CN202948287U - Workpiece processing speed self-adjusting type contour control numerical control machine tool - Google Patents
Workpiece processing speed self-adjusting type contour control numerical control machine tool Download PDFInfo
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- CN202948287U CN202948287U CN2012205843664U CN201220584366U CN202948287U CN 202948287 U CN202948287 U CN 202948287U CN 2012205843664 U CN2012205843664 U CN 2012205843664U CN 201220584366 U CN201220584366 U CN 201220584366U CN 202948287 U CN202948287 U CN 202948287U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
The utility model discloses a workpiece processing speed self-adjusting type contour control numerical control machine tool which comprises a machine tool body, an electric actuating mechanism, a servo actuating device and a control system and further comprises a processing speed self-adjusting system matched with the control system. A processing track of a processed workpiece is a closed curve formed by enabling a linear segment to be connected with an arc segment. The processing speed self-adjusting system comprises a data processor, a first processing speed setting unit for setting a processing speed of the linear segment in the processing track of the processed workpiece, a second processing speed setting unit for setting a processing speed of the arc segment in the processing track and a storage unit which stores linear segment processing speed values and arc segment processing speed values which respectively correspond to a plurality of different arc radiuses. The workpiece processing speed self-adjusting type contour control numerical control machine tool is reasonable in design, simple and convenient to operate, quick in processing speed and high in intelligence degree, control data transmitted to the machine tool are simple, the data size is small, and the processing speed of each processing speed can be matched with automatically.
Description
Technical field
The utility model relates to a kind of profile and controls numerically-controlled machine, especially relates to a kind of workpiece process velocity self-align type profile and controls numerically-controlled machine.
Background technology
Numerically-controlled machine refers to the lathe that adopts digital form information to control, that is to say and everyly with digitized code (being the numerical control file), relative shift between various operations required in the part process and step and cutter and workpiece etc. is recorded on program medium, send into computing machine or numerical control device through decoding, computing and processing, control cutter and the workpiece relative motion of lathe, and a corresponding class lathe that processes needed workpiece is numerically-controlled machine.Existing numerically-controlled machine can be divided into point position control numerically-controlled machine, straight line control numerically-controlled machine and profile by the movement locus of controlling and control numerically-controlled machine, wherein profile control numerically-controlled machine is to carry out simultaneously the control of serial correlation to displacement and the speed of two or more coordinates of motion, it not only will control the Origin And Destination coordinate of lathe moving-member, and to control speed, direction and the displacement of the every bit of whole process, work the work piece into the contour shape of requirement, also referred to as the stepless control numerically-controlled machine.Thereby, adopt TRAJECTORY CONTROL numerically-controlled machine first being processed, the numerical control file very complex of inputting, not only comprise the control data of controlling the lathe moving-member, the speed, direction and the displacement data that also comprise each Working position in whole process, the manufacturing process of numerical control file wastes time and energy, and the data volume of input Control System of NC Machine is also larger.
The utility model content
Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, provide a kind of workpiece process velocity self-align type profile to control numerically-controlled machine, it is reasonable in design, easy-to-connect, use is easy and simple to handle and process velocity is fast, intelligent degree is high, transport to control Machine-Tool Control data simple, and data volume is less, and the energy Auto-matching goes out the process velocity of each Working position.
for solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of workpiece process velocity self-align type profile is controlled numerically-controlled machine, comprise machine body, be arranged on described machine body and drive the electric operator that process tool is processed workpiece to be machined, to the electric operator servo drive that drives and the control system that is laid on described machine body, described servo drive is in transmission connection by gearing and electric operator and it is arranged on described machine body, it is characterized in that: also comprise the process velocity self-adjusting system that is used in conjunction with control system, described control system comprises controller that servo drive is controlled, is used for the parameter input unit of input workpiece to be machined machining locus, the related work parameter of servo drive is carried out the running parameter detecting unit that detects in real time and joined with controller respectively data-carrier store and display, the closed curve of the machining locus of described workpiece to be machined for being connected to form by straight-line segment and arc, the quantity of described straight-line segment is one or more, and the quantity of described arc is one or more, described process velocity self-adjusting system comprises the data processor that joins with controller, the process velocity setup unit one that straight-line segment process velocity in the workpiece to be machined machining locus is set, the process velocity setup unit two that arc process velocity in the workpiece to be machined machining locus is set and storage inside have straight-line segment process velocity numerical value and respectively from the storage unit of the corresponding arc process velocity numerical value of a plurality of different arc radius, described process velocity setup unit one, process velocity setup unit two and storage unit are all joined with data processor, described servo drive and controller join.
Above-mentioned workpiece process velocity self-align type profile is controlled numerically-controlled machine, it is characterized in that: also comprise direction detecting unit, speed detection unit and the position detection unit of respectively moving direction, translational speed and the shift position of described process tool being carried out detection in real time, described direction detecting unit, speed detection unit and position detection unit are all joined with controller.
Above-mentioned workpiece process velocity self-align type profile is controlled numerically-controlled machine, and it is characterized in that: described process velocity setup unit one and process velocity setup unit two are supervisory keyboard.
Above-mentioned workpiece process velocity self-align type profile is controlled numerically-controlled machine, it is characterized in that: also comprise the upper monitoring machine that joins with controller.
The utility model compared with prior art has the following advantages:
1, reasonable in design, cost is low and install to lay convenient.
2, the simple and easy-to-connect of circuit.
3, use that simple to operate, intelligent degree is high and display effect is directly perceived.
4, numerical control file layout is simple, actually add man-hour, only need the machining locus of input workpiece to be machined to get final product, the control system of numerically-controlled machine just can Auto-matching draws the process velocity of each Working position afterwards, and the process velocity of position is set generally by expert system or tradesman with long-term machine operation experience and is set, thereby the process velocity numerical value that adopts in processing is all very reasonable.
5, result of use is good, working (machining) efficiency is high and practical value is high, and is widely applicable.
In sum, the utility model is reasonable in design, easy-to-connect, use is easy and simple to handle and process velocity is fast, intelligent degree is high, transports to that to control the Machine-Tool Control data simple, and data volume is less, can Auto-matching goes out the process velocity of each Working position.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Description of drawings
Fig. 1 is schematic block circuit diagram of the present utility model.
Description of reference numerals:
1-electric operator; 2-servo drive; 3-control system;
3-1-controller; 3-2-parameter input unit; 3-3-data-carrier store;
3-4-running parameter detecting unit; 3-5-display;
4-process velocity self-adjusting system; 4-1-data processor;
4-2-process velocity setup unit one;
4-3-process velocity setup unit two; 4-4-storage unit;
5-1-direction detecting unit; 5-2-speed detection unit; 5-3-position detection unit;
6-upper monitoring machine.
Embodiment
As shown in Figure 1, the utility model comprises machine body, be arranged on described machine body and drive electric operator 1 that process tool processes workpiece to be machined, servo drive 2 that electric operator 1 is driven and be laid in control system 3 on described machine body, described servo drive 2 is in transmission connection by gearing and electric operator 1 and it is arranged on described machine body.Simultaneously, the utility model also comprises the process velocity self-adjusting system 4 that is used in conjunction with control system 3.Described control system 3 comprises controller 3-1 that servo drive 2 is controlled, is used for the parameter input unit 3-2 of input workpiece to be machined machining locus, the related work parameter of servo drive 2 is carried out the running parameter detecting unit 3-4 that detects in real time and joined with controller 3-1 respectively data-carrier store 3-3 and display 3-5.The closed curve of the machining locus of described workpiece to be machined for being connected to form by straight-line segment and arc, the quantity of described straight-line segment is one or more, and the quantity of described arc is one or more.described process velocity self-adjusting system 4 comprises the data processor 4-1 that joins with controller 3-1, process velocity setup unit one 4-2 that straight-line segment process velocity in the workpiece to be machined machining locus is set, process velocity setup unit two 4-3 that arc process velocity in the workpiece to be machined machining locus is set and storage inside have straight-line segment process velocity numerical value and respectively from the storage unit 4-4 of the corresponding arc process velocity numerical value of a plurality of different arc radius, described process velocity setup unit one 4-2, process velocity setup unit two 4-3 and storage unit 4-4 all join with data processor 4-1.Described servo drive 2 joins with controller 3-1.
In the present embodiment, the utility model also comprises direction detecting unit 5-1, speed detection unit 5-2 and the position detection unit 5-3 that respectively moving direction, translational speed and the shift position of described process tool is carried out detection in real time, and described direction detecting unit 5-1, speed detection unit 5-2 and position detection unit 5-3 all join with controller 3-1.
In the present embodiment, described process velocity setup unit one 4-2 and process velocity setup unit two 4-3 are supervisory keyboard.
Simultaneously, the utility model also comprises the upper monitoring machine 6 that joins with controller 3-1.
The above; it is only preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; every any simple modification, change and equivalent structure of above embodiment being done according to the utility model technical spirit changes, and all still belongs in the protection domain of technical solutions of the utility model.
Claims (4)
1. a workpiece process velocity self-align type profile is controlled numerically-controlled machine, comprise machine body, be arranged on described machine body and drive the electric operator (1) that process tool is processed workpiece to be machined, the servo drive (2) that electric operator (1) is driven and be laid in control system (3) on described machine body, described servo drive (2) is in transmission connection by gearing and electric operator (1) and it is arranged on described machine body, it is characterized in that: also comprise the process velocity self-adjusting system (4) that is used in conjunction with control system (3), described control system (3) comprises controller (3-1) that servo drive (2) is controlled, is used for the parameter input unit (3-2) of input workpiece to be machined machining locus, the related work parameter of servo drive (2) is carried out the running parameter detecting unit (3-4) that detects in real time and joined with controller (3-1) respectively data-carrier store (3-3) and display (3-5), the closed curve of the machining locus of described workpiece to be machined for being connected to form by straight-line segment and arc, the quantity of described straight-line segment is one or more, and the quantity of described arc is one or more, described process velocity self-adjusting system (4) comprises the data processor (4-1) that joins with controller (3-1), the process velocity setup unit one (4-2) that straight-line segment process velocity in the workpiece to be machined machining locus is set, the process velocity setup unit two (4-3) that arc process velocity in the workpiece to be machined machining locus is set and storage inside have straight-line segment process velocity numerical value and respectively from the storage unit (4-4) of the corresponding arc process velocity numerical value of a plurality of different arc radius, described process velocity setup unit one (4-2), process velocity setup unit two (4-3) and storage unit (4-4) are all joined with data processor (4-1), described servo drive (2) joins with controller (3-1).
2. control numerically-controlled machine according to workpiece process velocity self-align type profile claimed in claim 1, it is characterized in that: also comprise direction detecting unit (5-1), speed detection unit (5-2) and the position detection unit (5-3) of respectively moving direction, translational speed and the shift position of described process tool being carried out detection in real time, described direction detecting unit (5-1), speed detection unit (5-2) and position detection unit (5-3) are all joined with controller (3-1).
3. control numerically-controlled machine according to the described workpiece process velocity of claim 1 or 2 self-align type profile, it is characterized in that: described process velocity setup unit one (4-2) and process velocity setup unit two (4-3) are supervisory keyboard.
4. control numerically-controlled machine according to the described workpiece process velocity of claim 1 or 2 self-align type profile, it is characterized in that: also comprise the upper monitoring machine (6) that joins with controller (3-1).
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CN2012205843664U CN202948287U (en) | 2012-11-07 | 2012-11-07 | Workpiece processing speed self-adjusting type contour control numerical control machine tool |
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CN2012205843664U CN202948287U (en) | 2012-11-07 | 2012-11-07 | Workpiece processing speed self-adjusting type contour control numerical control machine tool |
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CN202948287U true CN202948287U (en) | 2013-05-22 |
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CN2012205843664U Expired - Fee Related CN202948287U (en) | 2012-11-07 | 2012-11-07 | Workpiece processing speed self-adjusting type contour control numerical control machine tool |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130522 Termination date: 20131107 |