CN102310331B - Top hole combined processing power plant of special combined machine tool - Google Patents
Top hole combined processing power plant of special combined machine tool Download PDFInfo
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- CN102310331B CN102310331B CN 201110235713 CN201110235713A CN102310331B CN 102310331 B CN102310331 B CN 102310331B CN 201110235713 CN201110235713 CN 201110235713 CN 201110235713 A CN201110235713 A CN 201110235713A CN 102310331 B CN102310331 B CN 102310331B
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- unit head
- fixed mount
- power head
- straight line
- screw mandrel
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Abstract
The invention discloses a top hole combined processing power plant of a special combined machine tool, which comprises a drilling processing power head, a tapping processing power head, a power head main driving device, a power head vertical feeding device, a first power head fixing frame, a second power head fixing frame and a power head transverse driving device, wherein input shafts of the drilling processing power head and the tapping processing power head are both in transmission connection with the power head main driving device; the power head vertical feeding device comprises a vertical feeding cylinder, a vertical feeding cylinder connecting plate, a first linear rail, a spring center rod, a compression spring and a travel switch; and the power head transverse driving device comprises a power head transverse feeding motor, a second linear rail, a third linear rail, a lead screw and a lead screw base. The top hole combined processing power plant has the advantages of high processing efficiency and high processing precision.
Description
Technical field
The present invention relates to machine tool field, especially a kind of special purpose transfer machine.
Background technology
As everyone knows, lathe divides universal machine tools and special purpose machine tool two large classes.In the modern Economy Development process of China, realize the adjustment of industry mechanism, realize the automation of production, very urgent.Because the disappearance of Chinese population bonus has become undisputable fact, so must cause domestic present most of labor-intensive enterprises to face huge crisis.In " 12 planning ", " mechanical high-end manufacturing " mentioned a brand-new step, it serves to show that country is to the attention of this problem.Machine tool industry has attracted historical opportunity to develop as a very important link in the high-end manufacturing.And modern enterprise is the automation of realization portioned product production and processing, and the application space of special purpose machine tool can be more and more extensive.Modern manufacturing industry is had higher requirement to special purpose machine tool towards small batch, high-quality, high accuracy.
Summary of the invention
For lower, the unsettled deficiency of crudy of working (machining) efficiency that overcomes existing special purpose transfer machine, the invention provides the apical pore combination processing dynamics device of the special purpose transfer machine that a kind of working (machining) efficiency is high, machining accuracy is high.
The technical solution adopted for the present invention to solve the technical problems is:
A kind of apical pore combination processing dynamics device of special purpose transfer machine, described apical pore combination processing dynamics device comprises Drilling operation unit head, tapping processing dynamics head, unit head main drive, the vertical feed arrangement of unit head, the first unit head fixed mount, the second unit head fixed mount and unit head lateral driver device, and the power shaft of described Drilling operation unit head, tapping processing dynamics head all is in transmission connection with described unit head main drive;
The vertical feed arrangement of described unit head comprises vertical feeding cylinder, vertical feeding cylinder connecting plate, the first straight line line rail, the spring center bar, Compress Spring and travel switch, described vertical feeding cylinder is installed on the second unit head fixed mount, the push rod of described vertical feeding cylinder is connected with the first unit head fixed mount by described vertical feeding cylinder connecting plate, described the first straight line line rail is fixedly mounted on the second unit head fixed mount, described the first unit head fixed mount is connected on the second unit head fixed mount by the slide block that is complementary with the first straight line line rail, the bottom of described spring center bar is fixed on the second unit head fixed mount, the coupling hole of the first unit head fixed mount is passed at the top of described spring center bar, described Compress Spring is sleeved on outside the spring center bar, and described travel switch is installed on the second unit head fixed mount by auxiliary plate;
Described unit head lateral driver device comprises unit head traverse feed motor, the second straight line line rail, the 3rd straight line line rail, screw mandrel and screw mandrel base, described screw mandrel, the second straight line line rail are fixed on the screw mandrel base, described screw mandrel base is fixedly mounted on the frame, described the 3rd straight line line rail is installed on the frame, described the second unit head fixed mount is fixedly connected on the frame by the slide block with the second straight line line rail, the 3rd straight line line rail, screw mandrel coupling, and described unit head traverse feed motor is connected with screw mandrel.
Further, described unit head main drive comprises reducing motor, two V belt wheels, the two V belt wheels of flange extended type and pretension bolt, a two V belt wheel is installed on the described reducing motor output shaft, the two V belt wheels of a flange extended type are installed on the power shaft of described Drilling operation unit head and tapping processing dynamics head, the described pair of V belt wheel is connected the V belt wheel transmission and connected with the flange extended type, described reducing motor is fixed on the motor support plate, an end is undertaken hingedly between described motor support plate and the first unit head fixed mount by the motor hinged seat, and the described motor support plate other end is installed in order to realize that V is with the pretension bolt of the pretension of transmission.
Beneficial effect of the present invention is mainly manifested in: greatly improve the workpiece working (machining) efficiency, the machining accuracy of lifting workpieces.
Description of drawings
Fig. 1 is the structure chart of special purpose transfer machine of the present invention.
Fig. 2 is the structural representation of apical pore combination processing dynamics device.
Fig. 3 is the another side structural representation of apical pore combination processing dynamics device.
The specific embodiment
The invention will be further described below in conjunction with accompanying drawing.
With reference to Fig. 1~Fig. 3, a kind of apical pore combination processing dynamics device of special purpose transfer machine, comprise Drilling operation unit head 5-15 and tapping processing dynamics head 5-16, described apical pore processing dynamics head comprises outside unit head main drive, the vertical feed arrangement of unit head, the first unit head fixed mount 6-1, the second unit head fixed mount 6-6, also comprises the unit head lateral driver device; The vertical feed arrangement of described unit head comprises vertical feeding cylinder 6-3, vertical feeding cylinder connecting plate, the first straight line line rail 6-4, spring center bar 6-11, Compress Spring 6-12, travel switch 6-13, described vertical feeding cylinder 6-3 is installed on the second unit head fixed mount 6-6, the push rod of described vertical feeding cylinder 6-3 is connected with the first unit head fixed mount 6-1 by vertical feeding cylinder connecting plate, described the first straight line line rail 6-4 is fixedly mounted on the second unit head fixed mount 6-6, described the first unit head fixed mount 6-1 is connected on the second unit head fixed mount 6-6 by the slide block that is complementary with the first straight line line rail 6-6, the bottom of described spring center bar 6-11 is fixed on the second unit head fixed mount 6-6, the coupling hole of the first unit head fixed mount 6-1 is passed at the top of described spring center bar 6-11, described Compress Spring 6-12 is sleeved on outside the spring center bar 6-11, the gravity that is used for balance apical pore processing dynamics head, described travel switch 6-13 is installed on the second unit head fixed mount 6-6 by auxiliary plate.Described unit head lateral driver device comprises unit head traverse feed motor 6-9, the second straight line line rail 6-5, the 3rd straight line line rail 6-10, screw mandrel 6-7, screw mandrel base 6-8, described screw mandrel 6-7, the second straight line line rail 6-5 is fixed on the screw mandrel base 6-8, described screw mandrel base 6-8 is fixedly mounted on the frame, described the 3rd straight line line rail 6-10 is installed on the frame, described the second unit head fixed mount 6-6 by with the second straight line line rail 6-5, the 3rd straight line line rail 6-10, the slide block of screw mandrel 6-7 coupling is fixedly connected on the frame 1, and described unit head traverse feed motor 6-9 is used for driving screw mandrel 6-7.
Described unit head main drive comprises reducing motor, two V belt wheel 5-6, the two V belt wheel 6-2 of flange extended type, pretension bolt 5-11, a two V belt wheel 5-6 is installed on the described reducing motor output shaft, the two V belt wheel 6-2 of a flange extended type are installed on the power shaft of described unit head, consist of the band transmission, described reducing motor is fixed on the motor support plate 5-7, an end is undertaken hinged by motor hinged seat 5-8 between described motor support plate 5-7 and the first unit head fixed mount 6-1, the other end realizes that by pretension bolt 5-11 V is with the pretension of transmission, wherein, described reducing motor comprises boring reducing motor 5-1, tapping reducing motor 5-2.
In the present embodiment, special purpose transfer machine comprises frame 1, pan feeding module 2, assembling and disassembling manipulator 3, workpiece level feeding module 4, gaging hole combination processing dynamics head 5, apical pore combination processing dynamics head 6 and control module, described pan feeding module 2 is at an end of frame 1, comprise pan feeding drive unit and reconfigurable pan feeding guide mechanism, described assembling and disassembling manipulator 3 is positioned at the upper end of described pan feeding module 2 and workpiece level feeding module 4, comprise translation driving device and vertical lifting clamping device, described workpiece level feeding module 4 comprises workpiece level Feed table 4-5, Workpiece clamping device and reconfigurable fixture combination, two ends at described workpiece level feeding module 4, arrange respectively gaging hole combination processing dynamics head 5, and at the other end of frame, be furnished with apical pore combination processing dynamics device 6, described combination processing dynamics head is the assembly of Drilling operation unit head and tapping processing dynamics head, and described control system realizes the Collaborative Control between each module of special purpose transfer machine.Described special purpose transfer machine is used for finishing boring and the tapping processing of workpiece 7 apical pores, gaging hole.
The bottom of described frame 1 is that the aluminium alloy extrusions overlap joint forms, and desired structure is built by various section bars in top, is used for installing each operational module, and the overall structure of frame 1 is complicated, for strengthening the overhanging strong rigidity of part, need establish floor.
The course of work of present embodiment is: workpiece level feeding module 4 moves to the apical pore processing stations, is finished by apical pore Drilling operation unit head first the drilling of workpiece 7 apical pores is processed, and is finished by apical pore tapping processing dynamics head the tapping of workpiece 7 apical pores is processed.
Claims (2)
1. the apical pore of a special purpose transfer machine makes up the processing dynamics device, it is characterized in that: described apical pore combination adds
Worker's power set comprise Drilling operation unit head, tapping processing dynamics head, unit head main drive, the vertical feed arrangement of unit head, the first unit head fixed mount, the second unit head fixed mount and unit head lateral driver device,
The power shaft of described Drilling operation unit head, tapping processing dynamics head all is in transmission connection with described unit head main drive;
The vertical feed arrangement of described unit head comprises vertical feeding cylinder, vertical feeding cylinder connecting plate, the first straight line line rail, the spring center bar, Compress Spring and travel switch, described vertical feeding cylinder is installed on the second unit head fixed mount, the push rod of described vertical feeding cylinder is connected with the first unit head fixed mount by described vertical feeding cylinder connecting plate, described the first straight line line rail is fixedly mounted on the second unit head fixed mount, described the first unit head fixed mount is connected on the second unit head fixed mount by the slide block that is complementary with the first straight line line rail, the bottom of described spring center bar is fixed on the second unit head fixed mount, the coupling hole of the first unit head fixed mount is passed at the top of described spring center bar, described Compress Spring is sleeved on outside the spring center bar, and described travel switch is installed on the second unit head fixed mount by auxiliary plate;
Described unit head lateral driver device comprises unit head traverse feed motor, the second straight line line rail, the 3rd straight line line rail, screw mandrel and screw mandrel base, described screw mandrel, the second straight line line rail are fixed on the screw mandrel base, described screw mandrel base is fixedly mounted on the frame, described the 3rd straight line line rail is installed on the frame, described the second unit head fixed mount is fixedly connected on the frame by the slide block with the second straight line line rail, the 3rd straight line line rail, screw mandrel coupling, and described unit head traverse feed motor is connected with screw mandrel.
2. the apical pore of special purpose transfer machine as claimed in claim 1 makes up the processing dynamics device, it is characterized in that:
Described unit head main drive comprises reducing motor, two V belt wheels, the two V belt wheels of flange extended type and pretension bolt, a two V belt wheel is installed on the described reducing motor output shaft, the two V belt wheels of a flange extended type are installed on the power shaft of described Drilling operation unit head and tapping processing dynamics head, the described pair of V belt wheel is connected the V belt wheel transmission and connected with the flange extended type, described reducing motor is fixed on the motor support plate, an end is undertaken hinged by the motor hinged seat between described motor support plate and the first unit head fixed mount, the described motor support plate other end is installed in order to realize V with the pretension bolt of the pretension of transmission, and described reducing motor comprises boring reducing motor and tapping reducing motor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201110235713 CN102310331B (en) | 2011-08-17 | 2011-08-17 | Top hole combined processing power plant of special combined machine tool |
Applications Claiming Priority (1)
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CN 201110235713 CN102310331B (en) | 2011-08-17 | 2011-08-17 | Top hole combined processing power plant of special combined machine tool |
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CN102310331A CN102310331A (en) | 2012-01-11 |
CN102310331B true CN102310331B (en) | 2013-04-17 |
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CN 201110235713 Expired - Fee Related CN102310331B (en) | 2011-08-17 | 2011-08-17 | Top hole combined processing power plant of special combined machine tool |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2291238Y (en) * | 1997-04-09 | 1998-09-16 | 常州机床总厂 | Fixed beam numerical controlled planer drilling machine |
DE20207916U1 (en) * | 2002-05-22 | 2002-08-14 | Tripols Union Formenbau Gmbh | Deep hole drilling machine |
CN201098743Y (en) * | 2007-09-20 | 2008-08-13 | 浙江西菱台钻制造有限公司 | Multi-shaft digital control drill press capable of automatic feeding |
CN101786176A (en) * | 2010-01-06 | 2010-07-28 | 叶树立 | Blank punching device in lighter pagoda punching mechanism |
CN201799860U (en) * | 2010-08-11 | 2011-04-20 | 杨贵庭 | Multi-head numerical control drilling machine |
-
2011
- 2011-08-17 CN CN 201110235713 patent/CN102310331B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2291238Y (en) * | 1997-04-09 | 1998-09-16 | 常州机床总厂 | Fixed beam numerical controlled planer drilling machine |
DE20207916U1 (en) * | 2002-05-22 | 2002-08-14 | Tripols Union Formenbau Gmbh | Deep hole drilling machine |
CN201098743Y (en) * | 2007-09-20 | 2008-08-13 | 浙江西菱台钻制造有限公司 | Multi-shaft digital control drill press capable of automatic feeding |
CN101786176A (en) * | 2010-01-06 | 2010-07-28 | 叶树立 | Blank punching device in lighter pagoda punching mechanism |
CN201799860U (en) * | 2010-08-11 | 2011-04-20 | 杨贵庭 | Multi-head numerical control drilling machine |
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