CN208196381U

CN208196381U - Nonmetallic materials component process tool

Info

Publication number: CN208196381U
Application number: CN201820371125.9U
Authority: CN
Inventors: 秦文隆
Original assignee: Individual
Current assignee: Shenzhen Kedakang Optoelectronic Technology Co ltd
Priority date: 2018-03-19
Filing date: 2018-03-19
Publication date: 2018-12-07
Anticipated expiration: 2028-03-19

Abstract

The utility model is a kind of related nonmetallic materials component process tool, it is processed suitable for nonmetallic materials component, the nonmetallic materials component process tool mainly includes cutter hub, the cutter hub includes one first bar portion and one second bar portion, second bar portion front end has processing department, processing department covering surface has diamond granulosa, it is greater than the balance ring of the first bar portion outer diameter and the second bar portion outer diameter between first bar portion and the second bar portion with outer diameter, the balance ring has backflash in the second bar portion end, accordingly, the utility model has the spin stabilization degree for improving cutter, the effect of avoiding processing break flour pollution process equipment tool apron and forced refluence cutting fluid.

Description

Nonmetallic materials component process tool

Technical field

The utility model belongs to tool technical field, is particularly suitable for the processing of nonmetallic materials component, has It improves the spin stabilization degree of cutter, avoid one kind of processing break flour pollution process equipment tool apron and forced refluence cutting fluid effect non- Metal material component process tool.

Background technique

In with CNC toolroom machine milling procedure for processing, has and process such as ceramics, glass or graphite because of individual demand firmly Crisp nonmetallic materials.

Applicant previously applies for that the TaiWan, China notification number being approved is No. I613160, and patent name is vertical for air hermetic model The patent of body glass apparatus for continuous formation mainly includes: furnace body, and to be closed, both ends are equipped with exchange system outside furnace body, Furnace interior is equipped with air-tight cavity；Exchange system is set to furnace body both ends, and outer feed track is equipped between furnace body two ends exchange system, each to hand over The system of changing includes the outer gas-tight door set on the interior gas-tight door of furnace body side and set on outer feed track side, interior gas-tight door and outer gas-tight door Between form airtight space, and be equipped with gearshift and support plate be pushed into or removed furnace body, before support plate is sent to furnace body, furnace body head end Interior gas-tight door and outer gas-tight door be closing, to vacuumize and import in airtight space protective gas to ring identical in air-tight cavity Behind border, in furnace body side gas-tight door side open by support plate be pushed into air-tight cavity in, before support plate will send out air-tight cavity, furnace body tail end it is interior Gas-tight door and outer gas-tight door are closing, and it is evacuated in airtight space and import protective gas to ring identical in air-tight cavity Border, gas-tight door side, which opens, in furnace body side is pushed into support plate in airtight space, to avoid air outside furnace is mixed into air-tight cavity；It is airtight Chamber is set to furnace interior, includes air tight housing, has interior feed track in air tight housing, and interior feed track connection furnace body both ends are handed over Gas-tight door in system is changed, and is equipped with sliding rail, using the track mobile as support plate, which is air hermetic, and imports protection gas Body, and have heating zone, high-temperature molding area and cooling zone according to processing procedure differentiation, it is equipped in heating zone and high-temperature molding area at least one layer of disconnected Thermosphere, and insulation layer center forms thermal field, and the heating component of view fabrication procedures required temperature is equipped in thermal field, cooling zone has cold But device, high-temperature molding area are equipped with compression system；Outer feed track connects furnace body two ends exchange system；Compression system, mainly by Cylinder pressure, pressuring shaft and pressured column are constituted；The thus configured present invention, plate glass to be formed are placed in mould surface, mold It is then placed on support plate, support plate enters air-tight cavity through exchange system, and the high temperature of preheating and high-temperature molding area through heating zone makes mould Interior Glass Transition, and borrow the pressurization of compression system and form, then after the cooling of cooling zone, sent out outside furnace body through exchange system Portion, then demould into (patent announcement data reference in 1 day 2 months in 2018).

In the moulding process of aforementioned model solid glass, need by Glass Transition by way of high-temperature heating, in mold The shape that middle fixation is needed.It is well known that either plastic ejection moulding, powder injection-molded or die cast, Mold is all using metal die.That is, metal material mold is mold most widely used at present.However solid glass is hot-forming Technique does not use metal material mold, be because metal material at high temperature, it is easily-deformable, soften, and graphite have hardness Height, good conductivity, radiation protection, corrosion-resistant, thermal conductivity is good, at low cost, but also has characteristic resistant to high temperature.Graphite material and gold Belonging to material warms variation has opposite performance, and temperature is higher, and graphite is harder instead, and such graphite would not there are deformations Problem.Therefore three-dimensional glass heat pressing and molding mold is made using graphite material, when can guarantee measure of precision to the maximum extent. In addition mold difficulty of processing also decreases.But the graphite jig that three-dimensional glass hot press forming technology uses now, in institute The machining of the CNC toolroom machine of use, is all made of dry-type processing method, i.e., without using lubricating fluid and coolant liquid, so exists During the machine-shaping of graphite jig, will cause plant area's graphite dust flies upward pollution, it is necessary to increase dust exhaust equipment Collect dust.However since graphite dust particle is small and light, dust exhaust equipment is only capable of reducing the pollution of graphite dust, can not be complete It is complete to collect, and since graphite sheet is as highly conductive body, in addition to the pollution for causing plant environment, it is more likely to cause dust explosion, electricity The missing such as gas equipment damage.

With wet processing method, during graphite jig processing and manufacturing, though it can avoid graphite dust pollution.But Know the processing of metal cutting milling used in technology cutter used, the patent as shown in TaiWan, China patent announcement M551100, It is comprising a cutter hub, and cutter hub has a blade part and a knife bar portion, the hard crisp nonmetallic materials such as such tool sharpening graphite, It is very big to the abrasion of cutter due to such material hardness height, so the service life is very short；Secondly cutting edge Integrated Chip edge easy to form, seriously Processing quality is reduced, chip is easy to be blocked in the chip space of cutter again, causes dust discharge bad, seriously reduces product quality； In addition, TaiWan, China patent announcement M545139 patent, which disclose a kind of cutter composite coating and has this compound The cutter of coating, cutter composite coating includes the basal layer for being coated on cutter body and top layer on the outermost side, basal layer are Diamond layer or cbn layer, basal layer with a thickness of 1 to 40 μm, top layer be tetrahedral amorphous carbon film layer and with a thickness of 0.01 to 15 μm, cutter includes tool matrix and above-mentioned cutter composite coating, provided cutter composite coating and is had The cutter of the composite coating, by hard alloy min-cutter surface deposit hardness is high, coefficient of friction is low, binding force is good, The good multi-layer nano composite coating of heat-resisting quantity, to promote the wear-resisting property etc. of min-cutter.However since graphite etc. is hard crisp non- Metal material dust particles are small and light, and during processing, break flour can penetrate into process equipment with the splash of cutting fluid In tool apron, causes the clamping device in tool apron to be infected with break flour, so may influence precision because of pollution when replacing cutter, and Unmanned operation on-site process equipment not can avoid since it is desired that the missing for cleaning tool apron and shutting down, unmanned factory stops work will Cause very big loss.Present application is now directed to this missing, proposes more preferably cutter structure, keeps ceramics, glass or graphite etc. hard The wet type milling processing of crisp nonmetallic materials is more attained perfect.

Utility model content

The utility model creator accumulates in view of the missing of known technology and is actually engaged in high technology ceramics science and technology industry production for many years The design and manufacture professional knowledge of product after constantly being studied, being improved, has the research and development success of the utility model eventually, makes known publicly.

In view of this, the main purpose of the utility model is to provide a kind of nonmetallic materials component process tool, this reality With it is novel be related tool, be particularly suitable for nonmetallic materials component processing, the utility model nonmetallic materials group Part process tool mainly includes cutter hub, which includes one first bar portion and one second bar portion, and the second bar portion front end has Processing department, processing department covering surface have diamond granulosa, between first bar portion and the second bar portion there is outer diameter to be greater than outside the first bar portion The balance ring of diameter and the second bar portion outer diameter, to improve the spin stabilization degree of cutter, avoid processing break flour pollution process equipment tool apron.

Balance ring described in the utility model has backflash in the second bar portion end, with forced refluence cutting fluid and break flour The effect of.

The bottom end of second bar portion processing department described in the utility model has V-shaped groove, in favor of excluding break flour and cutting fluid.

The outer rim of second bar portion processing department described in the utility model have at least one of thread groove, in favor of exclude break flour and Cutting fluid.

The utility model has the spin stabilization degree for improving cutter relative to known technology, avoids processing break flour, cutting fluid The effect of polluting process equipment.

Detailed description of the invention

Fig. 1 is the 1st embodiment perspective view of the utility model nonmetallic materials component process tool；

Fig. 2 is the 1st embodiment side view of the utility model nonmetallic materials component process tool；

Fig. 3 is the 2nd embodiment side view of the utility model nonmetallic materials component process tool；

Fig. 4 is the 3rd embodiment side view of the utility model nonmetallic materials component process tool；

Fig. 5 is the implementation side view of the state of the utility model nonmetallic materials component process tool.

Symbol description in attached drawing:

1 cutter hub；10 first bar portions；11 second bar portions；12 processing departments；13 diamond granulosas；14 balance rings；15 times Chute；16 V-shaped grooves；17 thread grooves；2 tool aprons.

Specific embodiment

For the technological means for reaching the utility model foregoing purpose, embodiment is now enumerated, and cooperates schema explanation as after, with Just to the structure of the utility model, feature and it is reached the effect of, obtain and more preferably understand.

The utility model is the brand-new design of process tool for the hard crisp nonmetallic materials component such as graphite, ceramics, glass. It please refers to Fig. 1 and show the 1st embodiment perspective view, Fig. 2 of the utility model nonmetallic materials component process tool and show this The 1st embodiment side view of utility model nonmetallic materials component process tool and Fig. 5 show the utility model nonmetallic materials Component process tool implements side view of the state.As shown, the utility model nonmetallic materials component process tool, mainly includes There is cutter hub 1, which includes one first bar portion 10 and one second bar portion 11, and the first bar portion 10, which is used as, is fixed on process equipment Tool apron 2 holding position, 11 front end of the second bar portion has processing department 12, and 12 covering surface of processing department has diamond granulosa 13, to make For grinding region, since diamond possesses maximum hardness and wearability in all cutter materials, and its coefficient of friction It is extremely low, therefore diamond granulosa is highly suitable for the processing of the hard crisp nonmetallic materials component such as graphite, ceramics, glass, and service life It is long.It is greater than the balance of 11 outer diameter of 10 outer diameter of the first bar portion and the second bar portion between first bar portion 10 and the second bar portion 11 with outer diameter Ring 14, to improve the spin stabilization degree (i.e. centrifugal balance) of cutter hub 1, during processing, when break flour is with cutting fluid splash When, can be balanced the blocking of ring 14 without penetrating into the tool apron 2 of process equipment can avoid that the clamping device in tool apron 2 is caused to be stained with Dye processing break flour pollutes process equipment tool apron 2.

Fig. 1 is please referred to again, shown in 2, the aforementioned balance ring 14 of the utility model has backflash 15 in 11 end of the second bar portion, with By the cutting fluid and break flour of splashing, at forced refluence to lower section, to avoid the clamping device contamination processing break flour caused in tool apron 2 Pollute process equipment tool apron 2.

It please referring to shown in Fig. 3, the aforementioned second bar portion processing department 12 of the utility model, bottom end has V-shaped groove 16, in favor of Exclude break flour and cutting fluid.

It please refers to shown in Fig. 4, the aforementioned second bar portion processing department 12 of the utility model, outer rim has at least one of thread groove 17, in favor of excluding break flour and cutting fluid.So reach the utility model purpose of design.

The above, the only preferable possible embodiments of the utility model, not to limit to the utility model Range is familiar with this those skilled in the art such as, becomes with equivalent structure made by the utility model specification and claim Change, ought to be included in the scope of the patents of the utility model.

Claims

1. a kind of nonmetallic materials component process tool, mainly includes cutter hub, which includes one first bar portion and one Two bar portions, the second bar portion front end have processing department, and processing department covering surface has diamond granulosa, it is characterised in that: first bar portion And second be greater than the first bar portion outer diameter and the second bar portion outer diameter between bar portion with outer diameter balance ring.

2. nonmetallic materials component process tool as described in claim 1, which is characterized in that wherein, the balance ring is in second Bar portion end has backflash.

3. nonmetallic materials component process tool as described in claim 1, which is characterized in that wherein, second bar portion processing The bottom end in portion has V-shaped groove.

4. nonmetallic materials component process tool as claimed in claim 3, which is characterized in that wherein, second bar portion processing The outer rim in portion has at least one of thread groove.