Process the adjustable bore hole alloy knife of gross porosity pore simultaneously
Technical field
The present invention relates to a kind of cutter, specifically relate to the adjustable bore hole alloy knife simultaneously processing gross porosity pore, the feed of gross porosity pore can be realized, once complete gross porosity pore two procedures, belong to auto-parts tooling cost field.
Background technology
At present, due to developing rapidly of automobile industry, the kind of auto parts machinery also increases sharply thereupon, motor turning part, complex structure, especially automobile component bore hole operation, its aperture precision requires very high, general employing profile milling cutter two step processing, first step rough bore, the thin bore hole of second step, because foundry goods endoporus is coarse, quickly, processing cost is high in profile milling cutter consumption.Change into after alloy mechanical clamped cutting tool, also must be divided into heavy boring hole, thin boring hole, not only consume large, resetting is of poor quality, and efficiency is also very low.
Summary of the invention
In view of the defect that prior art exists, the present invention can provide a kind of adjustable bore hole alloy knife simultaneously processing gross porosity pore, by installing gross porosity alloy knife block and pore alloy knife block, realizing a feed, completing two procedures; Bore size is changed by adjustment cutter block position during tool wear, reach and upgrade tool dimension effect, more tool changing block can also not continue the alloy knife block after using wearing and tearing, the object realizing alloy knife block long service life, easy to adjust, processing cost is low, improve Boring preciseness, economize on resources.
To achieve these goals, the technical solution adopted in the present invention is: the adjustable bore hole alloy knife of processing gross porosity pore, is characterized in that comprising: cutter body, pore alloy knife block, gross porosity alloy knife block, gross porosity alloy knife block clamping screw, pore alloy block cutter hub, pore cutter hub adjuster, pore alloy block clamping device, pore alloy cutter hub clamping device; Cutter body one end is provided with gross porosity alloy knife block, gross porosity alloy knife block is fixed on cutter body by gross porosity alloy knife block clamping screw, with the cutter body of gross porosity alloy knife block adjacent position on be provided with pore alloy block cutter hub, pore alloy knife block is arranged on pore alloy cutter hub by pore alloy block clamping device;
Pore cutter hub adjuster is provided with, for adjusting the height parallel distance of pore point of a knife and gross porosity point of a knife below pore alloy block cutter hub;
Be provided with pore cutter hub clamping device in pore alloy block cutter hub side, pore alloy block cutter hub is fixed on cutter body by pore cutter hub clamping device;
Add man-hour, be arranged on by gross porosity alloy knife block in the v-depression of cutter body front end, be fixed on cutter hub with gross porosity alloy knife block clamping screw by gross porosity alloy knife block, ensure during installation that point of a knife is on the center line of workpiece, point of a knife direction is at processing work inner hole part, pore alloy knife block is arranged on pore alloy block cutter hub, pore alloy block cutter hub is embedded in distance gross porosity alloy knife block one section and limits on the same cutter body of distance, pore alloy knife block is equipped with at grooving position, pore alloy block clamping device is had to be fixed on pore alloy block cutter hub by pore alloy knife block, pore alloy block cutter hub carries out by the pore cutter hub adjuster of below the height parallel distance adjusting point of a knife and gross porosity point of a knife, a pore alloy cutter hub clamping device is provided with in pore alloy block cutter hub side, after mixing up position, by pore alloy cutter hub clamping device, pore alloy block cutter hub is fixed in the grooving of scalpel body, pore cutter hub adjuster controls pore alloy knife block and upwards moves down, to keep certain height distance with rough turn point of a knife, supplement the wear extent of alloy knife block attrition, a feed is realized with such cutter, complete gross porosity pore to process simultaneously.
The invention has the beneficial effects as follows:
Used by the adjustable bore hole alloy knife processing gross porosity pore simultaneously, reach the accumulated error raising Boring quality reducing and repeat to install, reduce the generation of waste product; Extend tool dimension service life, the alloy knife block after wearing and tearing can continue to use, and realizes alloy knife block maximum effect, easy to adjust, the low object economized on resources of processing cost.
Accompanying drawing explanation
Fig. 1 is the adjustable bore hole alloy knife assembly drawing simultaneously processing gross porosity pore.
Fig. 2 is the adjustable bore hole alloy knife A-A sectional view simultaneously processing gross porosity pore
Fig. 3 is the adjustable bore hole alloy knife B-B sectional view simultaneously processing gross porosity pore.
Fig. 4 is the adjustable bore hole alloy knife pore alloy block cutter hub front view simultaneously processing gross porosity pore.
Fig. 5 is the adjustable bore hole alloy knife pore alloy block cutter hub top view of simultaneously processing gross porosity pore.
In figure, 1, cutter body, 2, pore alloy knife block, 3, gross porosity alloy knife block, 4, gross porosity alloy knife block clamping screw, 5, pore alloy block cutter hub, 6, pore cutter hub adjuster, 7, pore alloy block clamping device, 8, pore alloy cutter hub clamping device.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described in detail.
The adjustable bore hole alloy knife of processing gross porosity pore, is characterized in that comprising: cutter body 1, pore alloy knife block 2, gross porosity alloy knife block 3, gross porosity alloy knife block clamping screw 4, pore alloy block cutter hub 5, pore cutter hub adjuster 6, pore alloy block clamping device 7, pore alloy cutter hub clamping device 8; Cutter body 1 one end is provided with gross porosity alloy knife block 3, gross porosity alloy knife block 3 is fixed on cutter body 1 by gross porosity alloy knife block clamping screw 4, with the cutter body 1 of gross porosity alloy knife block 3 adjacent position on be provided with pore alloy block cutter hub 5, pore alloy knife block 2 is arranged on pore alloy cutter hub 5 by pore alloy block clamping device 7;
Pore cutter hub adjuster 6 is provided with, for adjusting the height parallel distance of pore point of a knife and gross porosity point of a knife below pore alloy block cutter hub 5;
Be provided with pore cutter hub clamping device 8 in pore alloy block cutter hub 5 side, pore alloy block cutter hub 5 is fixed on cutter body 1 by pore cutter hub clamping device 8;
After gross porosity closes, golden cutter 3 is in the forefront of cutter body 1, see Fig. 2 structure, by gross porosity alloy knife block clamping screw 4, gross porosity alloy knife block 2 is fixed on the anterior grooving position of cutter hub, must ensure during installation that point of a knife is on the center line of workpiece, point of a knife direction is at processing work inner hole part, pore alloy knife block 2 is arranged on pore alloy block cutter hub 5, Fig. 3 sectional view is seen in pore alloy block cutter hub 5 installation site, pore alloy block cutter hub 5 is embedded in distance gross porosity alloy knife block 4 one sections and limits on the same cutter body 1 of distance, pore alloy block cutter hub 5 structural member Fig. 4, Fig. 5 front view and top view, pore alloy knife block 2 is equipped with at grooving position, pore alloy block clamping device 7 is had to be fixed on pore alloy block cutter hub 5 by pore alloy knife block 2, pore alloy block cutter hub 5 carries out by the pore cutter hub adjuster 6 of below the height parallel distance adjusting point of a knife and gross porosity point of a knife, (can measure pore point of a knife by instrument, the size exceeding gross porosity point of a knife is 1/2nd of pore allowance), a pore alloy cutter hub clamping device 8 is provided with in pore alloy block cutter hub 5 side, after mixing up position, by pore alloy cutter hub clamping device 8, pore alloy block cutter hub 5 is fixed in the grooving of cutter body 1, pore cutter hub adjuster 6 controls pore alloy knife block 2 and upwards moves down, to keep certain height distance with rough turn point of a knife, supplement the wear extent of alloy knife block attrition.