CN201862862U - Numerical control curve cylindrical gear milling machine - Google Patents
Numerical control curve cylindrical gear milling machine Download PDFInfo
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- CN201862862U CN201862862U CN 201020619059 CN201020619059U CN201862862U CN 201862862 U CN201862862 U CN 201862862U CN 201020619059 CN201020619059 CN 201020619059 CN 201020619059 U CN201020619059 U CN 201020619059U CN 201862862 U CN201862862 U CN 201862862U
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- lathe bed
- guide rail
- numerical control
- column
- control curve
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Abstract
The utility model relates to a numerical control curve cylindrical gear milling machine which comprises a machine body, a vertical column, a cutter shaft box, a workbench and a numerical control system; the machine body comprises a front machine body and a rear machine body; the front machine body and the rear machine body are connected through a fastener; the rear machine body is provided with a driving guide rail; the vertical column is arranged on the driving guide rail; an automatic mobile mechanism is arranged between the bottom of the vertical column and the rear machine body; the cutter shaft box is arranged on the vertical column through a manual vertical regulation mechanism and a chute; the front machine body is provided with a driven guide rail; the driven guide rail and the driving guide rail are mutually vertical; the workbench is arranged on the driven guide rail; and the automatic mobile mechanism is arranged between the bottom of the workbench and the front machine body. The utility model provides the gear milling machine which has a compact structure and high automatic performance, is practical and convenient to operate, and is used for processing curve cylindrical gears.
Description
Technical field
The invention belongs to mill teeth machine technology field, particularly relate to a kind of numerical control gear milling machine that is used for the Processing Curve roller gear.
Background technology
The curve roller gear is meant that the gear teeth of gear are the roller gear of a camber line, and the flank profil of curved tooth cylindrical gear has two kinds: involute profile and circular arc profile.The involute profile curved tooth cylindrical gear is compared general spur gear, helical gear and herringbone bear, has the intensity height, life-span is long, operate steadily, noise is low, advantages such as no axial force, this curved tooth cylindrical gear uses for many years on heavy rolling mill and mining machinery, and produced good economic benefits, and in other heavy-duty machinery fields, this curve roller gear still has very big development and usage space.In addition, replacing existing helical gear reducer (PM decelerator) with the curved tooth cylindrical gear decelerator is that market prospects are arranged very much.
Be not specifically designed at present the mill teeth machine of Processing Curve roller gear on the market.Existing mill teeth machine can only be by the feeding of workbench and the machining of bevel gears that rotatablely moves.In addition, mill teeth machine fuselage is an integral type, and body volume is very big, and the user is difficult near workpiece to be machined, uses operation inconvenience.So anxious wait to develop a kind of special Processing Curve roller gear, the numerical control gear milling machine that automatization level is high.
Summary of the invention
The objective of the invention is to overcome above-mentioned the deficiencies in the prior art, the numerical control gear milling machine of a kind of automaticity height, the range of work is wide, machine tool structure is compact, the easy for operation numerical control curve roller gear that can be used for processing curve roller gear is provided.
The technical scheme that the present invention takes for the technical problem that exists in the solution known technology is: a kind of numerical control curve roller gear mill teeth machine, comprise lathe bed, column, the cutter shaft case, workbench and digital control system, it is characterized in that: lathe bed and back lathe bed before described lathe bed comprises, preceding lathe bed is connected by securing member with the back lathe bed, initiatively guide rail is installed on the back lathe bed, described column is arranged on the active guide rail, be provided with automatic travel mechanism between the bottom of column and the back lathe bed, described cutter shaft case is installed on the column by manual vertically modulating mechanism and slideway, described external crucible is equipped with driven guide rail on one's body, described driven guide rail is with initiatively guide rail is orthogonal, described workbench is arranged on the driven guide rail, is provided with automatic travel mechanism between the bottom of workbench and the preceding lathe bed.
The present invention can also adopt following technical scheme:
Described automatic travel mechanism comprises: servomotor, the ball-screw that is connected with servomotor by shaft coupling, the nut seat that is connected with ball-screw, and nut seat is fixed on the bottom of column, and the two ends of ball-screw are installed on the lathe bed of back by bearing.
Described manual vertically modulating mechanism comprises: leading screw and the dial that is installed in the leading screw top, and the top of described leading screw is installed on the column by bearing, and the bottom of leading screw connects with the cutter shaft case.
Described cutter shaft case comprises: spindle motor; First power transmission shaft that is connected with spindle motor; With second power transmission shaft of first power transmission shaft by a pair of external gear pump transmission; With the output shaft of second power transmission shaft by engaged transmission in a pair, milling head is installed on the output shaft, above-mentioned first power transmission shaft, second power transmission shaft and output shaft all are installed on the cutter shaft box body by bearing and flange cover.
Described servomotor all is connected with digital control system with spindle motor.
Lathe bed is connected by screw with the back lathe bed before described.
Arc end facing cut cutterhead is installed on the described milling head.
Advantage and good effect that the present invention has are: at first, the invention provides a kind of numerical control gear milling machine of Processing Curve roller gear, filled up the technological gap that does not have the mill teeth machine of special Processing Curve roller gear in the milling machine field, the scope of application of curve roller gear and user demand have determined the present invention to have extraordinary market prospects; Secondly, topology layout compactness of the present invention, the user can be to greatest extent near workpiece to be machined, and is easy to operate and use; Spindle motor among the present invention and servomotor are all by electrical system control, automaticity height, and the machining accuracy height of lathe.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 is the structural representation that is positioned at the automatic travel mechanism of column bottom among the present invention;
Fig. 3 is the structural representation that is positioned at the automatic travel mechanism of workbench bottom among the present invention;
Fig. 4 is the structural representation of cutter shaft case among the present invention;
Fig. 5 is that the A-A of Fig. 4 is to view;
Fig. 6 is the structural representation of manual vertically modulating mechanism among the present invention.
Sequence number is described as follows among the figure:
100, preceding lathe bed; 101, driven guide rail;
200, back lathe bed; 201, active guide rail;
300, column; 301, slideway;
400, manual vertically modulating mechanism; 401, leading screw; 402, dial; 403, bearing bracket stand;
500, cutter shaft case; 501, spindle motor; 502, first power transmission shaft; 503, second travelling gear; 504, second power transmission shaft; 505, the 3rd travelling gear; 506, milling head; 507, ring gear; 508, output shaft; 509, first travelling gear; 510, casing; 511 guide pin bushings; 512, ring flange;
600, workbench;
700, automatic travel mechanism; 701, private clothes motor; 702, ball-screw; 703, nut seat.
The specific embodiment
For further understanding summary of the invention of the present invention, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:
See also Fig. 1, a kind of numerical control curve roller gear mill teeth machine, lathe bed 100, back lathe bed 200, column 300, cutter shaft case 500, workbench 600 and digital control system before comprising, digital control system is not expressed in the drawings.Before described lathe bed 100 and afterwards lathe bed 200 be connected by screw, on the preceding lathe bed 100 driven guide rail 101 is installed, initiatively guide rail 201 is installed on the back lathe bed 200, driven guide rail 101 is with initiatively guide rail 201 is vertical mutually, initiatively on the guide rail 201 column 300 is set, it is identical with existing mill teeth machine worktable that workbench 600(workbench is set on the driven guide rail 101, and non-structure improves).The bottom that is positioned at workbench 600 on preceding lathe bed 100 is equipped with automatic travel mechanism 700, and automatic travel mechanism 700 is installed in the bottom that is positioned at column 300 on the lathe bed 200 of back.Cutter shaft case 500 is fitted on the column 300 by vertical slideway 301, manual vertically modulating mechanism 400 is installed between cutter shaft case 500 and the column 300, and the user can regulate slideway 301 motions that cutter shaft case 500 is vertically gone up by manual vertically modulating mechanism 400 on column 300.
The concrete structure of each parts and annexation are as follows in this mill teeth machine:
Seeing also the automatic travel mechanism 700 of Fig. 1, Fig. 2 and Fig. 3 comprises: servomotor 701 and ball-screw 702, servomotor 701 is installed on the lathe bed 200 of back by bolt, the output shaft of servomotor 701 connects ball-screw 702 by shaft coupling, equipped nut seat 703 on the ball-screw 702.
Bottom at column 300, automatically the two ends of the ball-screw 702 of travel mechanism 700 are installed on the lathe bed 300 of back by standard components such as bearing, pressure mother and flange covers, the nut seat 703 that is equipped with ball-screw 702 is connected with column 300 by bolt, servomotor 701 is connected with digital control system, servomotor 701 is subjected to digital control system control and work, drive ball-screw 702 axial rotation, drive column 300 with this and on active guide rail 201, move.
Bottom at workbench 600, automatically the two ends of the ball-screw 702 of travel mechanism 700 are installed on the preceding lathe bed 100 by standard components such as bearing, pressure mother and flange covers, the nut seat 703 that is equipped with ball-screw 702 is connected with workbench 600 by bolt, servomotor 701 is connected with digital control system, servomotor 701 is subjected to digital control system control and work, drive ball-screw 702 axial rotation, drive workbench 600 with this and on driven guide rail 101, move.
See also Fig. 1, Fig. 4 and Fig. 5, the structure of cutter shaft case 500 comprises: spindle motor 501, first power transmission shaft 502, second power transmission shaft 504 and output shaft 508, described spindle motor 501 is connected with digital control system, spindle motor 501 connects first power transmission shaft 502 by shaft coupling, first travelling gear 509 is installed on first power transmission shaft 502, second travelling gear 503 with 509 engagements of first travelling gear is installed on second power transmission shaft 504, also be processed with the 3rd travelling gear 505 on second power transmission shaft 504, the ring gear 507 with 505 engagements of the 3rd travelling gear is installed on the output shaft 508.Above-mentioned first power transmission shaft 502, second power transmission shaft 504 and output shaft 508 are installed on the casing 510 of cutter shaft case 500 by standard components such as bearing and flange covers respectively, output shaft 508 stretches out an end of casing 510 milling head 506 is installed, during the work of mill teeth machine, the facing cutter (not shown) is installed on the milling head, and facing cutter is selected arc end facing cut cutterhead for use.By the female guide pin bushing 511 of bolt mounting strap, on cutter shaft case 500, be positioned at the offside mounting flange 512 of guide pin bushing 511 on the cutter shaft case 500, guide pin bushing 511 and ring flange 512 coaxial lines.
Manually vertically modulating mechanism 400 comprises: leading screw 401 and dial 402, leading screw 401 vertically is installed on the column 300 by bearing bracket stand 403, pressure bearing and pressure mother, dial 402 is installed by rivet in the upper end of leading screw 401, the threaded portion, lower end of leading screw 401 and the guide pin bushing on the cutter shaft case 500 511 are by thread connection, and the user can make cutter shaft case 500 move along the slideway on the column 301 by rotation scale 402.
Principle according to rack cutter and gears engaged, the formation arc tooth line that rotatablely moves of arc end facing cut cutterhead, each blade of facing cutter is equivalent to the single blade of tooth bar, column is done rectilinear motion and the motion of workpiece formation rolling cut on the active guide rail simultaneously, processes the straight line involute profile of workpiece with this.
Claims (7)
1. numerical control curve roller gear mill teeth machine, comprise lathe bed, column, the cutter shaft case, workbench and digital control system, it is characterized in that: lathe bed and back lathe bed before described lathe bed comprises, preceding lathe bed is connected by securing member with the back lathe bed, initiatively guide rail is installed on the back lathe bed, described column is arranged on the active guide rail, be provided with automatic travel mechanism between the bottom of column and the back lathe bed, described cutter shaft case is installed on the column by manual vertically modulating mechanism and slideway, described external crucible is equipped with driven guide rail on one's body, described driven guide rail is with initiatively guide rail is orthogonal, described workbench is arranged on the driven guide rail, is provided with automatic travel mechanism between the bottom of workbench and the preceding lathe bed.
2. numerical control curve roller gear mill teeth machine according to claim 1, it is characterized in that: described automatic travel mechanism comprises: servomotor, the ball-screw that is connected with servomotor by shaft coupling, the nut seat that is connected with ball-screw, nut seat is fixed on the bottom of column, and the two ends of ball-screw are installed on the lathe bed of back by bearing.
3. numerical control curve roller gear mill teeth machine according to claim 1, it is characterized in that: described manual vertically modulating mechanism comprises: leading screw and the dial that is installed in the leading screw top, the top of described leading screw is installed on the column by bearing, and the bottom of leading screw connects with the cutter shaft case.
4. numerical control curve roller gear mill teeth machine according to claim 1, it is characterized in that: described cutter shaft case comprises: spindle motor; First power transmission shaft that is connected with spindle motor; With second power transmission shaft of first power transmission shaft by a pair of external gear pump transmission; With the output shaft of second power transmission shaft by engaged transmission in a pair, milling head is installed on the output shaft, above-mentioned first power transmission shaft, second power transmission shaft and output shaft all are installed on the cutter shaft box body by bearing and flange cover.
5. according to claim 1,2 or 4 described numerical control curve roller gear mill teeth machines, it is characterized in that: described servomotor all is connected with digital control system with spindle motor.
6. numerical control curve roller gear mill teeth machine according to claim 1 is characterized in that: lathe bed is connected by screw with the back lathe bed before described.
7. numerical control curve roller gear mill teeth machine according to claim 4 is characterized in that: arc end facing cut cutterhead is installed on the described milling head.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201020619059 CN201862862U (en) | 2010-11-25 | 2010-11-25 | Numerical control curve cylindrical gear milling machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201020619059 CN201862862U (en) | 2010-11-25 | 2010-11-25 | Numerical control curve cylindrical gear milling machine |
Publications (1)
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CN201862862U true CN201862862U (en) | 2011-06-15 |
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CN 201020619059 Expired - Fee Related CN201862862U (en) | 2010-11-25 | 2010-11-25 | Numerical control curve cylindrical gear milling machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101982277A (en) * | 2010-11-25 | 2011-03-02 | 天津第一机床总厂 | Numerical control curve cylindrical gear miller |
CN105333064A (en) * | 2015-10-31 | 2016-02-17 | 西安科技大学 | Herringbone tooth surface gear transmission mechanism and tooth milling method for herringbone tooth surface gear of herringbone tooth surface gear transmission mechanism |
-
2010
- 2010-11-25 CN CN 201020619059 patent/CN201862862U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101982277A (en) * | 2010-11-25 | 2011-03-02 | 天津第一机床总厂 | Numerical control curve cylindrical gear miller |
CN105333064A (en) * | 2015-10-31 | 2016-02-17 | 西安科技大学 | Herringbone tooth surface gear transmission mechanism and tooth milling method for herringbone tooth surface gear of herringbone tooth surface gear transmission mechanism |
CN105333064B (en) * | 2015-10-31 | 2018-09-18 | 西安科技大学 | The Gear Milling method of double helical tooth face gear transmission mechanism and its herringbone flank of tooth gear |
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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: 20110615 Termination date: 20151125 |