CN102528135A - Full-automatic numerical-control steel pipe cutter - Google Patents

Full-automatic numerical-control steel pipe cutter Download PDF

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Publication number
CN102528135A
CN102528135A CN2012100124217A CN201210012421A CN102528135A CN 102528135 A CN102528135 A CN 102528135A CN 2012100124217 A CN2012100124217 A CN 2012100124217A CN 201210012421 A CN201210012421 A CN 201210012421A CN 102528135 A CN102528135 A CN 102528135A
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China
Prior art keywords
steel pipe
ratchet
milling cutter
full
shaft
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Granted
Application number
CN2012100124217A
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Chinese (zh)
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CN102528135B (en
Inventor
徐椿林
金凯岷
徐振威
毛吉锋
毛福明
杨红丽
黄恒强
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NINGBO LION MACHINERY MANUFACTURING Co Ltd
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NINGBO LION MACHINERY MANUFACTURING Co Ltd
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Priority to CN201210012421.7A priority Critical patent/CN102528135B/en
Publication of CN102528135A publication Critical patent/CN102528135A/en
Application granted granted Critical
Publication of CN102528135B publication Critical patent/CN102528135B/en
Expired - Fee Related legal-status Critical Current
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Abstract

The invention discloses a full-automatic numerical-control steel pipe cutter which comprises a frame, a steel pipe fixing part, a cutting part and a cooling part. The full-automatic numerical-control steel pipe cutter is characterized in that the steel pipe fixing part comprises a mobile base and a fixed base; the mobile base is in sliding fit with the frame; the frame is provided with a drive mechanism of the mobile base; the fixed base is fixedly arranged on the frame; the mobile base is provided with a first motor and at least two steel pipe fixing clamps; and a drive sprocket is coaxially and fixedly arranged on a drive shaft of the first motor, and driven sprockets are coaxially and fixedly arranged on the steel pipe fixing clamps. The full-automatic numerical-control steel pipe cutter has the advantages that the steel pipe fixing part can be simultaneously provided with at least two steel pipes to be cut, and at least two steel rings can be cut simultaneously after the cutter is assembled in one step, so that the production efficiency is greatly improved, the steel pipes can be cut by a slitting cutter, the thickness of the slitting cutter is much less than that of a traditional lathe tool, and the utilization ratio of raw materials is greatly improved.

Description

A kind of full-automatic numerical control steel tube cutting machine
Technical field
The present invention relates to a kind of process equipment of steel pipe, relate in particular to a kind of full-automatic numerical control steel tube cutting machine.
Background technology
Bearing mainly is made up of interior steel ring, outer rim and ball, and in processing, before steel ring and the outer rim, earlier long steel pipe is carried out cutting processing, with the steel ring after cutting as the blank material that is used to process interior steel ring and outer rim.Mainly utilize lathe that steel pipe is carried out cutting processing at present; Because the thickness thicker (about 3mm) of lathe tool; Caused the significant wastage of material, and, made lathe tool when cutting because the lathe last time can only be installed a pipe; Once can only cut a steel ring, cause its production efficiency lower.
Summary of the invention
Technical problem to be solved by this invention is a kind of full-automatic numerical control steel tube cutting machine of enhancing productivity with stock utilization.
The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of full-automatic numerical control steel tube cutting machine; Comprise frame, steel pipe standing part, cutting part and cooling segment; Described steel pipe standing part comprises mobile foundation and fixed pedestal; Described mobile foundation and described frame are slidingly matched, and described frame is provided with the mobile foundation driving mechanism, and described fixed pedestal is fixedly mounted on the described frame; Described mobile foundation is provided with first motor and at least two steel pipe stationary fixtures; The coaxial drive sprocket that is set with on the driving shaft of described first motor, the coaxial driven sprocket that is set with on the described steel pipe stationary fixture is provided with chain between described drive sprocket and the described driven sprocket.
Described mobile foundation driving mechanism comprises first hydraulic cylinder, ratchet, ratchet and cam, and described first hydraulic cylinder is coupling on described frame, and sealing is provided with first driving shaft in described first hydraulic cylinder; The end of described first driving shaft is provided with pawl axis, and described pawl axis is connected on the described pawl axis, is connected with ratchet shaft on the described frame; Described coaxial ratchet is fixedly mounted on the described ratchet shaft, and described cam is coupling with described pawl axis, ratchet shaft simultaneously, and described ratchet matches with described ratchet; Be provided with torsion spring between described ratchet and the described pawl axis; Be arranged with plectrum on the described ratchet shaft, described cam is provided with two pin holes, and one of them pin hole is over against described ratchet; Be plugged with on the described plectrum and be used for the latch that cooperates with described pin hole; Coaxial first drive sprocket that is set with is connected with second drive sprocket on the described ratchet shaft on the described frame, and described first drive sprocket and second drive sprocket are provided with driving chain; Described mobile foundation is fixedly connected with described driving chain; Be set with guide rail on the described frame, the bottom of described mobile foundation is connected with roller, and described roller matches with described guide rail.
Described fixed pedestal is provided with adjustable clamp assembly coaxial with described steel pipe stationary fixture and that quantity equates; Described adjustable clamp assembly comprises second hydraulic cylinder that is fixedly installed on the described fixed pedestal; Described fixed pedestal is provided with the steel pipe installing hole; Be set with two also bearing installation shaft of column distribution on the described fixed pedestal; The two ends fixed cover of described bearing installation shaft is connected to spring bearing, and described spring bearing is positioned at the below of described steel pipe installing hole, and sealing is provided with second driving shaft in described second hydraulic cylinder; The bottom of described second driving shaft is provided with the bearing that compresses of two and column distribution; Describedly compress the top that bearing is positioned at described steel pipe installing hole, when in the described steel pipe installing hole steel pipe to be cut being installed, described to compress bearing mutually circumscribed with steel pipe to be cut respectively with spring bearing.
The bottom of described second driving shaft is connected with the adjustment piece, and the bearing that compresses of two and column distribution all is coupling on described adjustment piece.
Described cutting part comprises milling cutter mount pad, second motor and milling cutter; Described second motor is fixedly mounted on the described milling cutter mount pad; The coaxial drive pulley that is set with on the driving shaft of described second motor; Be connected with power transmission shaft in the described milling cutter mount pad, the coaxial driven pulley that is installed with of an end of described power transmission shaft is provided with belt between described drive pulley and the described driven pulley; Described milling cutter is fixedly mounted on the other end of described power transmission shaft, and described frame is provided with and is used to drive the milling cutter radial drive mechanism that move radially of milling cutter along steel pipe to be cut.
Described milling cutter radial drive mechanism comprises servomotor, ball screw and transmission nut; Described servomotor is fixedly mounted on the described frame; Described ball screw is coupling on described frame; One end of described ball screw connects with the driving shaft of described servomotor through shaft coupling; Described transmission nut is fixedly connected on the lower surface of described milling cutter mount pad, described transmission nut and described ball screw bolt, and described milling cutter mount pad and described frame are slidingly matched through guide rail.
Described milling cutter mount pad is provided with steel pipe cutting width guiding mechanism; Described steel pipe cutting width guiding mechanism comprises cushion block and the 3rd hydraulic cylinder that is arranged in the described milling cutter mount pad; Sealing is provided with the 3rd driving shaft in described the 3rd hydraulic cylinder; Described cushion block is fixedly connected on the end of described the 3rd driving shaft, and the position of described cushion block and the position of steel pipe to be cut adapt.
Described steel pipe stationary fixture is a scroll chuck.
The bottom of described fixed pedestal is provided with downward-sloping charging conduit, and the outer face of described charging conduit is set with baffle plate.
Described milling cutter is a metal saw, and the thickness of described metal saw is 1.0~1.5mm.
Compared with prior art; Advantage of the present invention is because mobile foundation is provided with at least two steel pipe stationary fixtures, makes the steel pipe standing part that at least two steel pipes to be cut can be installed simultaneously, makes this cutting machine after once mounting, can cut at least two steel rings simultaneously; Improved production efficiency greatly; And adopting metal saw that steel pipe is cut, its thickness is significantly smaller than the thickness of traditional lathe tool, has also improved greatly raw-material utilization rate; Again owing on the fixed pedestal adjustable clamp assembly is set; And the bottom of second driving shaft is connected with the adjustment piece in the adjustable clamp assembly; When steel pipe to be cut shake takes place and when producing axial deviation in process; This structure can be carried out from dynamic(al) correction the mounting center of steel pipe in real time, to guarantee the accuracy of processing; And the milling cutter mount pad is provided with steel pipe cutting width guiding mechanism; When steel pipe is installed; As long as adjust the position of cushion block, an end then that steel pipe is to be cut pushes up the width that can guarantee its cutting on the cushion block, and is convenient and swift and guaranteed the accuracy of cut lengths; In addition, whole cutting machine adopts motor or hydraulic mechanism to drive, and in conjunction with PLC control system, can realize the full-automatic Digital Control of equipment.
Description of drawings
Fig. 1 is an overall structure sketch map of the present invention;
Fig. 2 removes the vertical view behind the cooling segment for Fig. 1;
Fig. 3 is the structural representation of mobile foundation driving mechanism of the present invention;
Fig. 4 is the fit structure vertical view of ratchet and ratchet among Fig. 3;
Fig. 5 is the enlarged diagram at A place among Fig. 3;
Fig. 6 is the enlarged diagram at B place among Fig. 4;
Fig. 7 is the inner face sketch map of mobile foundation of the present invention;
Fig. 8 is the outer face sketch map of fixed pedestal of the present invention;
Fig. 9 is the fit structure sketch map of cutting part of the present invention and fixed pedestal;
Figure 10 is the side view of Fig. 9;
Figure 11 is the vertical view of cutting part of the present invention.
The specific embodiment
Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.
As shown in the figure, a kind of full-automatic numerical control steel tube cutting machine comprises frame 1, steel pipe standing part 2, cutting part 3 and cooling segment 4; Steel pipe standing part 2 comprises mobile foundation 21 and fixed pedestal 22, is set with guide rail 11 on the frame 1, and the bottom of mobile foundation 21 is connected with roller 23; Roller 23 matches with guide rail 11, and frame 1 is provided with the mobile foundation driving mechanism, and the mobile foundation driving mechanism comprises first hydraulic cylinder 5, ratchet 51, ratchet 52 and cam 53; First hydraulic cylinder 5 is coupling on frame 1, seals the end that is provided with first driving shaft, 54, the first driving shafts 54 in first hydraulic cylinder 5 and is provided with pawl axis 55; Ratchet 52 is coupling on pawl axis 55, is connected with ratchet shaft 12 on the frame 1, ratchet 51 coaxial being fixedly mounted on the ratchet shaft 12; Cam 53 is coupling with pawl axis 55, ratchet shaft 12 simultaneously, and ratchet 52 matches with ratchet 51, is provided with torsion spring 56 between ratchet 52 and the pawl axis 55; Be arranged with plectrum 57 on the ratchet shaft 12, cam 53 is provided with two pin holes 531, and one of them pin hole 531 is over against ratchet 52; Be plugged with on the plectrum 57 and be used for the latch 58 that cooperates with pin hole 531, coaxial first drive sprocket 13 that is set with is connected with second drive sprocket 14 on the ratchet shaft 12 on the frame 1; First drive sprocket 13 and second drive sprocket 14 are provided with driving chain 15, and mobile foundation 21 is fixedly connected with driving chain 15, and mobile foundation 21 is provided with the scroll chuck 212 of first motor 211 and three and column distribution; The coaxial drive sprocket 213 that is set with on the driving shaft of first motor 211; The coaxial driven sprocket 214 that is set with is provided with chain 215 between drive sprocket 213 and the driven sprocket 214 on the scroll chuck 212, and fixed pedestal 22 is fixedly mounted on the frame 1 through screw; Fixed pedestal 22 is provided with adjustable clamp assembly coaxial with scroll chuck 212 and that quantity equates; Adjustable clamp assembly comprises through screw and is fixedly installed on second hydraulic cylinder 221 on the fixed pedestal 22, and fixed pedestal 22 is provided with steel pipe installing hole 222, is set with the bearing installation shaft 223 of two and column distribution on the fixed pedestal 22; The two ends fixed cover of bearing installation shaft 223 is connected to spring bearing 224; Spring bearing 224 is positioned at the below of steel pipe installing hole 222, seals the bottom that is provided with second driving shaft, 225, the second driving shafts 225 in second hydraulic cylinder 221 and is connected with adjustment piece 226; What adjustment was connected with two and column distribution on the piece 226 compresses bearing 227; Compress the top that bearing 227 is positioned at steel pipe installing hole 222, when in the steel pipe installing hole 222 steel pipe to be cut being installed, it is mutually circumscribed with steel pipe to be cut respectively with spring bearing 224 to compress bearing 227; The bottom of fixed pedestal 22 is provided with downward-sloping charging conduit 228, and the outer face of charging conduit 228 is set with baffle plate 229 through screw;
Cutting part comprises milling cutter mount pad 31, second motor 32 and metal saw 33; Second motor 32 is fixedly mounted on the milling cutter mount pad 31, and the coaxial drive pulley 34 that is set with is connected with power transmission shaft 35 on the driving shaft of second motor 32 in the milling cutter mount pad 31; The coaxial driven pulley 36 that is installed with of one end of power transmission shaft 35; Be provided with belt 37 between drive pulley 34 and the driven pulley 36, metal saw 33 is fixedly mounted on the other end of power transmission shaft 35, and frame 1 is provided with and is used to drive the milling cutter radial drive mechanism that move radially of milling cutter along steel pipe to be cut; The milling cutter radial drive mechanism comprises servomotor 6, ball screw 61 and transmission nut 62; Servomotor 6 is fixedly mounted on the frame 1, and ball screw 61 is coupling on frame 1, and an end of ball screw 61 connects with the driving shaft of servomotor 6 through shaft coupling 63; Transmission nut 62 is fixedly connected on the lower surface of milling cutter mount pad 31; Transmission nut 62 and ball screw 61 bolts, milling cutter mount pad 31 is slidingly matched through the guide rail (not shown) with frame 1, and milling cutter mount pad 31 is provided with steel pipe cutting width guiding mechanism; Steel pipe cutting width guiding mechanism comprises cushion block 7 and the 3rd hydraulic cylinder 8 that is arranged in the milling cutter mount pad 31; Sealing is provided with the 3rd driving shaft 81 in the 3rd hydraulic cylinder 8, and cushion block 7 is fixedly connected on the end of the 3rd driving shaft 81 through screw, and the position of cushion block 7 and the position of steel pipe to be cut adapt.
In the foregoing description, cooling segment 4 adopts cooling device commonly used in the field of machining, and the thickness of metal saw 33 can be processed needs according to reality and in the scope of 1.0~1.5mm, select.
In this cutting machine; The course of work of mobile foundation driving mechanism is: first hydraulic cylinder 5 drives first driving shaft 54 and moves down, and drives ratchet 52 and promotes ratchet 51 rotations, and ratchet 51 rotations drive first drive sprocket 13 and rotate; Thereby driving mobile foundation 21 moves to the direction of fixed pedestal 22; And owing to be provided with torsion spring 56 between ratchet 52 and the pawl axis 55, in the process that first driving shaft, 54 drive ratchets 52 move up and down, torsion spring 56 promotes ratchets 52 and cooperates with ratchet 51; When mobile foundation 21 need be retreated; Extract the latch 58 on the plectrum 57, manual work clockwise rotates plectrum 57, until plectrum 57 ratchet 52 is backed down; Make ratchet 52 break away from ratchet 51; Then latch 58 is inserted in the pin hole 531 of ratchet 52, plectrum 57 is fixed on the cam 53, manual work promotes mobile foundation 21 backward and gets final product then.
The course of work of steel pipe cutting width guiding mechanism is: when assembling steel pipe to be cut, the 3rd hydraulic cylinder 8 drives the 3rd driving shaft 81 and travels forward, and drives cushion block 7 and moves forward; When cushion block 7 arrived the position of setting, the 3rd driving shaft 81 stopped to move, and the mobile foundation driving mechanism drives mobile foundation 21 and moves to fixed pedestal 22 directions; When cushion block 7 is pushed up in the end of steel pipe to be cut; Mobile foundation 21 stops to move, and the adjustable clamp assembly on the fixed pedestal 22 clamps steel pipe to be cut, and the 3rd hydraulic cylinder 8 drivings the 3rd driving shaft 81 moves backward then; Drive cushion block 7 and move backward, metal saw 33 begins steel pipe to be cut is carried out cutting processing then.

Claims (10)

1. full-automatic numerical control steel tube cutting machine; Comprise frame, steel pipe standing part, cutting part and cooling segment; It is characterized in that described steel pipe standing part comprises mobile foundation and fixed pedestal; Described mobile foundation and described frame are slidingly matched, and described frame is provided with the mobile foundation driving mechanism, and described fixed pedestal is fixedly mounted on the described frame; Described mobile foundation is provided with first motor and at least two steel pipe stationary fixtures; The coaxial drive sprocket that is set with on the driving shaft of described first motor, the coaxial driven sprocket that is set with on the described steel pipe stationary fixture is provided with chain between described drive sprocket and the described driven sprocket.
2. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 1 is characterized in that described mobile foundation driving mechanism comprises first hydraulic cylinder, ratchet, ratchet and cam, and described first hydraulic cylinder is coupling on described frame; Sealing is provided with first driving shaft in described first hydraulic cylinder, and the end of described first driving shaft is provided with pawl axis, and described pawl axis is connected on the described pawl axis; Be connected with ratchet shaft on the described frame; Described coaxial ratchet is fixedly mounted on the described ratchet shaft, and described cam is coupling with described pawl axis, ratchet shaft simultaneously, and described ratchet matches with described ratchet; Be provided with torsion spring between described ratchet and the described pawl axis; Be arranged with plectrum on the described ratchet shaft, described cam is provided with two pin holes, and one of them pin hole is over against described ratchet; Be plugged with on the described plectrum and be used for the latch that cooperates with described pin hole; Coaxial first drive sprocket that is set with is connected with second drive sprocket on the described ratchet shaft on the described frame, and described first drive sprocket and second drive sprocket are provided with driving chain; Described mobile foundation is fixedly connected with described driving chain; Be set with guide rail on the described frame, the bottom of described mobile foundation is connected with roller, and described roller matches with described guide rail.
3. according to claim 1 or claim 2 a kind of full-automatic numerical control steel tube cutting machine; It is characterized in that described fixed pedestal is provided with adjustable clamp assembly coaxial with described steel pipe stationary fixture and that quantity equates; Described adjustable clamp assembly comprises second hydraulic cylinder that is fixedly installed on the described fixed pedestal; Described fixed pedestal is provided with the steel pipe installing hole, is set with two also bearing installation shaft of column distribution on the described fixed pedestal, and the two ends fixed cover of described bearing installation shaft is connected to spring bearing; Described spring bearing is positioned at the below of described steel pipe installing hole; Sealing is provided with second driving shaft in described second hydraulic cylinder, and the bottom of described second driving shaft is provided with the bearing that compresses of two and column distribution, describedly compresses the top that bearing is positioned at described steel pipe installing hole; When in the described steel pipe installing hole steel pipe to be cut being installed, described to compress bearing mutually circumscribed with steel pipe to be cut respectively with spring bearing.
4. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 3 is characterized in that the bottom of described second driving shaft is connected with the adjustment piece, and the bearing that compresses of two and column distribution all is coupling on described adjustment piece.
5. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 1; It is characterized in that described cutting part comprises milling cutter mount pad, second motor and milling cutter; Described second motor is fixedly mounted on the described milling cutter mount pad; The coaxial drive pulley that is set with on the driving shaft of described second motor; Be connected with power transmission shaft in the described milling cutter mount pad, the coaxial driven pulley that is installed with of an end of described power transmission shaft is provided with belt between described drive pulley and the described driven pulley; Described milling cutter is fixedly mounted on the other end of described power transmission shaft, and described frame is provided with and is used to drive the milling cutter radial drive mechanism that move radially of milling cutter along steel pipe to be cut.
6. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 5; It is characterized in that described milling cutter radial drive mechanism comprises servomotor, ball screw and transmission nut; Described servomotor is fixedly mounted on the described frame; Described ball screw is coupling on described frame, and an end of described ball screw connects with the driving shaft of described servomotor through shaft coupling, and described transmission nut is fixedly connected on the lower surface of described milling cutter mount pad; Described transmission nut and described ball screw bolt, described milling cutter mount pad and described frame are slidingly matched through guide rail.
7. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 5; It is characterized in that described milling cutter mount pad is provided with steel pipe cutting width guiding mechanism; Described steel pipe cutting width guiding mechanism comprises cushion block and the 3rd hydraulic cylinder that is arranged in the described milling cutter mount pad; Sealing is provided with the 3rd driving shaft in described the 3rd hydraulic cylinder, and described cushion block is fixedly connected on the end of described the 3rd driving shaft, and the position of described cushion block and the position of steel pipe to be cut adapt.
8. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 1 is characterized in that described steel pipe stationary fixture is a scroll chuck.
9. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 1 is characterized in that the bottom of described fixed pedestal is provided with downward-sloping charging conduit, and the outer face of described charging conduit is set with baffle plate.
10. a kind of full-automatic numerical control steel tube cutting machine as claimed in claim 1 is characterized in that described milling cutter is a metal saw, and the thickness of described metal saw is 1.0~1.5mm.
CN201210012421.7A 2012-01-16 2012-01-16 Full-automatic numerical-control steel pipe cutter Expired - Fee Related CN102528135B (en)

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Application Number Priority Date Filing Date Title
CN201210012421.7A CN102528135B (en) 2012-01-16 2012-01-16 Full-automatic numerical-control steel pipe cutter

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Application Number Priority Date Filing Date Title
CN201210012421.7A CN102528135B (en) 2012-01-16 2012-01-16 Full-automatic numerical-control steel pipe cutter

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CN102528135A true CN102528135A (en) 2012-07-04
CN102528135B CN102528135B (en) 2014-02-26

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102528136A (en) * 2012-01-16 2012-07-04 宁波雄狮机械制造有限公司 Full-automatic numerical control steel tube cutting machine
CN103009039A (en) * 2013-01-06 2013-04-03 山东万通液压机械有限公司 Multi-cylinder horizontal type assembling machine
CN104117866A (en) * 2014-07-30 2014-10-29 湖州华鼎不锈钢管业有限公司 Steel tube fixing device of steel tube piercing mill
CN105364528A (en) * 2015-12-15 2016-03-02 苏州创丰精密五金有限公司 Rotating tool for long shaft product processing

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3938415A (en) * 1973-12-19 1976-02-17 Alexander Borzym Tube cutoff apparatus
CN2097050U (en) * 1991-05-08 1992-02-26 山西省太行锯条厂 Cutting saw blade of high-speed tool steel
CN2871076Y (en) * 2005-10-17 2007-02-21 吕文辉 Automatic digital-controlled pipe cutter
CN201151011Y (en) * 2007-06-01 2008-11-19 玉环县坎门机床厂 Full-automatic numerical control pipe cutter
CN201783685U (en) * 2010-02-01 2011-04-06 吕济深 Automatic pipe cutter
CN202555891U (en) * 2012-01-16 2012-11-28 宁波雄狮机械制造有限公司 Full-automatic numerical control cutting machine for steel pipes

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3938415A (en) * 1973-12-19 1976-02-17 Alexander Borzym Tube cutoff apparatus
CN2097050U (en) * 1991-05-08 1992-02-26 山西省太行锯条厂 Cutting saw blade of high-speed tool steel
CN2871076Y (en) * 2005-10-17 2007-02-21 吕文辉 Automatic digital-controlled pipe cutter
CN201151011Y (en) * 2007-06-01 2008-11-19 玉环县坎门机床厂 Full-automatic numerical control pipe cutter
CN201783685U (en) * 2010-02-01 2011-04-06 吕济深 Automatic pipe cutter
CN202555891U (en) * 2012-01-16 2012-11-28 宁波雄狮机械制造有限公司 Full-automatic numerical control cutting machine for steel pipes

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102528136A (en) * 2012-01-16 2012-07-04 宁波雄狮机械制造有限公司 Full-automatic numerical control steel tube cutting machine
CN103009039A (en) * 2013-01-06 2013-04-03 山东万通液压机械有限公司 Multi-cylinder horizontal type assembling machine
CN104117866A (en) * 2014-07-30 2014-10-29 湖州华鼎不锈钢管业有限公司 Steel tube fixing device of steel tube piercing mill
CN105364528A (en) * 2015-12-15 2016-03-02 苏州创丰精密五金有限公司 Rotating tool for long shaft product processing

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