CN206344016U - A kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control - Google Patents

Abstract

The utility model discloses a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control, including double rotating shaft bistriques, described pair of rotating shaft bistrique includes reductor one, main rotating seat, rotary connection plate, reductor two, bearing block connecting plate and vertically arranged live spindle and rotary shaft two；The rotary connection plate is U-shaped plate, and the live spindle is inserted into the reductor one through described main rotating seat one end, and the other end is connected by flange connection with the rotary connection plate bottom；The rotary shaft two is placed perpendicular on the direction of the live spindle, and the rotary shaft two is inserted into the reductor two through described rotary connection plate one end, and the other end is connected by way of flange is connected with the bearing block connecting plate.The orthogonal live spindle that the utility model can be provided with by double rotating shaft bistriques realize it is multidirectional rotate freely motion, adapt to the surface sanding and polishing production requirement of various high standard complex parts, improve production efficiency.

Description

A kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control

Technical field

The utility model is related to a kind of sanding and polishing equipment, more specifically, more particularly to a kind of numerical control Double rotation axle Sanding and polishing equipment.

Background technology

In present sanding and polishing equipment, in the production process of sanding and polishing, frequently encountering some has complex unevenness The part in face, especially when the side of part has complex unevenness face, it usually needs multiple clamping positioning could carry out polish with Polishing, whole process is cumbersome, and workload is big, inefficiency.

Therefore, in order to simplify the workflow of sanding and polishing, its operating efficiency is improved, has a kind of bistrique to be developed except energy Beyond the direction feed motion of X, Y, Z axis three, moreover it is possible to the polishing grinding equipment rotated freely in multiple directions.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art beating there is provided a kind of double rotating shaft bistriques of numerical control On the one hand a kind of grinding and polishing light device, the sanding and polishing equipment of the double rotating shaft bistriques of numerical control passes through X-axis base, Y-axis base, Z axis bottom The part that seat three is mutually perpendicular to install realizes the axle feed motion of X, Y, Z tri-, the phase that on the one hand can be provided with by double rotating shaft bistriques The mutually vertical multidirectional rotary motion of live spindle.

Realize that the automatic profit of equipment is changed and lubricating oil while can lead to and moisten pump of changing oil, recovery fuel tank, petroleum pipeline and oil feeder Recycling.

In order to achieve the above object, the technical solution adopted in the utility model is as follows：

A kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control, including X-axis base, Y-axis base and Z axis slide, the Y-axis Base is on X-axis base and normal thereto, and the Z axis slide is on Y-axis base and vertical with X, Y-axis plane, in addition to Double rotating shaft bistriques, described pair of rotating shaft bistrique is on Z axis slide, and described pair of rotating shaft bistrique includes fast machine one, main rotating seat, rotation Connecting plate, reductor two, bearing block connecting plate and vertically arranged live spindle and rotary shaft two；

The rotary connection plate is U-shaped plate, and the live spindle is inserted into the deceleration through described main rotating seat one end In machine one, the other end is connected by way of flange is connected with the rotary connection plate bottom；The rotary shaft two is arranged on vertical Directly on the direction of the live spindle, the rotary shaft two is inserted into the reductor two through described rotary connection plate one end In, the other end is connected by way of flange is connected with the bearing block connecting plate.

Preferably, described pair of rotating shaft bistrique also include dial one, it is live spindle, dial two, bistrique servomotor, same Step band tensioning plate, synchronizing wheel and bearing block；

The main rotating seat is on Z axis supporting plate, and the reductor one is described to subtract on the end face of main rotating seat one end The fast output end of machine one is hollow shaft, and is connected in hollow shaft away from main rotating seat one end with the dial one；The reductor One input shaft is by being connected with keyway nut or shaft coupling with the bistrique servomotor on solid shafting, solid shafting；

Described rotary connection plate one end is connected with the reductor two, and the output end of reductor two is hollow shaft, and Hollow shaft is connected away from rotary connection plate one end with the dial two；The input shaft of reductor two is solid shafting, solid shafting Upper pass through is connected with keyway nut or shaft coupling with bistrique servomotor；

The bistrique servomotor connection is arranged on the bearing block connecting plate, the synchronizing wheel and the bistrique servo Motor connection, the timing belt tensioning plate is arranged on the bearing block connecting plate on top surface, and the bearing block is arranged on bearing On seat connecting plate side, the synchronizing wheel is connected the bearing block lower end with the axle upper end of the bearing block and installs emery wheel again, uses In realizing toothed belt transmission.

Preferably, guide assembly and silk are provided with the X-axis base, Y-axis base, Z axis slide and double rotating shaft bistriques Oil guide groove is provided with bar assembly, and the guide assembly and screw component；The X-axis base is provided with grease pump and returns Fuel tank is received, the Y-axis base is provided with petroleum pipeline, and the Z axis slide is provided with oil feeder；Lubricating oil is from the lubricating oil pumping Go out, be that all guide assemblies and screw component lubricate by the oil feeder, lubricating oil flows from top to bottom along oil guide groove, finally Reclaimed by petroleum pipeline and recovery fuel tank.

Preferably, the X-axis base also includes X-axis servomotor, X-axis shaft coupling, X-axis screw mandrel support seat, X-axis casting bottom Seat, X-axis supporting plate, X-axis guide rail component, X-axis screw component and X-axis bearing block；

The X-axis casting base is the support of whole equipment, and the X-axis servomotor is prominent located at X-axis casting base end face On platform, the X-axis screw mandrel support seat is set and on the central convex of X-axis casting base, the X-axis bearing block is located at X-axis casting base On central convex and positioned at the other end for the end face for installing X-axis servomotor, the X-axis screw component is supported through X-axis screw mandrel Seat with X-axis servomotor is connected with X-axis bearing block and by X-axis shaft coupling, and the X-axis guide rail component and X-axis screw component are set In the both sides of X-axis casting base, the X-axis supporting plate passes through feed screw nut and X-axis silk on the sliding block of X-axis guide rail component Bar assembly is connected；The grease pump is located at one end of X-axis casting base, and the recovery fuel tank is another located at X-axis casting base One end.

Preferably, the Y-axis base also includes Y-axis servomotor, Y-axis shaft coupling, Y-axis screw mandrel support seat, Y-axis casting bottom Seat, Y-axis supporting plate, Y-axis guide rail component, Y-axis screw component and Y-axis bearing block；

The Y-axis casting base is on X-axis supporting plate, and the Y-axis servomotor is prominent located at Y-axis casting base one end end face On platform, the Y-axis screw mandrel support seat is on the central convex of Y-axis casting base, and the Y-axis bearing block is located at Y-axis casting base On the convex of the center other end relative with Y-axis servomotor, the Y-axis screw component passes through Y-axis screw mandrel support seat and Y Bearing housing is simultaneously connected by Y-axis shaft coupling with Y-axis servomotor, and the Y-axis guide rail component and Y-axis screw component are respectively arranged on The both sides of Y-axis casting base, the Y-axis supporting plate passes through feed screw nut and Y-axis screw mandrel on the sliding block of Y-axis guide rail component Component is connected.

Preferably, the use of oil guide groove auxiliary lube oil is equipped with following on the X-axis casting base and Y-axis casting base Loopback receiving apparatus.

Preferably, the Z axis slide also includes Z axis servomotor, Z axis shaft coupling, Z axis screw mandrel support seat, Z axis casting bottom Seat, Z axis supporting plate, Z axis guide rail component, Z axis screw component and Z axis bearing block；

The Z axis servomotor is on the end face convex of Z axis casting base upper end, and the Z axis screw mandrel support seat is set In on the central convex of Z axis casting base, the Z axis bearing block is on the convex of the close ground surface end in Z axis casting base center, institute The Z axis screw component is stated through Z axis screw mandrel support seat with Z axis bearing block and by Z axis shaft coupling and Z axis servomotor company Connect, the Z axis guide rail component and Z axis screw component are respectively arranged on the both sides of Z axis casting base, the Z axis supporting plate is led located at Z axis On the sliding block of rail assembly, and it is connected by feed screw nut with Z axis screw component.

Compared with prior art, the utility model has the advantage of：The utility model can not only pass through X-axis base, Y-axis The part that base, Z axis base three are mutually perpendicular to install realizes the axle feed motion of X, Y, Z tri-, while can pass through double rotating shaft bistriques The orthogonal live spindle being provided with realize it is multidirectional rotate freely motion, one can also be realized by numerical control five-shaft linkage Secondary clamping completes the sanding and polishing of complex parts all surface in addition to clamping face, has adapted to the surface of various high standard complex parts Sanding and polishing production requirement, improve production efficiency.Simultaneously can be by grease pump, recovery fuel tank, petroleum pipeline) and oil feeder Realize that the automatic profit of equipment changes the recycling with lubricating oil, extend the service life of lathe.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of overall structure diagram of the sanding and polishing equipment of the double rotating shaft bistriques of numerical control described in the utility model.

Fig. 2 is the top view of X-axis base described in the utility model.

Fig. 3 is the front view of X-axis base described in the utility model.

Fig. 4 is the side view of X-axis base described in the utility model.

Fig. 5 is the top view of Y-axis base described in the utility model.

Fig. 6 is the front view of Y-axis base described in the utility model.

Fig. 7 is the side view of Y-axis base described in the utility model.

Fig. 8 is the front view of Z axis slide described in the utility model.

Fig. 9 is the side view of Z axis slide described in the utility model.

Figure 10 is the top view of Z axis slide described in the utility model.

Figure 11 is the top view of described in the utility model pair of rotating shaft bistrique.

Figure 12 is the front view of described in the utility model pair of rotating shaft bistrique.

Figure 13 is the overall structure diagram of described in the utility model pair of rotating shaft bistrique.

Description of reference numerals：X-axis base (100), Y-axis base (200), Z axis slide (300), double rotating shaft bistriques (400), X Axle servomotor (101), X-axis shaft coupling (102), X-axis screw mandrel support seat (103), X-axis casting base (104), X-axis supporting plate (105), X-axis guide rail component (106), X-axis screw component (107), X-axis bearing block (108), oil pump (109), recovery fuel tank (110), Y-axis servomotor (201), Y-axis shaft coupling (202), Y-axis screw mandrel support seat (203), Y-axis casting base (204), Y-axis Supporting plate (205), Y-axis guide rail component (206), Y-axis screw component (207), Y-axis bearing block (208), petroleum pipeline (209), Z axis are watched Take motor (301), Z axis shaft coupling (302), Z axis screw mandrel support seat (303), Z axis casting base (304), Z axis supporting plate (305), Z Spindle guide rail assembly (306), Z axis screw component (307), Z axis bearing block (308), oil feeder (309), reductor one (401), quarter Scale one (402), main rotating seat (403), live spindle (404), rotary connection plate (405), reductor two (406), dial Two (407), bearing block connecting plate (408), bistrique servomotor (409), rotary shaft two (410), timing belt tensioning plate (411), Synchronizing wheel (412), bearing block (413).

Embodiment

Preferred embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings, so that advantage of the present utility model It can be easier to be readily appreciated by one skilled in the art with feature, so as to make protection domain of the present utility model apparent clear and definite Define.

For the ease of description the utility model, the space defined described in the utility model is dimensional Cartesian rectangular co-ordinate The X-axis of system, Y-axis, Z axis, A axles, B axle, C direction of principal axis.

Refering to shown in Fig. 1-13, the utility model provides a kind of numerical control device, including X-axis base (100), Y-axis base (200), Z axis slide (300), double rotating shaft bistriques (400).

Specifically, the X-axis base (100) is the support of other all parts, the Y-axis base (200) is located at X-axis bottom On seat (100) and normal thereto, the Z axis slide (300) is on Y-axis base (200) and vertical with X, Y plane, described double Axle bistrique (400) is on Z axis slide (300).

It is provided with the X-axis base (100), Y-axis base (200), Z axis slide (300) and double rotating shaft bistriques (400) Oil guide groove is provided with guide assembly and screw component, and the guide assembly and screw component；The X-axis base (100) Grease pump (109) is provided with, fuel tank (110) is reclaimed, the Y-axis base (200) is provided with petroleum pipeline (209), the Z axis slide (300) being provided with oil feeder (309), all casting seats for installing guide assembly and screw component has oil guide groove, lubricating oil It can be extracted out from the grease pump (109), be that all guide assemblies and screw component lubricate by oil feeder (309), lubricating oil Flowed from top to bottom along oil guide groove, and by petroleum pipeline (209) and reclaim fuel tank (110) reclaim so that realize fast lubricant with And the recycling of lubricating oil.

Refering to shown in Fig. 2-4, in the utility model, the X-axis base (100) includes X-axis servomotor (101), X-axis Shaft coupling (102), X-axis screw mandrel support seat (103), X-axis casting base (104), X-axis supporting plate (105), X-axis guide rail component (106), X-axis screw component (107), X-axis bearing block (108), oil pump (109), recovery fuel tank (110).

Specifically, the X-axis casting base (104) is the support of whole equipment, the X-axis servomotor (101) is located at X On axle casting part base (104) end face convex, the X-axis screw mandrel support seat (103) sets and the central convex of X-axis casting base (104) On, the X-axis bearing block (108) is on the central convex of X-axis casting base (104) and positioned at installation X-axis servomotor (101) End face the other end, the X-axis screw component (107) is through X-axis screw mandrel support seat (103) and X-axis bearing block (108) and leads to Cross X-axis shaft coupling (102) to be connected with X-axis servomotor (101), the X-axis guide rail component (106) and X-axis screw component (107) The both sides on X-axis casting base are respectively arranged on, the X-axis supporting plate (105) is led on the sliding block of X-axis guide rail component (106) Feed screw nut is crossed to be connected with X-axis screw component (107).The grease pump (109) is located at one end of X-axis casting base (104), It is described to reclaim the other end that fuel tank (110) is located at X-axis casting base (104).The X-axis casting base (104) is provided with Oil Guide The use of groove auxiliary lube oil and circulation and stress device.

With reference to shown in Fig. 5-7, in the utility model, the Y-axis base (200) includes Y-axis servomotor (201), Y-axis and joined Axle device (202), Y-axis screw mandrel support seat (203), Y-axis casting base (204), Y-axis supporting plate (205), Y-axis guide rail component (206), Y Axial filament bar assembly (207), Y-axis bearing block (208), petroleum pipeline (209).

Specifically, the Y-axis casting base (204) is on X-axis supporting plate (105), the Y-axis servomotor (201) sets In on the end face convex of Y-axis casting base (204) one end, the Y-axis screw mandrel support seat (203) is located in Y-axis casting base (204) Entreat on convex, the Y-axis bearing block (208) is relative with Y-axis servomotor (201) another located at Y-axis casting base (204) center On the convex of one end, the Y-axis screw component (207) passes through Y-axis screw mandrel support seat (203) and Y-axis bearing block (208) simultaneously It is connected by Y-axis shaft coupling (202) with Y-axis servomotor (201), the Y-axis guide rail component (206) and Y-axis screw component (207) both sides on Y-axis casting base are respectively arranged on, the Y-axis supporting plate (205) is located at the sliding block of Y-axis guide rail component (206) On, and be connected by feed screw nut with Y-axis screw component (207).The Y-axis guide rail component accessories are used provided with petroleum pipeline (209) In lubrication guide rail and screw mandrel.Use of the Y-axis casting base (204) provided with oil guide groove auxiliary lube oil is filled with circulation and stress Put.

With reference to shown in Fig. 8-10, in the utility model, the Z axis slide (300) includes Z axis servomotor (301), Z axis Shaft coupling (302), Z axis screw mandrel support seat (303), Z axis casting base (304), Z axis supporting plate (305), Z axis guide rail component (306), Z axis screw component (307), Z axis bearing block (308), oil feeder (309).

Specifically, the Z axis servomotor (301) is on the end face convex of Z axis casting base (304) upper end, institute Z axis screw mandrel support seat (303) is stated on the central convex of Z axis casting base (304), the Z axis bearing block (308) is located at Z axis Casting base (304) center is on the convex of ground surface end, and the Z axis screw component (307) passes through Z axis screw mandrel support seat (303) it is connected by Z axis shaft coupling (302) with Z axis bearing block (308) and with Z axis servomotor (301), the Z axis guide rail group Part (306) and Z axis screw component (307) are respectively arranged on the both sides on Z axis casting base, and the Z axis supporting plate (305) is located at Z axis On the sliding block of guide assembly (306), and it is connected by feed screw nut with Z axis screw component (207).The Z axis guide rail component is attached Part is used to lubricate guide rail and screw mandrel provided with oil feeder (309).

With reference to shown in Figure 11-13, in the utility model, described pair of rotating shaft bistrique (400) is provided with vertically arranged two rotations Rotating shaft live spindle (404) and rotary shaft two (410), it not only coordinates X, and the A, B of bistrique are realized in Y, the axle feed motions of Z tri- simultaneously The high-freedom degree grinding and buffing of axial direction.

Specifically, described pair of rotating shaft bistrique (400) includes reductor one (401), dial one (402), main rotating seat (403), live spindle (404), rotary connection plate (405), reductor two (406), dial two (407), bearing block connecting plate (408), bistrique servomotor (409), rotary shaft two (410), timing belt tensioning plate (411), synchronizing wheel (412), bearing block (413)。

Specifically, the main rotating seat (403) is on Z axis supporting plate (305), the reductor one (401) is located at main rotation On the end face of swivel base one end, described (401) output end of reductor one is hollow shaft, and in hollow shaft away from main rotating seat (403) One end is provided with dial one (402), and for observing and recording reductor one (401) output angle, the reductor one (401) is defeated Enter axle for solid shafting, band keyway nut can be set on solid shafting or is connected by shaft coupling with servomotor.The live spindle (404) pass through in main rotating seat (403) and one end insertion reductor one (401), the live spindle other end is provided with flange End face, is connected by way of flange is connected with rotary connection plate (405), so as to realize that bistrique accurately revolves manually around B axle direction Turn (when reductor one (401) input solid shafting is provided with band keyway nut) or accurately rotate automatically (when reductor one (401) when input solid shafting shaft coupling is connected with servomotor).The rotary connection plate (405) is U-shaped, and its bottom leads to The mode for crossing flange connection is connected with live spindle (404), provided with two rotations on the direction perpendicular to live spindle (404) Axle two (410), described rotary connection plate (405) one end is provided with reductor two (406), and reductor two (406) output end is hollow Axle, and dial two (403) is provided with away from rotary connection plate (405) one end in hollow shaft, for observing and recording reductor two (407) output angle, described (407) input shaft of reductor two is that band keyway nut can be set on solid shafting, solid shafting or is passed through Shaft coupling is connected with servomotor.The rotary shaft two (410) is through rotary connection plate (405) and reductor two is inserted in one end (406) in, described (410) other end of rotary shaft two is provided with end face of flange, with bearing block connecting plate by way of flange is connected (408) connect so that realize bistrique around A direction of principal axis manually accurately rotation (when reductor two (406), input solid shafting is provided with During band keyway nut) or accurately rotate automatically (when reductor two (406) input solid shafting shaft coupling is connected with servomotor When).The bearing block connecting plate (408) is provided with bistrique servomotor (409), and the bistrique servomotor (409) is provided with Top surface is provided with timing belt tensioning plate on one synchronizing wheel, the bearing block connecting plate, and the timing belt tensioning plate is provided with one Individual synchronizing wheel, for being tensioned timing belt, the bearing block (413) is arranged on bearing block connecting plate side, the bearing block (413) the axle upper end installed is provided with synchronizing wheel, and lower end installs emery wheel, realizes toothed belt transmission.

A kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control of the present utility model is rational in infrastructure, easy for operation, machine Bed volume is moderate, operates steadily, and protection Design is simple and beautiful, adapts to the grinding and buffing of the part of complex appearance.

Generally speaking, the utility model realizes following functions：1st, X-axis base (100), Y-axis base (200), Z axis are passed through The part that base (300) three is mutually perpendicular to install realizes the axle feed motion of X, Y, Z tri-.2nd, double rotating shaft bistriques (400) can be passed through The orthogonal live spindle being provided with realizes the rotary motion of the axle of A, B two.3rd, Ke Tongrun change oil pump (109), reclaim fuel tank (110), petroleum pipeline (209), oil feeder realize that the automatic profit of equipment changes the recycling with lubricating oil, add the essence of lathe The service life of degree.4th, realize that clamped one time completes complex parts all surface in addition to the clamping face and beaten by numerical control five-shaft linkage Grinding and polishing light.Adapt to the surface sanding and polishing production requirement of various high standard complex parts, improve production efficiency.

Although being described in conjunction with the accompanying embodiment of the present utility model, patent owner can want in appended right Various deformations or amendments are made within the scope of asking, as long as no more than the protection model described by claim of the present utility model Enclose, all should be within protection domain of the present utility model.

Claims (7)

1. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control, including X-axis base (100), Y-axis base (200) and Z axis slide (300), the Y-axis base (200) is on X-axis base (100) and normal thereto, and the Z axis slide (300) is located at Y-axis bottom It is on seat (200) and vertical with X, Y-axis plane, it is characterised in that also including double rotating shaft bistriques (400), described pair of rotating shaft bistrique (400) on Z axis slide (300), described pair of rotating shaft bistrique (400) includes reductor one (401), main rotating seat (403), rotation Turn connecting plate (405), reductor two (406), bearing block connecting plate (408) and vertically arranged live spindle (404) and rotation Axle two (410)；

The rotary connection plate (405) is U-shaped plate, and the live spindle (404) is inserted through described main rotating seat (403) one end Into the reductor one (401), the other end is connected by way of flange is connected with the rotary connection plate (405) bottom； The rotary shaft two (410) is placed perpendicular on the direction of the live spindle (404), and the rotary shaft two (410) passes through Described rotary connection plate (405) one end is inserted into the reductor two (406), and the other end is by way of flange is connected and institute State bearing block connecting plate (408) connection.

2. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control as claimed in claim 1, it is characterised in that described pair of rotating shaft Bistrique (400) also includes dial one (402), live spindle (404), dial two (407), bistrique servomotor (409), same Step band tensioning plate (411), synchronizing wheel (412) and bearing block (413)；

The main rotating seat (403) is on Z axis supporting plate (305), and the reductor one (401) is located at main rotating seat (403) one On the end face at end, described (401) output end of reductor one be hollow shaft, and hollow shaft away from main rotating seat (403) one end with Dial one (402) connection；Described (401) input shaft of reductor one is by band keyway nut on solid shafting, solid shafting Or shaft coupling is connected with the bistrique servomotor (409)；

Described rotary connection plate (405) one end is connected with the reductor two (406), and described (406) output end of reductor two is Hollow shaft, and be connected in hollow shaft away from rotary connection plate (405) one end with the dial two (407)；The reductor two (406) input shaft is by being connected with keyway nut or shaft coupling with bistrique servomotor (409) on solid shafting, solid shafting；

The bistrique servomotor (409) connection is arranged on the bearing block connecting plate (408), the synchronizing wheel (412) with Bistrique servomotor (409) connection, the timing belt tensioning plate (411) is arranged on the bearing block connecting plate (408) On top surface, the bearing block (413) be arranged on bearing block connecting plate (408) side on, the synchronizing wheel (412) but with the axle The axle upper end of bearing (413) connects bearing block (413) lower end and installs emery wheel, for realizing toothed belt transmission.

3. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control as claimed in claim 1, it is characterised in that：The X-axis bottom Guide assembly and screw mandrel group are provided with seat (100), Y-axis base (200), Z axis slide (300) and double rotating shaft bistriques (400) Oil guide groove is provided with part, and the guide assembly and screw component；The X-axis base (100) is provided with grease pump (109) and fuel tank (110) is reclaimed, the Y-axis base (200) is provided with petroleum pipeline (209), and the Z axis slide (300) is provided with giving Oily device (309)；Lubricating oil is extracted out from the grease pump (109), is all guide assemblies and silk by the oil feeder (309) Bar assembly lubricates, and lubricating oil flows from top to bottom along oil guide groove, is carried out finally by petroleum pipeline (209) and recovery fuel tank (110) Reclaim.

4. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control according to claim 3, it is characterised in that the X-axis Base (100) also includes X-axis servomotor (101), X-axis shaft coupling (102), X-axis screw mandrel support seat (103), X-axis casting base (104), X-axis supporting plate (105), X-axis guide rail component (106), X-axis screw component (107) and X-axis bearing block (108)；

The X-axis casting base (104) is the support of whole equipment, and the X-axis servomotor (101) is located at X-axis casting base (104) on end face convex, the X-axis screw mandrel support seat (103) set with the central convex of X-axis casting base (104), the X-axis Bearing block (108) is on the central convex of X-axis casting base (104) and positioned at the another of the end face for installing X-axis servomotor (101) One end, the X-axis screw component (107) is through X-axis screw mandrel support seat (103) and X-axis bearing block (108) and passes through X-axis shaft coupling Device (102) is connected with X-axis servomotor (101), and the X-axis guide rail component (106) and X-axis screw component (107) are cast located at X-axis The both sides of part base (104), the X-axis supporting plate (105) passes through feed screw nut on the sliding block of X-axis guide rail component (106) It is connected with X-axis screw component (107)；The grease pump (109) is located at one end of X-axis casting base (104), the oil recovery Case (110) is located at the other end of X-axis casting base (104).

5. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control according to claim 4, it is characterised in that the Y-axis Base (200) also includes Y-axis servomotor (201), Y-axis shaft coupling (202), Y-axis screw mandrel support seat (203), Y-axis casting base (204), Y-axis supporting plate (205), Y-axis guide rail component (206), Y-axis screw component (207) and Y-axis bearing block (208)；

The Y-axis casting base (204) is on X-axis supporting plate (105), and the Y-axis servomotor (201) is located at Y-axis casting bottom On the end face convex of seat (204) one end, the Y-axis screw mandrel support seat (203) is on the central convex of Y-axis casting base (204), institute State convex of the Y-axis bearing block (208) located at Y-axis casting base (204) the center other end relative with Y-axis servomotor (201) On, the Y-axis screw component (207) is through Y-axis screw mandrel support seat (203) and Y-axis bearing block (208) and passes through Y-axis shaft coupling (202) it is connected with Y-axis servomotor (201), the Y-axis guide rail component (206) and Y-axis screw component (207) are respectively arranged on Y-axis The both sides of casting base, the Y-axis supporting plate (205) passes through feed screw nut and Y on the sliding block of Y-axis guide rail component (206) Axial filament bar assembly (207) is connected.

6. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control according to claim 5, it is characterised in that the X-axis Use and the circulation and stress device of oil guide groove auxiliary lube oil are equipped with casting base (104) and Y-axis casting base (204).

7. a kind of sanding and polishing equipment of the double rotating shaft bistriques of numerical control according to claim 1, it is characterised in that the Z axis Slide (300) also includes Z axis servomotor (301), Z axis shaft coupling (302), Z axis screw mandrel support seat (303), Z axis casting base (304), Z axis supporting plate (305), Z axis guide rail component (306), Z axis screw component (307) and Z axis bearing block (308)；

The Z axis servomotor (301) is on the end face convex of Z axis casting base (304) upper end, the Z axis screw mandrel support seat (303) on the central convex of Z axis casting base (304), the Z axis bearing block (308) is located in Z axis casting base (304) Centre is on the convex of ground surface end, and the Z axis screw component (307) passes through Z axis screw mandrel support seat (303) and Z axis bearing block (308) and by Z axis shaft coupling (302) it is connected with Z axis servomotor (301), the Z axis guide rail component (306) and Z axis screw mandrel Component (307) is respectively arranged on the both sides of Z axis casting base, and the Z axis supporting plate (305) is located at the sliding block of Z axis guide rail component (306) On, and be connected by feed screw nut with Z axis screw component (207).