CN210967805U - Novel turn-milling composite structure - Google Patents
Novel turn-milling composite structure Download PDFInfo
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- CN210967805U CN210967805U CN201921759914.0U CN201921759914U CN210967805U CN 210967805 U CN210967805 U CN 210967805U CN 201921759914 U CN201921759914 U CN 201921759914U CN 210967805 U CN210967805 U CN 210967805U
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Abstract
The utility model provides a novel turn-milling composite construction which characterized in that: the device comprises a Z-axis mechanism, a composite tool rest and a fourth-axis rotating device; the front end of the Z-axis mechanism is provided with a spindle box, and a spindle is arranged in the spindle box; the composite tool rest is fixedly arranged on the spindle box by using screws; the fourth shaft rotating device is arranged on the platform and arranged below the main shaft, and a tool is arranged on the fourth shaft rotating device. The utility model is provided with the composite tool rest for installing the turning tool, so that the turning tool is more stable in fixation, and the cutting depth and the turning precision of the turning tool are enhanced; the composite tool rest is installed and fixed on the spindle box through screws, so that the spindle and the turning tool are fixed and separated independently, the spindle is not affected during turning, and the normal service life and the machining precision of the spindle under machining are guaranteed.
Description
Technical Field
The utility model relates to a lathe field, in particular to novel turn-milling composite construction.
Background
With the development of economy, people have higher and higher requirements on the technology and quality of various products, and the product updating period is shorter and shorter, so that in the large environment, higher requirements are provided for machining, and not only is the machining precision required to be high, but also the machining period is shorter. In order to achieve the precision and fast requirement, the part needs to be clamped once to complete all mechanical processing, and the processing is called composite processing. Composite machining is one of the most popular machining processes in the machining field internationally at present, and is an advanced manufacturing technology. The composite machining is realized by a plurality of different machining processes on one machine tool. At present, the composite processing is most widely applied and has the greatest difficulty, namely turning and milling composite processing. The turning and milling combined machining center is equivalent to the combination of a numerical control lathe and a machining center.
At present, a turning and milling composite structure commonly seen in the market is that a turning tool is clamped on a main shaft, the turning tool is fixed through the orientation function of the main shaft, and a workpiece is rotated through a fourth shaft rotating tool, so that the purpose of cutting is achieved. The turning and milling composite structure has good effect when being used at the initial stage, but the processing precision is greatly reduced after the turning and milling composite structure is used for a period of time; because the lathe tool of this kind of structure uses the directional function of main shaft to realize fixing, and fixed lathe tool is firm inadequately when the main shaft is directional, and during the cutting, the vibrations of handle of a knife can be transmitted to the main shaft, because realize the fixed of lathe tool through main shaft directional function, vibrations will concentrate on a position to the influence of main shaft, and the positioning accuracy of main shaft is influenced to the damage that just can cause the main shaft in the time of the day.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solves prior art's problem, provides a long service life, and the lathe tool is fixed firm, the high novel turn-milling composite construction of machining precision.
The technical scheme of the utility model is that a novel turning and milling composite structure is characterized in that the novel turning and milling composite structure comprises a Z-axis mechanism, a composite tool rest and a fourth-axis rotating device, a spindle box is installed at the front end of the Z-axis mechanism, a spindle is installed in the spindle box, the composite tool rest comprises a tool apron I, a tool apron II, a tool apron III, a tool apron I, a tool apron II and a tool apron III, the tool apron I, the tool apron II and the tool apron III are respectively installed on the tool apron II through screws, the tool apron I, the tool apron II and the tool apron III are respectively installed with tools, the tool apron I is installed on the end face of the spindle box through screws, the tool apron III is an L-shaped plate and is connected with the tool apron I and the spindle box at one side, the fourth-axis rotating device is installed on a platform and below the spindle, and is provided with tools.
Furthermore, a plurality of threaded holes IV are formed in the end face and the top face of the rear portion of the lathe tool seat I and are respectively used for fixedly mounting the lathe tool seat II and the lathe tool seat III.
Further, a plurality of round holes II are formed in the lathe tool seat II; a groove I is formed in the lathe tool seat II and used for positioning and mounting the lathe tool rest I; a plurality of threaded holes I are formed in the groove I; a groove II is formed in the lathe tool seat II and used for positioning and mounting the lathe tool rest II; a plurality of threaded holes II are formed in the groove II; the lathe tool seat II is also provided with a bulge for positioning and mounting the lathe tool rest III; and a plurality of threaded holes III are also formed in the end surface of the turning tool seat II on one side of the protrusion.
Further, the turning tool rest I, the turning tool rest II and the turning tool rest III are identical in structure; a groove IV is formed in the turning tool rest I and used for mounting the turning tool; and the turning tool rest I is respectively provided with a plurality of round holes III and a plurality of threaded holes V.
The utility model has the advantages that: the utility model is provided with the composite tool rest for installing the turning tool, so that the turning tool is more stable in fixation, and the cutting depth and the turning precision of the turning tool are enhanced; the composite tool rest is installed and fixed on the spindle box through screws, so that the spindle and the turning tool are fixed and separated independently, the spindle is not affected during turning, and the normal service life and the machining precision of the spindle under machining are guaranteed.
Drawings
FIG. 1 is a perspective view of the present invention; FIG. 2 is a perspective view of the composite tool holder of the present invention; FIG. 3 is a perspective view of the lathe saddle I of the present invention; FIG. 4 is a perspective view of a lathe saddle II according to the present invention; FIG. 5 is a perspective view of a lathe saddle III according to the present invention; FIG. 6 is a perspective view of the Z-axis mechanism of the present invention for mounting the composite tool holder; FIG. 7 is a diagram of an embodiment of the present invention using a vertical machine tool; fig. 8 is another perspective view of the composite tool holder for mounting the Z-axis mechanism of the present invention.
Detailed Description
As shown in the drawing, the novel turning and milling composite structure is characterized by comprising a Z-axis mechanism 1, a composite tool rest 2 and a fourth axis rotating device 3, wherein a spindle box 4 is installed at the front end of the Z-axis mechanism 1, a spindle 5 is installed in the spindle box 4, the composite tool 2 frame comprises a turning tool seat I21, a turning tool seat II 22, a turning tool seat III 23, a turning tool seat I24, a turning tool seat II 25 and a turning tool seat III 26, the turning tool seat I24, the turning tool seat II 25 and the turning tool seat III 26 are respectively installed on the turning tool seat II 22 through screws, the turning tool seat II 22 is connected with the turning tool seat I21 through screws, a plurality of installation round holes 211I are formed in the front portion of the turning tool seat I21, the turning tool seat I21 is installed on the end face of the spindle box 4 through screws, the turning tool seat III 23 is an L-shaped plate, one side of the turning tool seat I21 is connected with the turning tool seat I21, one side of the turning tool seat II 21 is provided with a plurality of installation round holes, a plurality of mounting holes 224I 24 II 24 and a plurality of a positioning screw holes for installing a turning tool seats II 24 and a plurality of a turning tool seats II 24 and a positioning screw hole 24 and a plurality of a positioning screw hole 224 are formed in the turning tool seat II 24 and a positioning screw hole for installing a turning tool seat II 24 and a positioning screw hole for installing II 24, a positioning screw hole 24 and a positioning screw hole 24 II 26, a positioning screw hole for installing II 26, a turning tool seat II, a positioning screw hole for installing II, a turning tool seat II, a plurality of a turning tool II 24 and a turning tool seat II 24 and a positioning screw hole for installing II 24 II 26, a positioning screw hole for installing II 24 and a positioning screw hole for installing II, a positioning screw hole for.
The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.
Claims (4)
1. A novel turning and milling composite structure is characterized by comprising a Z-axis mechanism, a composite tool rest and a fourth-axis rotating device, wherein a spindle box is mounted at the front end of the Z-axis mechanism, a spindle is mounted in the spindle box, the composite tool rest comprises a tool post I, a tool post II, a tool post III, a tool post I, a tool post II and a tool post III, the tool post I, the tool post II and the tool post III are respectively mounted on the tool post II through screws, turning tools are respectively mounted on the tool post I, the tool post II and the tool post III, the tool post II is connected with the tool post I through screws, a plurality of mounting circular holes I are formed in the front portion of the tool post I, the tool post I is mounted on the end face of the spindle box through screws, the tool post III is an L-shaped plate, one side of the tool post III is connected with the tool post I, the other side of the tool post III is connected with the spindle box, and the fourth-axis rotating device is mounted on.
2. The novel turn-milling composite structure as claimed in claim 1, wherein: and a plurality of threaded holes IV are formed in the end surface and the top surface of the rear part of the lathe tool seat I and are respectively used for fixedly mounting the lathe tool seat II and the lathe tool seat III.
3. The novel turn-milling composite structure as claimed in claim 1, wherein: a plurality of circular holes II are formed in the lathe tool seat II; a groove I is formed in the lathe tool seat II and used for positioning and mounting the lathe tool rest I; a plurality of threaded holes I are formed in the groove I; a groove II is formed in the lathe tool seat II and used for positioning and mounting the lathe tool rest II; a plurality of threaded holes II are formed in the groove II; the lathe tool seat II is also provided with a bulge for positioning and mounting the lathe tool rest III; and a plurality of threaded holes III are also formed in the end surface of the turning tool seat II on one side of the protrusion.
4. The novel turn-milling composite structure as claimed in claim 1, wherein: the turning tool rest I, the turning tool rest II and the turning tool rest III are identical in structure; a groove IV is formed in the turning tool rest I and used for mounting the turning tool; and the turning tool rest I is respectively provided with a plurality of round holes III and a plurality of threaded holes V.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921759914.0U CN210967805U (en) | 2019-10-19 | 2019-10-19 | Novel turn-milling composite structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921759914.0U CN210967805U (en) | 2019-10-19 | 2019-10-19 | Novel turn-milling composite structure |
Publications (1)
Publication Number | Publication Date |
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CN210967805U true CN210967805U (en) | 2020-07-10 |
Family
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Family Applications (1)
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CN201921759914.0U Active CN210967805U (en) | 2019-10-19 | 2019-10-19 | Novel turn-milling composite structure |
Country Status (1)
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CN (1) | CN210967805U (en) |
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2019
- 2019-10-19 CN CN201921759914.0U patent/CN210967805U/en active Active
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