CN202804291U - Double-beam planer type milling machine - Google Patents
Double-beam planer type milling machine Download PDFInfo
- Publication number
- CN202804291U CN202804291U CN 201220366908 CN201220366908U CN202804291U CN 202804291 U CN202804291 U CN 202804291U CN 201220366908 CN201220366908 CN 201220366908 CN 201220366908 U CN201220366908 U CN 201220366908U CN 202804291 U CN202804291 U CN 202804291U
- Authority
- CN
- China
- Prior art keywords
- column
- cross beam
- feed box
- crossbeam
- rear cross
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Machine Tool Units (AREA)
Abstract
The utility model discloses a double-beam planer type milling machine. The double-beam planer type milling machine comprises a machine body; an operating platform is movably connected to the machine body; a vertical post is fixedly connected to the left side of the machine body; a first vertical post is fixedly connected to the right side of the machine body; a connecting beam is fixedly connected between the upper end of vertical post and the upper end of the first vertical post; a front beam is in slide connection with the front sides of the vertical post and the first vertical post; a rear beam is in slide connection with the rear sides of the vertical post and the first vertical post; beam slide plates are respectively connected to the front beams and the rear beams in the transmission manner; two groups of lifting devices are arranged on the connecting beam and are respectively connected with the front beam and the rear beam in the transmission manner; one group of the lifting devices is arranged in a position, close to one side of the front beam, on the connecting beam and is in transmission connection with the front beams, and another group of lifting devices is arranged in a position, close to one side of the rear beam, on the connecting beam and is in transmission connection with the rear beam; and the two groups of lifting devices are respectively connected with a power driving device in the transmission manner. By adopting the scheme mentioned above, the double-beam planer type milling machine is high in production efficiency and processing precision.
Description
Technical field
The utility model relates to a kind of planer-type milling machine, relates to specifically a kind of pair of beam planer type milling machine.
Background technology
Special material is constantly weeded out the old and bring forth the new at present, and working (machining) efficiency and the precision of lathe are had higher requirement.Universal machine tools powerful, but do not possess economy and specialized production.If universal machine tools are repeatedly adjusted to realize the processing of workpiece, not only expend man-hour but also aggravation equipment attrition, drop to working (machining) efficiency, increased production cost.
Summary of the invention
Problem to be solved in the utility model is for overcoming above-mentioned technological deficiency, providing a kind of production efficiency and machining accuracy high two beam planer type milling machines.
In order to address the above problem, the utility model by the following technical solutions:
A kind of pair of beam planer type milling machine comprises lathe bed, is connected with workbench on the lathe bed, and the left side of lathe bed is fixedly connected with column, and the right side of lathe bed is fixedly connected with the first column, is fixedly connected with tie-beam between the upper end of column and the first column;
The front side of described column and the first column slidely connects front beam, and rear side slidely connects rear cross beam, is connected with respectively the crossbeam slide plate on front beam and the rear cross beam;
Described tie-beam is provided with two groups of lifting devices, described two groups of lifting devices are in transmission connection with front beam and rear cross beam respectively, wherein one group of lifting device is located on the tie-beam and is in transmission connection near the position of front beam one side and with front beam, and another group is located on the tie-beam and is in transmission connection near the position of rear cross beam one side and with rear cross beam; Described two groups of lifting devices are in transmission connection with Power Drive Unit respectively.
Below be the utility model for further improvement of these options:
The lifting device that is in transmission connection with front beam comprises the lift tank that is located at respectively column and the first column top, is separately installed with the lifting leading screw that is in transmission connection with front beam on this column and the first column.
The lifting device that is in transmission connection with rear cross beam comprises the lift tank that is located at respectively column and the first column top, is separately installed with the lifting leading screw that is in transmission connection with rear cross beam on column and the first column.
Power Drive Unit comprises the lifting motor that is in transmission connection by connecting axle respectively with two lift tanks.
Further improve:
Described crossbeam slide plate comprises the first crossbeam slide plate, the second cross beam slide plate, and the quantity of the crossbeam slide plate on the described front beam is one, the quantity of described rear cross beam entablature slide plate is two.
Further improve: interlaced arrangement between the first crossbeam slide plate on the described front beam and the second cross beam slide plate on the rear cross beam.
Further improve: an end of described front beam is provided with the first vertical slide feed box, described the first vertical slide feed box upper driving is connected with the first crossbeam motor, the other end of front beam is provided with the crossbeam end plate, described the first vertical slide feed box is in transmission connection by transverse beam feed screw and first crossbeam slide plate, described transverse beam feed screw and crossbeam end plate are slidingly connected, and the first vertical slide feed box horizontally slips along front beam by driving the transverse beam feed screw rotation and then driving the first crossbeam slide plate; Described the first vertical slide feed box is provided with the first shift handle.
Further improve: an end of described rear cross beam is provided with the vertical slide feed box, described vertical slide feed box upper driving is connected with the crossbeam motor, the other end of rear cross beam is provided with the first crossbeam end plate, described vertical slide feed box is in transmission connection by rear cross beam leading screw and two second cross beam slide plates, described rear cross beam leading screw and first crossbeam end plate are slidingly connected, and described vertical slide feed box horizontally slips along rear cross beam by driving the rotation of rear cross beam leading screw and then driving two second cross beam slide plates; Described vertical slide feed box is provided with shift handle.
Further improve: described shift handle and shift handle have respectively left and right, empty three gears, can realize single feeding and the simultaneously feeding of crossbeam slide plate, and can realize two-way positive and negative direction feeding.
Further improve: be connected with the side milling slide plate by the side milling leading screw on the side of described column and front beam phase the same side, described side milling slide plate is located at the position of close front beam bottom.
Further improve: the upper end of described side milling leading screw slidely connects bearing, described bearing is fixedly connected with column, the lower end of described side milling leading screw is connected with the side milling feed box by shaft coupling transmission, described side milling feed box upper driving is connected with the side milling motor, and described side milling feed box is fixedly connected with column.
Further improve: be connected with the first side milling slide plate by the first side milling leading screw on the side of described the first column and front beam phase the same side, described the first side milling slide plate is located at the position of close front beam bottom; The upper end of described the first side milling leading screw slidely connects the first bearing, described the first bearing is fixedly connected with the first column, the lower end of described the first side milling leading screw is connected with the first side milling feed box by the first shaft coupling transmission, described the first side milling feed box upper driving is connected with the first side milling motor, and described the first side milling feed box is fixedly connected with the first column.
The utility model adopts such scheme, owing to adopted front beam and two crossbeams of rear cross beam, front beam is provided with a crossbeam slide plate, rear cross beam is provided with two crossbeam slide plates, respectively be provided with a slide plate on two heel posts, can process workpiece simultaneously by five slide plates, reduce the number of strokes, improve working (machining) efficiency; Slide plate on front beam and the rear cross beam moves in the horizontal direction can realize boring and milling zero center distance, has solved the one-sided excessive problem of the inevitable centre-to-centre spacing of slide plate of milling; Clamped one time can be realized batch machining, has reduced location and clamping times, has eliminated the error of multiple bearing and milling wear error repeatedly.
The utility model is described in further detail below in conjunction with drawings and Examples.
Description of drawings
Accompanying drawing 1 is the structural representation of the utility model embodiment;
Accompanying drawing 2 is the left view of accompanying drawing 1.
Among the figure: the 1-lathe bed; The 2-workbench; The 3-column; 4-side milling feed box; 5-side milling motor; The 6-shaft coupling; 7-side milling leading screw; 8-side milling slide plate; 9-crossbeam end plate; The 10-transverse beam feed screw; The 11-front beam; 12-crossbeam motor; 13-vertical slide feed box; The 14-rear cross beam; The 15-bearing; 16-promotes leading screw; The 17-lift tank; The 18-connecting axle; The 19-lifting motor; The 20-tie-beam; 21-second cross beam slide plate; The 22-shift handle; 3A-the first column; 4A-the first side milling feed box; 5A-the first side milling motor; 6A-the first shaft coupling; 7A-the first side milling leading screw; 8A-the first side milling slide plate; 9A-first crossbeam end plate; 12A-first crossbeam motor; 13A-the first vertical slide feed box; 15A-the first bearing; 17A-the first lift tank; 21A-first crossbeam slide plate; 22A-the first shift handle.
The specific embodiment
Embodiment, as shown in Figure 1 and Figure 2, a kind of pair of beam planer type milling machine, comprise lathe bed 1, be connected with workbench 2 on the lathe bed 1, the left side of lathe bed 1 is fixedly connected with column 3, and the right side of lathe bed 1 is fixedly connected with the first column 3A, is fixedly connected with tie-beam 20 between the upper end of column 3 and the first column 3A.
The front side of described column 3 and the first column 3A slidely connects front beam 11, and rear side slidely connects rear cross beam 14, is connected with respectively the crossbeam slide plate on front beam 11 and the rear cross beam 14.
Described tie-beam 20 is provided with two groups of lifting devices, described two groups of lifting devices are in transmission connection with front beam 11 and rear cross beam 14 respectively, described wherein one group of lifting device is located on the tie-beam 20 and is in transmission connection near the position of front beam 11 1 sides and with front beam 11, and another group is located on the tie-beam 20 and is in transmission connection near the position of rear cross beam 14 1 sides and with rear cross beam 14.
Described two groups of lifting devices are in transmission connection with Power Drive Unit respectively.
The lifting device that is in transmission connection with front beam 11 comprises the lift tank 17 that is located at respectively column 3 and the first column 3A top, is separately installed with the lifting leading screw 16 that is in transmission connection with front beam 11 on this column 3 and the first column 3A.
The lifting device that is in transmission connection with rear cross beam 14 comprises the lift tank 17A that is located at respectively column 3 and the first column 3A top, is separately installed with the lifting leading screw 16 that is in transmission connection with rear cross beam 14 on column 3 and the first column 3A.
Power Drive Unit comprises the lifting motor 19 that is in transmission connection by connecting axle 18 respectively with two lift tanks 17.
Described lifting device can be the device of any known castering action, as long as can drive front beam 11 and rear cross beam 14 moves up and down along column 3 and the first column 3A.
Described crossbeam slide plate comprises first crossbeam slide plate 21A, second cross beam slide plate 21, and the quantity of the crossbeam slide plate on the described front beam 11 is one, the quantity of described rear cross beam 14 entablature slide plates is two.
Interlaced arrangement between first crossbeam slide plate 21A on the described front beam 11 and the second cross beam slide plate 21 on the rear cross beam 14.
One end of described front beam 11 is provided with the first vertical slide feed box 13A, described the first vertical slide feed box 13A upper driving is connected with first crossbeam motor 12A, the other end of front beam 11 is provided with crossbeam end plate 9, described the first vertical slide feed box 13A is in transmission connection with first crossbeam slide plate 21A by transverse beam feed screw 10, described transverse beam feed screw 16 is slidingly connected with crossbeam end plate 9, and the first vertical slide feed box 13A horizontally slips along front beam 11 by driving transverse beam feed screw 10 rotations and then driving first crossbeam slide plate 21A; Described the first vertical slide feed box 13A is provided with the first shift handle 22A.
That described the first shift handle 22A has is left and right, empty three gears, can realize single feeding and the simultaneously feeding of first crossbeam slide plate 21A, and can realize two-way positive and negative direction feeding.
One end of described rear cross beam 15 is provided with vertical slide feed box 13, described vertical slide feed box 13 upper drivings are connected with crossbeam motor 12, the other end of rear cross beam 15 is provided with first crossbeam end plate 9A, described vertical slide feed box 13 is in transmission connection by rear cross beam leading screw and two second cross beam slide plates 21, described rear cross beam leading screw and first crossbeam end plate 9A are slidingly connected, and described vertical slide feed box 13 horizontally slips along rear cross beam 15 by driving the rotation of rear cross beam leading screw and then driving two second cross beam slide plates 21; Described vertical slide feed box 13 is provided with shift handle 22.
That described shift handle 22 has is left and right, empty three gears, can realize single feeding and the simultaneously feeding of second cross beam slide plate 21, and can realize two-way positive and negative direction feeding.
Be connected with sliding 8 plates of side milling by side milling leading screw 7 on the side of described column 3 and front beam 11 phase the same sides, described side milling slide plate 8 is located at the position near front beam 11 bottoms;
The upper end of described side milling leading screw 7 slidely connects bearing 15, described bearing 15 is fixedly connected with column 3, the lower end of described side milling leading screw 7 is connected with side milling feed box 4 by shaft coupling 6, described side milling feed box 4 upper drivings are connected with side milling motor 5, and described side milling feed box 4 is fixedly connected with column 3.
Be connected with the first side milling slide plate 8A by the first side milling leading screw 7A on the side of described the first column 3A and front beam 11 phase the same sides, described the first side milling slide plate 8A is located at the position near front beam 11 bottoms;
The upper end of described the first side milling leading screw 7A slidely connects the first bearing 15A, described the first bearing 15A is fixedly connected with the first column 3A, the lower end of described the first side milling leading screw 7A is connected with the first side milling feed box 4A by the first shaft coupling 6A, described the first side milling feed box 4A upper driving is connected with the first side milling motor 5A, and described the first side milling feed box 4A is fixedly connected with the first column 3A.
During use, clamping workpiece on workbench, can be processed separately workpiece or simultaneously processing by the milling cutter of installing on side milling slide plate and the crossbeam slide plate.Also front beam 11 and rear cross beam 14 can be risen to sustained height, the whole cutting of large face is carried out on the upper plane of workpiece, working (machining) efficiency improves greatly.Even can pass through the end installation way, realization side milling slide plate and crossbeam slide plate to workpiece processing, are accomplished one-shot forming simultaneously, have eliminated the error that multiple bearing and clamping produce, and have improved precision and efficient.
Claims (10)
1. two beam planer type milling machine, comprise lathe bed (1), be connected with workbench (2) on the lathe bed (1), the left side of lathe bed (1) is fixedly connected with column (3), the right side of lathe bed (1) is fixedly connected with the first column (3A), is fixedly connected with tie-beam (20) between the upper end of column (3) and the first column (3A);
It is characterized in that:
Described column (3) slidely connects front beam (11) with the front side of the first column (3A), and rear side slidely connects rear cross beam (12), is connected with respectively the crossbeam slide plate on front beam (11) and the rear cross beam (12);
Described tie-beam (20) is provided with two groups of lifting devices, described two groups of lifting devices are in transmission connection with front beam (11) and rear cross beam (12) respectively, wherein one group of lifting device is located on the tie-beam (20) and is in transmission connection near the position of front beam (11) one sides and with front beam (11), and another group is located at the position of upper close rear cross beam (12) one sides of tie-beam (20) and is in transmission connection with rear cross beam (12); Described two groups of lifting devices are in transmission connection with Power Drive Unit respectively.
2. a kind of pair of beam planer type milling machine according to claim 1 is characterized in that:
The lifting device that is in transmission connection with front beam (11) comprises the lift tank (17) that is located at respectively column (3) and the first column (3A) top, is separately installed with the lifting leading screw (16) that is in transmission connection with front beam (11) on this column (3) and the first column (3A);
The lifting device that is in transmission connection with rear cross beam (12) comprises the lift tank (17A) that is located at respectively column (3) and the first column (3A) top, is separately installed with the lifting leading screw (16) that is in transmission connection with rear cross beam (12) on column (3) and the first column (3A);
Power Drive Unit comprises the lifting motor (19) that is in transmission connection by connecting axle (18) respectively with two lift tanks (17).
3. a kind of pair of beam planer type milling machine according to claim 2 is characterized in that:
Described crossbeam slide plate comprises first crossbeam slide plate (21A), second cross beam slide plate (21), and the quantity of the crossbeam slide plate on the described front beam (11) is one, the quantity of described rear cross beam (14) entablature slide plate is two.
4. a kind of pair of beam planer type milling machine according to claim 3 is characterized in that:
Interlaced arrangement between first crossbeam slide plate (21A) on the described front beam (11) and the second cross beam slide plate (21) on the rear cross beam (14).
5. a kind of pair of beam planer type milling machine according to claim 4 is characterized in that:
One end of described front beam (11) is provided with the first vertical slide feed box (13A), described the first vertical slide feed box (13A) upper driving is connected with first crossbeam motor (12A), the other end of front beam (11) is provided with crossbeam end plate (9), described the first vertical slide feed box (13A) is in transmission connection by transverse beam feed screw (10) and first crossbeam slide plate (21A), described transverse beam feed screw (16) is slidingly connected with crossbeam end plate (9), and the first vertical slide feed box (13A) horizontally slips along front beam (11) by driving transverse beam feed screw (10) rotation and then driving first crossbeam slide plate (21A); Described the first vertical slide feed box (13A) is provided with the first shift handle (22A).
6. a kind of pair of beam planer type milling machine according to claim 4 is characterized in that:
One end of described rear cross beam (15) is provided with vertical slide feed box (13), described vertical slide feed box (13) upper driving is connected with crossbeam motor (12), the other end of rear cross beam (15) is provided with first crossbeam end plate (9A), described vertical slide feed box (13) is in transmission connection by rear cross beam leading screw and two second cross beam slide plates (21), described rear cross beam leading screw and first crossbeam end plate (9A) are slidingly connected, and described vertical slide feed box (13) horizontally slips along rear cross beam (15) by driving the rotation of rear cross beam leading screw and then driving two second cross beam slide plates (21); Described vertical slide feed box (13) is provided with shift handle (22).
7. it is characterized in that according to claim 5 or 6 described a kind of pair of beam planer type milling machines:
Described shift handle (22) has respectively left and right, empty three gears with shift handle (22A), can realize single feeding and the simultaneously feeding of crossbeam slide plate, and can realize two-way positive and negative direction feeding.
8. a kind of pair of beam planer type milling machine according to claim 7 is characterized in that:
Be connected with side milling slide plate (8) by side milling leading screw (7) on the side of described column (3) and front beam (11) phase the same side, described side milling slide plate (8) is located at the position near front beam (11) bottom.
9. a kind of pair of beam planer type milling machine according to claim 8 is characterized in that:
The upper end of described side milling leading screw (7) slidely connects bearing (15), described bearing (15) is fixedly connected with column (3), the lower end of described side milling leading screw (7) is connected with side milling feed box (4) by shaft coupling (6), described side milling feed box (4) upper driving is connected with side milling motor (5), and described side milling feed box (4) is fixedly connected with column (3).
10. a kind of pair of beam planer type milling machine according to claim 7, it is characterized in that: be connected with the first side milling slide plate (8A) by the first side milling leading screw (7A) on the side of described the first column (3A) and front beam (11) phase the same side, described the first side milling slide plate (8A) is located at the position near front beam (11) bottom; The upper end of described the first side milling leading screw (7A) slidely connects the first bearing (15A), described the first bearing (15A) is fixedly connected with the first column (3A), the lower end of described the first side milling leading screw (7A) is connected with the first side milling feed box (4A) by the first shaft coupling (6A), described the first side milling feed box (4A) upper driving is connected with the first side milling motor (5A), and described the first side milling feed box (4A) is fixedly connected with the first column (3A).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220366908 CN202804291U (en) | 2012-07-27 | 2012-07-27 | Double-beam planer type milling machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220366908 CN202804291U (en) | 2012-07-27 | 2012-07-27 | Double-beam planer type milling machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202804291U true CN202804291U (en) | 2013-03-20 |
Family
ID=47863235
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 201220366908 Expired - Fee Related CN202804291U (en) | 2012-07-27 | 2012-07-27 | Double-beam planer type milling machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN202804291U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106624084A (en) * | 2016-09-29 | 2017-05-10 | 宁波德玛智能机械有限公司 | Gantry type double-head computer numerical control (CNC) milling machine for hub machining |
CN106807997A (en) * | 2015-11-30 | 2017-06-09 | 湖南衡泰机械科技有限公司 | A kind of simple carving and milling machine |
CN110900224A (en) * | 2019-12-12 | 2020-03-24 | 深圳市微语信息技术开发有限公司 | Numerical control metal cutting machine tool |
CN111151799A (en) * | 2020-03-13 | 2020-05-15 | 芜湖中铁轨道装备有限公司 | Combined multi-spindle milling machine |
-
2012
- 2012-07-27 CN CN 201220366908 patent/CN202804291U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106807997A (en) * | 2015-11-30 | 2017-06-09 | 湖南衡泰机械科技有限公司 | A kind of simple carving and milling machine |
CN106624084A (en) * | 2016-09-29 | 2017-05-10 | 宁波德玛智能机械有限公司 | Gantry type double-head computer numerical control (CNC) milling machine for hub machining |
CN106624084B (en) * | 2016-09-29 | 2018-10-26 | 宁波德玛智能机械有限公司 | Gantry type double-head CNC milling machine for wheel hub processing |
CN110900224A (en) * | 2019-12-12 | 2020-03-24 | 深圳市微语信息技术开发有限公司 | Numerical control metal cutting machine tool |
CN111151799A (en) * | 2020-03-13 | 2020-05-15 | 芜湖中铁轨道装备有限公司 | Combined multi-spindle milling machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN202715863U (en) | General double-Y-axis numerically-controlled planer type milling machine | |
CN201613452U (en) | Gantry type boring, milling and grinding combined numerical control machine | |
CN2925707Y (en) | Five-shaft connected milling planer | |
CN102091800B (en) | Automatic multi-station boring machine | |
CN202804291U (en) | Double-beam planer type milling machine | |
CN208196162U (en) | The vertical compound multi-panel machining center that crouches of single column | |
CN102000981A (en) | Turning and boring composite processing center machine | |
CN102029525A (en) | Double-workbench gantry type tool | |
CN201613483U (en) | Reconfigurable vertical machining center | |
CN201677054U (en) | Gantry movable beam type numerical control drilling machine | |
CN203791991U (en) | Gantry-type multi-spindle machining center | |
CN202087965U (en) | Simple vertical type multifunctional machine tool | |
CN107775462A (en) | A kind of single shaft feeds double saw blade self-acting grinding machine | |
CN202763113U (en) | Novel numberical control multi-spindle drilling machine | |
CN201346694Y (en) | Machine tool for drilling center hole on flat end surface | |
CN104827110A (en) | Gantry type engraving and milling machine tool with multiple heads | |
CN204893634U (en) | Abnormal shape glass processing center | |
CN101342606A (en) | Milling processing method for memorial archway and ultra-large parts, and horizontal movable pole door type miller | |
CN201970092U (en) | Machine tool with inclined lathebed | |
CN205021160U (en) | Compound lathe of numerical control vertical milling boring for sleeping in | |
CN211332455U (en) | Novel vertical and horizontal combined machining center with structure | |
CN102091790A (en) | Double-post vertical lathe with cross beam and three guide rails | |
CN210967186U (en) | Plane bidirectional planing tool rest rotating around horizontal shaft | |
CN102873545A (en) | Roll milling machine | |
CN207495142U (en) | A kind of uniaxial feeding double-station saw blade self-acting grinding machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130320 Termination date: 20140727 |
|
EXPY | Termination of patent right or utility model |