through the inside of lamina tecti, the two ends, left and right of described clamping slide unit set firmly a guide pin bushing one respectively, and two, left and right guide pin bushing one is enclosed within two polished rods in left and right respectively, described control valve one is arranged on switch board side by bolt, described control valve one is connected with front compression cylinder by flexible pipe, described V-block is arranged on the right-hand member of clamping slide unit by bolt, described clamping cushion block is arranged on right-hand member bottom clamping frames by bolt, two guide pin bushings two are installed in the bottom of described feeding slipway, and two guide pin bushings two are enclosed within two polished rods one in left and right respectively, between two guide pin bushings two, a feeding screw is installed bottom described feeding slipway, described feeding screw is connected with screw mandrel, described feeding framework is arranged on feeding slipway by bolt, a polished rod two is vertically installed respectively in the described feeding lower portion left and right sides, the two ends, left and right of described rear clamping slide unit set firmly a guide pin bushing three respectively, and two, left and right guide pin bushing three is enclosed within two polished rods two in left and right respectively, described rear compression cylinder is vertically arranged on the upper end of feeding framework, and the piston rod of rear compression cylinder passes feeding framework upper end and rear clamping slide unit is affixed, described control valve two is arranged on switch board side by bolt, described control valve two is connected with rear compression cylinder by flexible pipe, described rear folder V-block is arranged on the right-hand member of rear clamping slide unit by bolt, described rear clamping cushion block is arranged on right-hand member bottom feeding slipway by bolt.
3. a kind of high speed circular saw according to claim 1, it is characterized in that: described cutting mechanism comprises base, guide rail, servomotor two, slide block fixed head, ball screw screw fixed block, ball screw, chute, motor fixing plate, motor, export belt pulley, main spindle box, input belt pulley, saw blade, described base is arranged on lathe right-hand member by bolt, described base installs two guide rails by bolt, described servomotor two is installed in the front end of base, described servomotor two is connected with switch board by wire, a ball screw screw fixed block is installed by bolt in the lower end of described slide block fixed head, screw in described ball screw is arranged on ball screw screw fixed block, and the output shaft of the front end of ball screw and servomotor two is affixed, two chutes are welded respectively corresponding to the position of guide rail in the bottom of described slide block fixed head, described chute is connected with slide, described motor fixing plate is arranged on slide block fixed head by bolt, described motor is arranged on motor fixing plate by bolt, the output shaft of described motor sets firmly one and export belt pulley, described main spindle box is arranged on slide block fixed head by bolt, the power shaft of described main spindle box sets firmly an input belt pulley, described input belt pulley is connected with output belt pulley by belt, described saw blade is installed on the output shaft of main spindle box.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410695071.8A CN104511652A (en) | 2014-11-27 | 2014-11-27 | High-speed circular saw |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410695071.8A CN104511652A (en) | 2014-11-27 | 2014-11-27 | High-speed circular saw |
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| CN104511652A true CN104511652A (en) | 2015-04-15 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201410695071.8A Pending CN104511652A (en) | 2014-11-27 | 2014-11-27 | High-speed circular saw |
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| CN (1) | CN104511652A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107081474A (en) * | 2017-04-27 | 2017-08-22 | 东莞市晋诚机械有限公司 | A kind of clamping device of shortening strip tail |
| CN109514311A (en) * | 2018-12-29 | 2019-03-26 | 浙江精卫特机床有限公司 | A kind of numerical control high-precision high-velocity wire slabber clamping device and its control method |
| CN112676637A (en) * | 2020-12-03 | 2021-04-20 | 佛山市法比澳挤压机械科技有限公司 | Aluminum hot saw device |
| CN112719438A (en) * | 2021-01-10 | 2021-04-30 | 西麦克(张家港)机械科技有限公司 | Circular sawing machine feeding system |
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| CN102319929A (en) * | 2011-08-26 | 2012-01-18 | 东莞市晋诚机械有限公司 | Automatic corner chute type round metal saw |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107081474A (en) * | 2017-04-27 | 2017-08-22 | 东莞市晋诚机械有限公司 | A kind of clamping device of shortening strip tail |
| CN109514311A (en) * | 2018-12-29 | 2019-03-26 | 浙江精卫特机床有限公司 | A kind of numerical control high-precision high-velocity wire slabber clamping device and its control method |
| CN112676637A (en) * | 2020-12-03 | 2021-04-20 | 佛山市法比澳挤压机械科技有限公司 | Aluminum hot saw device |
| CN112676637B (en) * | 2020-12-03 | 2022-03-29 | 佛山市法比澳挤压机械科技有限公司 | Aluminum hot saw device |
| CN112719438A (en) * | 2021-01-10 | 2021-04-30 | 西麦克(张家港)机械科技有限公司 | Circular sawing machine feeding system |
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Address after: 237100 Anhui city of Lu'an province Lu'an Hanvon demonstration park on the south side of the road Applicant after: LU'AN RUIXING MACHINE EQUIPMENT TECHNOLOGY CO., LTD. Address before: 237100 Anhui city of Suzhou province Lu'an Hanvon demonstration park on the south side of the road Applicant before: LU'AN RUIXING MACHINE EQUIPMENT TECHNOLOGY CO., LTD. |
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