CN202292095U - Multi-station numerical control compound machine tool for adjustable wrenches - Google Patents
Multi-station numerical control compound machine tool for adjustable wrenches Download PDFInfo
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- CN202292095U CN202292095U CN2011204477632U CN201120447763U CN202292095U CN 202292095 U CN202292095 U CN 202292095U CN 2011204477632 U CN2011204477632 U CN 2011204477632U CN 201120447763 U CN201120447763 U CN 201120447763U CN 202292095 U CN202292095 U CN 202292095U
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Abstract
The utility model relates to a multi-station numerical control compound machine tool for adjustable wrenches. According to the machine tool, a left vertical drilling spindle box is movably connected to a left upright post guide rail; a left workbench is movably connected to a guide rail of a left crossed slide seat; the left crossed slide seat is movably connected to a guide rail of a lathe bed; a front horizontal milling spindle box is connected with a front horizontal milling vertical slide plate; the front horizontal milling vertical slide plate is movably connected to a horizontal milling upright post front guide rail; a lateral horizontal milling spindle box is movably connected to a horizontal milling upright post lateral guide rail; a right vertical drilling spindle box is movably connected to a right upright post guide rail; a right workbench is movably connected to a guide rail of a right crossed slide seat; and the right crossed slide seat is movably connected to the guide rail of the lathe bed. The multi-station numerical control compound machine tool solves the problem that a disc workbench machine tool has a complicated and expensive structure and is not suitable for multiple models and multiple batches. One machine tool is provided with two drilling heads and two milling heads, so that four procedures of drilling large holes, roughly milling apertures, finely milling apertures and milling grooves can be completed when the adjustable wrenches are clamped at one time.
Description
Technical field
The utility model relates to a kind of numerical control Metal Cutting Machine Tool, particularly a kind of multistation adjustable wrench numerical control composite processing machine tool.
Background technology
Adjustable wrench is a kind of field of employment hand tools very widely, and the manufacture process of adjustable wrench relates to multi-step process.
Before the utility model invention, the manufacture process of adjustable wrench all is that operation break-down pursues and processes.It is low that this manufacturing approach exists production efficiency, and labour intensity is big, and product quality is wayward.Though disk work bench type machine can be incorporated in several procedures on a machine tool and process, this kind device structure complicacy involves great expense, and the workpiece adjustment frock of processing different size is very difficult, incompatibility polytypic, many production in batches.
Summary of the invention
The purpose of the utility model just is to overcome above-mentioned defective, designs a kind of multistation adjustable wrench numerical control composite processing machine tool.
The technical scheme of the utility model is:
Multistation adjustable wrench numerical control composite processing machine tool, its major technique are characterised in that left vertical drill main spindle box is connected with left column, and are movably connected on the left column guide rail; Left side workbench is connected with left cross slide seat, and is movably connected on the guide rail of left cross slide seat, and left cross slide seat is movably connected on the guide rail of lathe bed; Before crouch and to mill main spindle box and mill vertical slide and is connected with preceding crouching, preceding crouching milled vertical slide and milled column and be connected with crouching, and is movably connected in for sleeping in milling on the column fromer rail, lies on one's side to mill main spindle box and mill column and be connected with for sleeping in, and is movably connected in for sleeping in milling on the stud sides guide rail; Right vertical drill main spindle box is connected with right column, and is movably connected on the right column guide rail; Right workbench is connected with right cross slide seat, and is movably connected on the guide rail of right cross slide seat, and right cross slide seat is movably connected on the guide rail of lathe bed.
Advantage of the utility model and effect are only to adopt two drilling heads of configuration and two milling heads on a machine tool, adjustable wrench is processed in a clamping accomplishes the brill macropore, rough mill actinal surface, finish-milling actinal surface, groove milling four procedures.Thereby raise labour productivity more than at least two times, labor strength significantly reduces, and saves process time, guarantees crudy, and through eight shaft three-linkage numerical control systems each machined parameters of control, the workpiece machining accuracy is reliable, and quality is able to guarantee.
Other concrete advantages of the utility model and effect will go on to say below.
Description of drawings
Fig. 1---the utility model front view.
Fig. 2---the utility model vertical view.
Fig. 3---the utility model adjustable wrench is pulled the body structure sketch map, and 3-1 is that adjustable wrench is pulled the body front view, and 3-2 is a cutaway view.
Fig. 4---the utility model adjustable wrench is pulled body point macropore process sketch map.
Fig. 5---the utility model adjustable wrench is pulled body and is bored macropore process sketch map.
Fig. 6---the utility model adjustable wrench is pulled body groove milling process sketch map.
Fig. 7----the utility model adjustable wrench is pulled body and is milled actinal surface process sketch map.
Each label representes that parts are following among the figure:
Left side vertical drill servomotor 1; Left column 2; Left side vertical drill main spindle box 3; The right drill bit 4 of left side vertical drill; A vertical drill left side, left side drill bit 5; Left side vertical drill centre drill 6; The left adjustable wrench in left side is pulled body 7; The right adjustable wrench in left side is pulled body 7-1; A left side, right side adjustable wrench is pulled body 7-2; The right adjustable wrench in right side is pulled body 7-3; The left anchor clamps 8 in left side; The right anchor clamps 9 in left side; Left side workbench 10; A left side is servomotor 11 laterally; Left side cross slide seat 12; Lathe bed 13; Preceding crouching milled main spindle box 14; The preceding milling cutter left side spacer 15 that crouches; Preceding crouching milled left milling cutter 16; Spacer 17 in the preceding milling cutter that crouches; Preceding crouching milled right milling cutter 18; The right spacer 19 of the preceding milling cutter that crouches; The preceding milling arbor supporting seat 20 that crouches; Lie on one's side and mill main spindle box 21; Preceding crouching milled vertical slide 22; Lie on one's side and mill servomotor 23; Preceding crouching milled servomotor 24; Crouch and mill column 25; Right vertical drill servomotor 26; Right column 27; Right vertical drill main spindle box 28; Right vertical drill left side drill bit 29; Right vertical drill centre drill 30; The right drill bit 31 of right vertical drill; The right anchor clamps 32 in right side; A left side, right side anchor clamps 33; Right workbench 34; Right cross slide seat 35; Right laterally servomotor 36; The milling cutter 37 of lying on one's side; Crouch and mill stud sides guide rail 38; Crouch and mill column fromer rail 39; Left side servo longitudinal motor 40; Right servo longitudinal motor 41.
The specific embodiment
Like Fig. 1, shown in Figure 2:
Left side vertical drill main spindle box 3 (omits among the figure through ball screw and nut; Draw) connect with left column 2, and by left vertical drill servomotor 1 driving, (omit among the figure at the guide rail of left column 2; Draw) on do up and down and move both vertically, and left column 2 is through being bolted on the lathe bed 13.
Left side cross slide seat 12 connects with lathe bed 13 through ball-screw and nut (omit among the figure, do not draw), and is driven by the horizontal servomotor 11 in a left side, on the guide rail (omit among the figure, do not draw) of lathe bed 13, does transverse movement; Left side workbench 10 connects with left cross slide seat 12 through ball-screw and nut (omit among the figure, do not draw), and is driven by left servo longitudinal motor 40, on the guide rail (omit among the figure, do not draw) of left cross slide seat 12, does lengthwise movement.
The preceding main spindle box 14 that mills for sleeping in is fixed on preceding for sleeping in milling on the vertical slide 22; Before crouch and to mill vertical slide 22 and (omit among the figure through ball-screw and nut; Draw) mill column 25 and connect with crouching, and mill servomotor 24 drivings by preceding crouching, for sleeping in mill to do up and down on the column fromer rail 39 move both vertically; Before crouch mill left milling cutter 16 with preceding crouch milling right milling cutter 18 and be installed in through spacer (omit among the figure, draw) before for sleeping in milling on the knife bar of main spindle box 14; Be connected with preceding milling arbor supporting seat 20 for sleeping in and obtain at the knife bar other end and support.
Lie on one's side and mill main spindle box 21 and mill column 25 and connects with crouching, and mill servomotor 23 by lying on one's side and drive through ball-screw and nut (omit among the figure, draw), for sleeping in mill to do up and down on the stud sides guide rail 38 move both vertically, for sleeping inly mill column 25 through being bolted on the lathe bed 13.
Right vertical drill main spindle box 28 (omits among the figure through ball screw and nut; Draw) connect with right column 27, and by right vertical drill servomotor 26 drivings, (omit among the figure at the guide rail of right column 27; Draw) on do up and down and move both vertically, and right column 27 is through being bolted on the lathe bed 13.
Right cross slide seat 35 connects with lathe bed 13 through ball-screw and nut (omit among the figure, do not draw), and is driven by the horizontal servomotor 36 in the right side, on the guide rail (omit among the figure, do not draw) of lathe bed 13, does transverse movement; Right workbench 34 connects with right cross slide seat 35 through ball-screw and nut (omit among the figure, do not draw), and is driven by right servo longitudinal motor 41, on the guide rail (omit among the figure, do not draw) of right cross slide seat 35, does lengthwise movement.
On left side workbench 10 and the right workbench 34 two anchor clamps are installed respectively, adjustable wrench of each clamp is pulled body, makes a drilling stroke accomplish the brill macropore that two adjustable wrenches are pulled body simultaneously.
Two are bored the macropore unit and are arranged symmetrically on the bed piece; Be that left vertical drill main spindle box 3 is connected with left column 2, right column 27 respectively with right vertical drill main spindle box 28; And be movably connected in the left column guide rail, the right column guide rail (omits among the figure; Do not draw) on, this part-structure is two and bores the macropore unit, can form two independently drilling machines; Before crouch and to mill main spindle box 14 and for sleeping inly mill vertical slide 22 and be connected with preceding; Before crouch and to mill vertical slide 22 and mill column 25 and be connected with for sleeping in; And be movably connected in to crouch and mill on the column fromer rail 39; Lie on one's side and mill main spindle box and mill column 25 and is connected with crouching, and be movably connected in for sleeping in milling on the stud sides guide rail 38, this part-structure can be formed an independently milling machine; Left side vertical drill main spindle box 3 is connected with left column 2, and is movably connected on the left column guide rail (omit among the figure, do not draw); Before crouch and to mill main spindle box 14 and for sleeping inly mill vertical slide 22 and be connected with preceding; Before crouch and to mill vertical slide 22 and mill column 25 and is connected with crouching, and be movably connected in for sleeping in milling on the column fromer rail 39, lie on one's side and mill main spindle box and mill column 25 and be connected with for sleeping in; And being movably connected in for sleeping in milling on the stud sides guide rail 38, this part-structure can be formed an independently lathe; Right vertical drill main spindle box 28 is connected with right column 27, and is movably connected on the right column guide rail (omit among the figure, do not draw); Before crouch and to mill main spindle box 14 and for sleeping inly mill vertical slide 22 and be connected with preceding; Before crouch and to mill vertical slide 22 and mill column 25 and is connected with crouching, and be movably connected in for sleeping in milling on the column fromer rail 39, lie on one's side and mill main spindle box and mill column 25 and connect with for sleeping in; And being movably connected in for sleeping in milling on the stud sides guide rail 38, this part-structure also can be formed an independently lathe.
The explanation of the utility model application process:
Like Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and shown in Figure 7:
Tool setting before the work; Position through the adjustment anchor clamps; Make the relative position of two drill bits on relative position and the left vertical drill main spindle box 3 of two workpiece on the left workbench 10, and on the right workbench 34 on relative position and the right vertical drill main spindle box 28 of two workpiece the relative position of two drill bits consistent.
Two adjustable wrenches are pulled body difference clamping on the right anchor clamps 9 of a left side, the left side on the left workbench 10 anchor clamps 8 and left side; Clamp the left cross slide seat 12 in back and drive through the horizontal servomotor 11 in a left side, left workbench 10 drives fast feed to the position of setting by left servo longitudinal motor 40; Left side vertical drill main spindle box 3 drives guide rail (omit among the figure, the do not draw) motion downward vertically along left column 2 through left vertical drill servomotor 1; Turn clockwise earlier two adjustable wrenches are pulled body drill centers (as shown in Figure 4), turn clockwise simultaneously by left vertical drill left side drill bit 5 on the left vertical drill main spindle box 3 and the right drill bit 4 of left vertical drill then and a left side, left side anchor clamps 8 are pulled body with two adjustable wrenches on the right anchor clamps 9 in left side bore macropore (as shown in Figure 5) by the left vertical drill centre drill 6 on the left vertical drill main spindle box 3; After having bored macropore, the cutting position of main spindle box 21 is milled in left cross slide seat 12 rapid traverses to lying on one's side, and mills the milling cutter 37 of lying on one's side on the main spindle box 21 by lying on one's side and turns clockwise and accomplish two millings (as shown in Figure 7) that adjustable wrench is pulled the body actinal surface; After adjustable wrench is pulled the body actinal surface and has been milled; Left side cross slide seat 12 rapid traverses are milled the cutting position of main spindle box 14 to preceding crouching, and are milled preceding on the main spindle box 14 and are crouched and mill left milling cutter 16 and mill right milling cutter 18 and be rotated counterclockwise two millings (as shown in Figure 6) that adjustable wrench is pulled the body groove of completion with preceding crouching by preceding crouching; Mill completely, left workbench 10 moves quickly into original initial, set position, and clamping workpiece gets into next circulation.
In like manner; Two adjustable wrenches are pulled body difference clamping on a left side, the right side on the right workbench 34 anchor clamps 33 and a left side, right side anchor clamps 32; Clamp the right cross slide seat 35 in back and drive through right laterally servomotor 36, right workbench 34 drives fast feed to the position of setting by right servo longitudinal motor 41; Right vertical drill main spindle box 28 drives guide rail (omit among the figure, the do not draw) motion downward vertically along right column 27 through right vertical drill servomotor 26; Turn clockwise earlier two adjustable wrenches are pulled body drill centers (as shown in Figure 4), turn clockwise simultaneously by right vertical drill left side drill bit 29 on the right vertical drill main spindle box 28 and the right drill bit 31 of right vertical drill then and a left side, right side anchor clamps 33 are pulled body with two adjustable wrenches on the right anchor clamps 32 in right side bore macropore (as shown in Figure 5) by the right vertical drill centre drill 30 on the right vertical drill main spindle box 28; After having bored macropore, the cutting position of main spindle box 21 is milled in right cross slide seat 35 rapid traverses to lying on one's side, and the milling cutter 37 of lying on one's side that mills by lying on one's side on the main spindle box 21 is rotated counterclockwise two millings (as shown in Figure 7) that adjustable wrench is pulled the body actinal surface of completion; After adjustable wrench is pulled the body actinal surface and has been milled; Right cross slide seat 35 rapid traverses are milled the cutting position of main spindle box 14 to preceding crouching, and are milled preceding on the main spindle box 14 and are crouched and mill left milling cutter 16 and mill two millings (as shown in Figure 6) that adjustable wrench is pulled the body groove of completion that turn clockwise of right milling cutter 18 with preceding crouching by preceding crouching; Mill completely, right workbench 34 moves quickly into original initial, set position, and clamping workpiece gets into next circulation (digital control system is not drawn among the figure, omits).
In the practical operation when the workpiece on the left workbench 10 is being carried out milling and is pulled the body actinal surface and pull body groove operation; Workpiece on the right workbench is being carried out drilling operating; Workpiece on left workbench 10 is accomplished to mill and is pulled body actinal surface and groove milling operation and move on to the clamping station fast and carry out clamping workpiece and get into drilling operating; Workpiece on the right workbench 34 is carried out and is milled actinal surface and groove milling operation at this moment, thereby alternately processes continuously about realizing, to increase work efficiency.
The utility model effect detects and analyzes:
The utility model adopts clamping workpiece after on the anchor clamps, accomplishes adjustable wrench and pulls body and bore macropore, rough mills actinal surface, the finish-milling actinal surface, and groove milling four procedures, whole process only needs people's operation, compares prior art and adopts four lathes to divide four procedures, by 4 people's operations.
The utility model adopts a clamping, accomplishes the processing of four procedures, compares No. four clampings of prior art four procedures, has reduced the amount of labour of inter process turnover, has removed the position error of workpiece multiple clamping
The utility model adopts two (left and right) vertical drill main spindle boxes of symmetric arrangement and each vertical drill main spindle box that three output shafts are set; A drilling stroke can be accomplished the brill macropore of two workpiece simultaneously; And the setting of two vertical drill main spindle boxes and two (left and right) workbench moves process continuously, has removed the clamping workpiece time.
The utility model is enhanced productivity more than two times compared to prior art, and the workpiece machining accuracy is improved.
The utility model is produced spanner in all links all are arranged in the confined space, works in coordination between each parts and the structure, produces synergy, all processing of disposable completion.And make it structure and obviously simplify, the production equipment cost declines to a great extent, and efficient obviously improves.
The scope that the utility model is asked for protection is not limited to the explanation of this embodiment.
Claims (8)
1. multistation adjustable wrench numerical control composite processing machine tool is characterized in that left vertical drill main spindle box is connected with left column, and is movably connected on the left column guide rail; Left side workbench is connected with left cross slide seat, and is movably connected on the guide rail of left cross slide seat, and left cross slide seat is movably connected on the guide rail of lathe bed; Before crouch and to mill main spindle box and mill vertical slide and is connected with preceding crouching, preceding crouching milled vertical slide and milled column and be connected with crouching, and is movably connected in for sleeping in milling on the column fromer rail, lies on one's side to mill main spindle box and mill column and be connected with for sleeping in, and is movably connected in for sleeping in milling on the stud sides guide rail; Right vertical drill main spindle box is connected with right column, and is movably connected on the right column guide rail; Right workbench is connected with right cross slide seat, and is movably connected on the guide rail of right cross slide seat, and right cross slide seat is movably connected on the guide rail of lathe bed.
2. multistation adjustable wrench numerical control composite processing machine tool according to claim 1 is characterized in that connecting on the lathe bed left cross slide seat, right cross slide seat, and left workbench, right workbench also connect servomotor respectively.
3. multistation adjustable wrench numerical control composite processing machine tool according to claim 1, it is characterized in that crouching milling being provided with column fromer rail and the stud sides guide rail that mills for sleeping in of milling for sleeping on the column.
4. multistation adjustable wrench numerical control composite processing machine tool according to claim 1 it is characterized in that left vertical drill main spindle box is connected with left column, and the structure that is movably connected on the left column guide rail constitutes an independent drilling machine.
5. multistation adjustable wrench numerical control composite processing machine tool according to claim 1 is characterized in that right vertical drill main spindle box is connected with right column, and the structure that is movably connected on the right column guide rail constitutes another independent drilling machine.
6. multistation adjustable wrench numerical control composite processing machine tool according to claim 1; Crouch before it is characterized in that and mill main spindle box and for sleeping inly mill vertical slide and be connected with preceding; Before crouch and to mill vertical slide and mill column and be connected with for sleeping in; And be movably connected in to crouch and mill on the column fromer rail, lie on one's side and mill main spindle box and mill column and be connected with crouching, and be movably connected in structure of milling on the stud sides guide rail for sleeping in and constitute an independent milling machine.
7. multistation adjustable wrench numerical control composite processing machine tool according to claim 1; It is characterized in that left vertical drill main spindle box is connected with left column, and be movably connected on the left column guide rail that preceding crouch milled main spindle box and for sleeping inly mill vertical slide and be connected with preceding; Before crouch and to mill vertical slide and mill column and be connected with for sleeping in; And be movably connected in to crouch and mill on the column fromer rail, lie on one's side and mill main spindle box and mill column and be connected with crouching, and be movably connected in structure of milling on the stud sides guide rail for sleeping in and constitute an independent lathe.
8. based on the described multistation adjustable wrench of claim 1 numerical control composite processing machine tool, it is characterized in that right vertical drill main spindle box is connected with right column, and be movably connected on the right column guide rail; Before crouch and to mill main spindle box and for sleeping inly mill vertical slide and be connected with preceding; Before crouch and to mill vertical slide and mill column and be connected with for sleeping in; And be movably connected in to crouch and mill on the column fromer rail, lie on one's side and mill main spindle box and mill column and is connected with crouching, and be movably connected in another independent lathe of structure formation that mills on the stud sides guide rail for sleeping in.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011204477632U CN202292095U (en) | 2011-11-10 | 2011-11-10 | Multi-station numerical control compound machine tool for adjustable wrenches |
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CN2011204477632U CN202292095U (en) | 2011-11-10 | 2011-11-10 | Multi-station numerical control compound machine tool for adjustable wrenches |
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CN2011204477632U Expired - Fee Related CN202292095U (en) | 2011-11-10 | 2011-11-10 | Multi-station numerical control compound machine tool for adjustable wrenches |
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Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102490012A (en) * | 2011-11-10 | 2012-06-13 | 南京宁庆数控机床制造有限公司 | Multi-station adjustable wrench numerical control combined machining machine tool |
CN103042390A (en) * | 2012-10-22 | 2013-04-17 | 南京宁庆数控机床制造有限公司 | Six-shaft multi-stage numerical control drilling milling machine tool |
CN103100743A (en) * | 2013-02-18 | 2013-05-15 | 海盐星辰工具有限公司 | Monkey wrench numerical control processing combined machine tool |
CN105149868A (en) * | 2015-07-28 | 2015-12-16 | 浙江亿洋工具制造有限公司 | Precise machining technique for spanner body blank head |
CN105150006A (en) * | 2015-07-28 | 2015-12-16 | 浙江亿洋工具制造有限公司 | Ten-station full-automatic spanner body processing center and processing method thereof |
CN105618811A (en) * | 2016-03-10 | 2016-06-01 | 中山市鸿程科研技术服务有限公司 | Vertical drilling mechanism for multifunctional automatic machining integrated machine |
CN105773155A (en) * | 2016-03-10 | 2016-07-20 | 中山市鸿程科研技术服务有限公司 | Multifunctional automatic machining integrated machine |
CN105798615A (en) * | 2016-03-10 | 2016-07-27 | 中山市鸿程科研技术服务有限公司 | Drilling system of multifunctional automatic machining all-in-one machine |
WO2017031869A1 (en) * | 2015-08-21 | 2017-03-02 | 张家港玉成精机股份有限公司 | Processing apparatus capable of processing adjustable jaws |
CN108214107A (en) * | 2018-02-01 | 2018-06-29 | 杭州大天数控机床有限公司 | The vertical sleeping composite manufacturing center of one kind |
CN108788261A (en) * | 2017-04-28 | 2018-11-13 | 中原内配集团智能装备有限公司 | Full automatic piston ring double-shaft horizontal milling machine |
CN115055968A (en) * | 2022-07-26 | 2022-09-16 | 邵东智能制造技术研究院有限公司 | Multi-station composite processing equipment for adjustable wrench |
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2011
- 2011-11-10 CN CN2011204477632U patent/CN202292095U/en not_active Expired - Fee Related
Cited By (15)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102490012A (en) * | 2011-11-10 | 2012-06-13 | 南京宁庆数控机床制造有限公司 | Multi-station adjustable wrench numerical control combined machining machine tool |
CN102490012B (en) * | 2011-11-10 | 2014-04-16 | 南京宁庆数控机床制造有限公司 | Multi-station adjustable wrench numerical control combined machining machine tool |
CN103042390A (en) * | 2012-10-22 | 2013-04-17 | 南京宁庆数控机床制造有限公司 | Six-shaft multi-stage numerical control drilling milling machine tool |
CN103100743A (en) * | 2013-02-18 | 2013-05-15 | 海盐星辰工具有限公司 | Monkey wrench numerical control processing combined machine tool |
CN105149868A (en) * | 2015-07-28 | 2015-12-16 | 浙江亿洋工具制造有限公司 | Precise machining technique for spanner body blank head |
CN105150006A (en) * | 2015-07-28 | 2015-12-16 | 浙江亿洋工具制造有限公司 | Ten-station full-automatic spanner body processing center and processing method thereof |
CN105150006B (en) * | 2015-07-28 | 2017-05-17 | 浙江亿洋工具制造有限公司 | Ten-station full-automatic spanner body processing center and processing method thereof |
WO2017031869A1 (en) * | 2015-08-21 | 2017-03-02 | 张家港玉成精机股份有限公司 | Processing apparatus capable of processing adjustable jaws |
CN105798615A (en) * | 2016-03-10 | 2016-07-27 | 中山市鸿程科研技术服务有限公司 | Drilling system of multifunctional automatic machining all-in-one machine |
CN105773155A (en) * | 2016-03-10 | 2016-07-20 | 中山市鸿程科研技术服务有限公司 | Multifunctional automatic machining integrated machine |
CN105618811A (en) * | 2016-03-10 | 2016-06-01 | 中山市鸿程科研技术服务有限公司 | Vertical drilling mechanism for multifunctional automatic machining integrated machine |
CN108788261A (en) * | 2017-04-28 | 2018-11-13 | 中原内配集团智能装备有限公司 | Full automatic piston ring double-shaft horizontal milling machine |
CN108788261B (en) * | 2017-04-28 | 2020-03-20 | 中原内配集团智能装备有限公司 | Full-automatic piston ring double-shaft horizontal milling machine |
CN108214107A (en) * | 2018-02-01 | 2018-06-29 | 杭州大天数控机床有限公司 | The vertical sleeping composite manufacturing center of one kind |
CN115055968A (en) * | 2022-07-26 | 2022-09-16 | 邵东智能制造技术研究院有限公司 | Multi-station composite processing equipment for adjustable wrench |
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