CN206286912U - For the dedusting heat sink of numerical control machining center processing optical material - Google Patents

Abstract

A kind of dedusting heat sink for numerical control machining center processing optical material, including mounting blocks (3), hollow blowpipe (4), mounting blocks (3) are fixed on the main shaft of numerical control machining center (1), hollow blowpipe (4) is on mounting blocks (3), hollow blowpipe (4) is separately positioned on four impartial orientation of distance at least provided with four centered on the cutter (2) on main shaft (1)；The quantity of the hollow blowpipe (4) of correspondence sets the gas control valve (5) of equal number, it is connected by tracheae between gas control valve (5) and hollow blowpipe (4), the control end of gas control valve (5) is connected to the control centre of numerical control machining center.The utility model can remove the dust formed during tool sharpening product and give cutter cooling simultaneously, reduce the influence that cutter heats up to product edge.

Description

For the dedusting heat sink of numerical control machining center processing optical material

Technical field

The utility model is related to the dedusting heat sink for numerical control machining center, more particularly to for processing optical material Numerical control machining center dedusting heat sink.

Background technology

With application of the optical material on numerous electronic products, optical material is consequently increased.Wherein to optics material Material dimensional accuracy is had higher requirements, and optical material is processed using numerical control machining center (CNC) generally.But optics When CNC processing is carried out, the dust granules of generation clash into optical material in itself to material (such as PC, PMMA), cause product to wound, White point can be produced when product is lighted；After machining, remained on surface dust is, it is necessary to carry out secondary cleaning, increase production process； Heat can be produced during tool sharpening, processing edge can be slightly dissolved, be caused to process the rough of edge, influence illumination effect.

The content of the invention

The purpose of this utility model be provide it is a kind of remove dust and to cutter cooling for numerical control machining center The dedusting heat sink of processing optical material.

The utility model is to reach the technical scheme that above-mentioned purpose used to be：One kind adds for numerical control machining center The dedusting heat sink of work optical material, including mounting blocks, hollow blowpipe, mounting blocks are fixed on the main shaft of numerical control machining center On, hollow blowpipe is arranged on mounting blocks, and hollow blowpipe is separately positioned at least provided with four centered on the cutter on main shaft The impartial orientation of four distances；The quantity of the hollow blowpipe of correspondence sets the gas control valve of equal number, gas control valve and sky Connected by tracheae between heart blowpipe, the control end of gas control valve is connected to the control centre of numerical control machining center.

Further, dust collection pipeline is laid on the processing microscope carrier of numerical control machining center, dust collection pipeline is fitted around and is adding Product platform deck on work microscope carrier；Dust collection pipeline is provided with suction port in face of the side of product platform deck.

Further, dust cover plate, the space that dust cover plate covering dust collection pipeline is surrounded are set in the bottom of mounting blocks.

Further, the top surface of product platform deck opens up some adsorption holes, and adsorption hole is conducted to negative port.

Further, the Way out of the hollow blowpipe is just to the nose part of cutter.

Further, gas control valve is fixed on dust cover plate.

The utility model can remove the dust formed during tool sharpening product and give cutter cooling simultaneously, reduce cutter intensification right The influence of product edge.

Brief description of the drawings

Fig. 1 is the schematic diagram of the utility model preferred embodiment；

Fig. 2 is the front schematic view of the utility model preferred embodiment；

Fig. 3 is the upward view that the utility model preferred embodiment is arranged on main shaft portion；

Fig. 4 is the top view that the utility model preferred embodiment is arranged on processing microscope carrier part.

Specific embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail：

As depicted in figs. 1 and 2, a kind of dedusting heat sink for numerical control machining center processing optical material, including peace Dress block 3, hollow blowpipe 4, mounting blocks 3 are fixed on the main shaft 1 of numerical control machining center, and hollow blowpipe 4 is arranged on mounting blocks 3, Hollow blowpipe 4 is separately positioned on four impartial orientation of distance at least provided with four centered on the cutter 2 on main shaft 1；Correspondence The quantity of hollow blowpipe 4 sets the gas control valve 5 of equal number, is connected by tracheae between gas control valve 5 and hollow blowpipe 4 Connect, the control end of gas control valve 5 is connected to the control centre of numerical control machining center.Main shaft 1 is the power set of CNC, cutter 2 It is a kind of instrument of CNC processing, the guiding gas flow cutter of hollow blowpipe 4, gas control valve 5 is the automation unit of control gas Part, is controlled by the control centre of numerical control machining center.

Dust collection pipeline 7 is laid on the processing microscope carrier 8 of numerical control machining center, dust collection pipeline 7 is fitted around in processing microscope carrier 8 On product platform deck 9；Dust collection pipeline 7 is provided with suction port 71 in face of the side of product platform deck 9.Dust collection pipeline 7 connects the suction of outside Dust is siphoned away discharge by dirt equipment.

In the bottom of mounting blocks 3, dust cover plate 6, the space that the covering dust collection pipeline 7 of dust cover plate 6 is surrounded are set.Dust collection cover Plate 6 can cover dust when processing so that dust is not to external diffusion.Meanwhile, gas control valve 5 can be fixed on dust cover plate 6. Gas control valve 5 can also be fixed on mounting blocks 3, it is also possible to which being fixed on numerical control machining center does not influence the place of production.

The top surface of product platform deck 9 opens up some adsorption holes 91, and adsorption hole 91 is conducted to negative port 92.Product platform deck 9 is made It is a part of fixed converted products, converted products is absorbed and fixed at product platform deck 9 by adsorption hole 91 thereon by negative pressure On, when cutter 2 is cut, converted products will not displacement.Negative port 92 is by the externally connected negative pressure equipment of conduit.

As shown in Figure 1, Figure 3, four hollow blowpipes 4 are centered on cutter 2, cutter 2 four direction (3 o'clock direction, 6 o'clock direction, 9 o'clock direction, 12 directions) correspondence arrangement, form hollow blowpipe A41, hollow blowpipe B42, hollow blowpipe C43, hollow blowpipe D44, the hollow blowpipe A41 of gas control valve A51 correspondences, the hollow blowpipe B42 of gas control valve B52 correspondences, gas Body control valve the C53 hollow blowpipe C43 of correspondence, the hollow blowpipe D44 of gas control valve D54 correspondences.The exporter of the hollow blowpipe 4 To the nose part just to cutter 2, cooling-down effect is improved.

When CNC starts processing, main shaft 1 declines, when driving dust cover plate 6 and cutter 2 to drop to suitable height, dust Cover plate 6 can produce a relative closed space with processing microscope carrier 8 and dust collection pipeline 7, and now outside dust collection equipment is opened, and inhale Dirt pipeline 7 starts dust suction.When the machining product of cutter 2 corresponding a sides, valve C43 is now controlled to open, hollow blowpipe Air-flow is turned in C33, the dust produced when cutter 2 cuts is taken away by air-flow, because the air-flow in hollow blowpipe C33 is towards 3 O'clock direction stream, be the reverse side flowing towards processing, therefore the dust that air-flow is taken away will not flow further back, directly by dust collection pipeline 6 are discharged by outside dust collection equipment.When the machining product of cutter 2 corresponding b sides, valve D44 is now controlled to open, it is hollow Air-flow is turned in blowpipe D34, the dust produced when cutter 2 cuts is taken away by air-flow, because the air-flow in hollow blowpipe D34 is It is the reverse side flowing towards processing towards 6 o'clock direction stream, therefore the dust that air-flow is taken away will not flow further back, directly by dust suction Pipeline 6 is discharged by outside dust collection equipment.When the machining product of cutter 2 corresponding c sides, valve A41 is now controlled to open, Air-flow is turned in hollow blowpipe A31, the dust produced when cutter 2 cuts is taken away by air-flow, because the gas in hollow blowpipe A31 It, towards 9 o'clock direction stream, is the reverse side flowing towards processing that stream is, therefore the dust that air-flow is taken away will not flow further back, directly pass through Dust collection pipeline 6 is discharged by outside dust collection equipment.When the machining product of cutter 2 corresponding d sides, valve B42 is now controlled Open, turn on air-flow in hollow blowpipe B42, the dust produced when taking away Tool in Cutting by air-flow, because in hollow blowpipe B42 Air-flow be the reverse side flowing towards processing towards 12 o'clock direction stream, therefore the dust that air-flow is taken away will not flow further back, directly Discharged by outside dust collection equipment by dust collection pipeline 6.

The utility model is carried because passing through the absorption of dust collection pipeline 6 and blowing for hollow blowpipe 4 in process in product Space around platform 8 has gas to flow always, and the heat produced during 2 machining product of cutter can also be entrained by the flow of air, so that Also can lower the temperature to cutter 2.

Claims (6)

1. a kind of dedusting heat sink for numerical control machining center processing optical material, it is characterised in that：Including mounting blocks (3), hollow blowpipe (4), mounting blocks (3) are fixed on the main shaft of numerical control machining center (1), and hollow blowpipe (4) is installed in installation On block (3), hollow blowpipe (4) is separately positioned on four distances at least provided with four centered on the cutter (2) on main shaft (1) Impartial orientation；The quantity of the hollow blowpipe (4) of correspondence sets the gas control valve (5) of equal number, gas control valve (5) and sky Connected by tracheae between heart blowpipe (4), the control end of gas control valve (5) is connected to the control centre of numerical control machining center.

2. the dedusting heat sink of numerical control machining center processing optical material is used for according to claim 1, it is characterised in that： Dust collection pipeline (7) is laid on the processing microscope carrier (8) of numerical control machining center, dust collection pipeline (7) is fitted around in processing microscope carrier (8) On product platform deck (9)；Dust collection pipeline (7) is provided with suction port (71) in face of the side of product platform deck (9).

3. the dedusting heat sink of numerical control machining center processing optical material is used for according to claim 2, it is characterised in that： Dust cover plate (6) is set in the bottom of mounting blocks (3), dust cover plate (6) covers the space that dust collection pipeline (7) is surrounded.

4. the dedusting heat sink of numerical control machining center processing optical material is used for according to claim 2, it is characterised in that： The top surface of product platform deck (9) opens up some adsorption holes (91), and adsorption hole (91) is conducted to negative port (92).

5. the dedusting heat sink of numerical control machining center processing optical material is used for according to claim 1, it is characterised in that： The Way out of the hollow blowpipe (4) is just to the nose part of cutter (2).

6. the dedusting heat sink of numerical control machining center processing optical material is used for according to claim 2, it is characterised in that： Gas control valve (5) is fixed on dust cover plate (6).