CN203636098U - Efficient diamond saw blade base body polisher - Google Patents

Abstract

An efficient diamond saw blade base body polisher comprises a polisher base, a main drive device, a left grinding device, a right grinding device, a left axial feeding device, a right axial feeding device, a left radial feeding device and a right radial feeding device. The main drive device is fixed to the polisher base and used for installing and driving saw blade base bodies to be machined to rotate, the left grinding device and the right grinding device are symmetrically arranged on the two sides of the main drive device respectively and used for grinding the saw blade base bodies installed on the main drive device, the left axial feeding device and the right axial feeding device are correspondingly arranged below the left grinding device and the right grinding device respectively and used for driving the left grinding device and the right grinding device to move in the axial direction of the saw blade base bodies, and the left radial feeding device and the right radial feeding device are symmetrically arranged on the polisher base and used for correspondingly supporting and driving the left axial feeding device and the right axial feeding device to move in the radial direction of the saw blade base bodies respectively. By means of a double-saw-blade polishing scheme, the two saw blades can be polished at the same time on the premise that power is not changed, the saw blades can be independently machined, and therefore production efficiency can be improved by nearly one time; an original horizontal type structure is improved into a vertical structure, and the occupied space is reduced.

Description

High-efficiency diamond saw bit matrix polishing machine

Technical field

The utility model relates to a kind of polishing machine.Particularly relate to a kind of high-efficiency diamond saw bit matrix polishing machine

Background technology

Diamond disc is widely used in Ornamental Stone Industry, and along with the fierceness day by day of competition, more and more higher to the appearance requirement of saw blade, this just requires saw blade to carry out polishing.

Saw blade polisher is mainly used in the polishing of diamond saw blade substrate, to improve the outward appearance reputation of goods, and more and more stricter to this requirement abroad; The general polishing diameter of the domestic saw blade polisher of China is at present

and diamond saw blade substrate is to large scale development, particularly external

market is very large.At present, the polishing machine on market can only saw bit matrix of polishing, and production efficiency is low; And be mostly horizontal, floor space is large.

Summary of the invention

Technical problem to be solved in the utility model is, provides a kind of under the constant prerequisite of power, two saw blades of polishing simultaneously, the high-efficiency diamond saw bit matrix polishing machine that also can process separately.

The technical scheme that the utility model adopts is: a kind of high-efficiency diamond saw bit matrix polishing machine, comprise support, be fixed on the main drive for installing and driving processed saw bit matrix to rotate on described support, symmetrical left grinding attachment and the right grinding attachment of main drive both sides for the saw bit matrix being arranged on main drive is carried out to grinding that be arranged on respectively, corresponding being arranged on below left grinding attachment and right grinding attachment for driving left grinding attachment and right grinding attachment axially movable left axial feed device and the right axial feed device along saw bit matrix respectively, and symmetrical be arranged on described support corresponding respectively support and drive left axial feed device and right axial feed device along the left radial feeding device moving radially and the right radial feeding device of saw bit matrix.

Described main drive includes the main transmission support being fixed on described support, symmetrical two groups of main transmission drive motors reductors that are fixed on described main transmission cantilever tip, the output shaft of each group main transmission drive motors reductor all connects a main drive shaft that main drive shaft is installed by an electromagnetic clutch respectively and holds, a main driven wheel of the corresponding connection of each main drive shaft, described each main driven wheel is corresponding to be meshed with a driven gear, the outside of each described driven gear is fixedly connected with one, for the saw blade that processed saw bit matrix is installed, basal disc is installed, the inner side of described each driven gear is connected from driving bearing with one by a connecting axle, described is fixed on described main transmission support from driving bearing.

Described left radial feeding device is identical with right radial feeding device structure, include the radially steering box being fixed on described support, the power shaft of described radially steering box is fastened on the output shaft of the radial motion drive motors on described support, the output shaft of described radially steering box connects radially one end of turn-screw axle, the other end of described radially turn-screw axle is fixed on described support, described radially turn-screw axle connects and driving axial feed arrangement substrate by radial feed nut, what the both sides of described radially turn-screw axle paralleled is provided with two radial feed slide rails, what can slide by radial feed slide block in the bottom of described axial feed device substrate both sides is connected on described two radial feed slide rails.

Described left axial feed device is identical with right axial feed apparatus structure, include the axial feed slide rail on the axial feed device substrate that is fixed on left radial feeding device or right radial feeding device, be arranged on the axial feed slide block that on described axial feed slide rail, also feeding slide rail moves vertically, on described axial feed slide block, be provided with the horizontal side plate of the L-type grinding attachment substrate for placing left grinding attachment or right grinding attachment, the perpendicular side plate of described L-type grinding attachment substrate is connected the output shaft of steering box with axial feed nut by horizontal turn-screw axle, the power shaft of described steering box connects the handwheel for driving steering box, described steering box is fixed on axial feed device substrate by a support.

Described left grinding attachment is identical with right grinding attachment structure, include bracing frame and abrasive band drive motors on the grinding attachment substrate that is separately fixed at left axial feed device or right axial feed device, the output shaft of described abrasive band drive motors by abrasive band connect be arranged on bracing frame upper end for saw bit matrix being carried out to the bistrique of grinding, described bistrique is to be arranged on bracing frame upper end by what be fixed on that fixed axis on support frame as described above can rotate.

Also be provided with the abrasive band tensioning apparatus being fixed on support frame as described above, the apical support of described abrasive band tensioning apparatus is on described abrasive band.

High-efficiency diamond saw bit matrix polishing machine of the present utility model, adopts two saw blade polishing schemes, and under the constant prerequisite of power, two saw blades of polishing simultaneously, also can process separately, thereby production efficiency can improve one times nearly; And original horizontal type structure is improved to vertical structure, floor space reduces.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the overall structure schematic diagram of main drive;

Fig. 3 is the top view of Fig. 2;

Fig. 4 is the overall structure schematic diagram of radial feeding device;

Fig. 5 is the top view of Fig. 4;

Fig. 6 is the overall structure schematic diagram of axial feed device;

Fig. 7 is the overall structure schematic diagram of grinding attachment;

Fig. 8 is the side view of Fig. 7.

In figure

1: support 2: left axial feed device

3: left radial feeding device 4: left grinding attachment

5: main drive 6: right axial feed device

7: right radial feeding device 8: right grinding attachment

9: handwheel 10: steering box

11: axial feed nut 12: laterally turn-screw axle

13: grinding attachment substrate 14: axial feed slide block

15: axial feed slide rail 16: axial feed device substrate

17: radial feed slide block 18: radial feed slide rail

19: radial feed nut 20: radially turn-screw axle

21: radially steering box 22: radial motion drive motors

23: abrasive band drive motors 24: abrasive band tensioning apparatus

25: abrasive band 26: bistrique

27: saw blade is installed basal disc 28: main transmission drive motors reductor

29: main driven wheel 30: electromagnetic clutch

31: driven gear 32: bracing frame

33: saw blade 34: support

35: main transmission support 36: main drive shaft holds

37: from driving bearing

The specific embodiment

Below in conjunction with embodiment and accompanying drawing, high-efficiency diamond saw bit matrix polishing machine of the present utility model is described in detail.

As shown in Figure 1, high-efficiency diamond saw bit matrix polishing machine of the present utility model, comprise support 1, be fixed on the main drive 5 for installing and driving processed saw bit matrix 33 to rotate on described support 1, symmetrical left grinding attachment 4 and the right grinding attachment 8 of main drive 5 both sides for the saw bit matrix 33 being arranged on main drive 5 is carried out to grinding that be arranged on respectively, corresponding left grinding attachment 4 and the right grinding attachment 8 of being arranged on is below for driving left grinding attachment 4 and right grinding attachment 8 axially movable left axial feed device 2 and the right axial feed device 6 along saw bit matrix 33 respectively, and symmetrical be arranged on described support 1 corresponding respectively support and drive left axial feed device 2 and right axial feed device 6 along the left radial feeding device 3 moving radially and the right radial feeding device 7 of saw bit matrix 33.

As Fig. 2, shown in Fig. 3, described main drive 5 includes the main transmission support 35 being fixed on described support 1, symmetrical two groups of main transmission drive motors reductors 28 that are fixed on described main transmission support 35 tops, the output shaft of each group main transmission drive motors reductor 28 all connects a main drive shaft that main drive shaft is installed by an electromagnetic clutch 30 respectively and holds 36, a main driven wheel 29 of the corresponding connection of each main drive shaft, described each main driven wheel 29 correspondence are meshed with a driven gear 31, the outside of each described driven gear 31 is fixedly connected with one, for the saw blade that processed saw bit matrix 33 is installed, basal disc 27 is installed, the inner side of described each driven gear 31 is connected from driving bearing 37 with one by a connecting axle, described is fixed on described main transmission support 35 from driving bearing 37.Main transmission drive motors reductor 28 rotates main driven wheel 29 by electromagnetic clutch 30, and driven gear 31 rotates thereupon, and it is coaxial with driven gear 31 that saw blade is installed basal disc 27, and therefore saw blade installation basal disc 27 rotates.

As Fig. 4, shown in Fig. 5, described left radial feeding device 3 is identical with right radial feeding device 7 structures, include the radially steering box 21 being fixed on described support 1, the power shaft of described radially steering box 21 is fastened on the output shaft of the radial motion drive motors 22 on described support 1, the output shaft of described radially steering box 21 connects radially one end of turn-screw axle 20, the other end of described radially turn-screw axle 20 is fixed on described support 1, described radially turn-screw axle 20 connects and driving axial feed arrangement substrate 16 by radial feed nut 19, what the both sides of described radially turn-screw axle 20 paralleled is provided with two radial feed slide rails 18, what can slide by radial feed slide block 17 in the bottom of described axial feed device substrate 16 both sides is connected on described two radial feed slide rails 18.Radial motion drive motors 22 drives radially turn-screw axle 20 to rotate by steering box 21 radially, radial feed nut 19 moves, radial feed nut 19, radial feed slide block 17 are arranged on below axial feed device substrate 16, and whole axial feed device does radial motion.Radial feed slide block 17 guarantees the axial feed device direction of motion while movement on radial feed slide rail 18.

As shown in Figure 6, described left axial feed device 2 is identical with right axial feed device 6 structures, include the axial feed slide rail 15 on the axial feed device substrate 16 that is fixed on left radial feeding device 3 or right radial feeding device 7, be arranged on the axial feed slide block 14 that on described axial feed slide rail 15, also feeding slide rail 15 moves vertically, on described axial feed slide block 14, be provided with the horizontal side plate of the L-type grinding attachment substrate 13 for placing left grinding attachment 4 or right grinding attachment 8, the perpendicular side plate of described L-type grinding attachment substrate 13 is connected the output shaft of steering box 10 with axial feed nut 11 by horizontal turn-screw axle 12, the power shaft of described steering box 10 connects the handwheel 9 for driving steering box 10, described steering box 10 is fixed on axial feed device substrate 16 by a support 34.The axis of handwheel 9 is perpendicular to horizontal plane, easy to operate; Steering box 10 can change transmission direction.Rotation hand wheel 9, can make horizontal turn-screw axle 12 rotate by steering box 10, axial feed nut 11 can not rotate, and passes through axial feed slide block 14 transverse shifting on axial feed slide rail 15, and then make grinding attachment substrate 13 transverse shiftings under the effect of horizontal turn-screw axle 12.

As shown in Figure 7, Figure 8, described left grinding attachment 4 is identical with right grinding attachment 8 structures, include bracing frame 32 and abrasive band drive motors 23 on the grinding attachment substrate 13 that is separately fixed at left axial feed device 2 or right axial feed device 6, the output shaft of described abrasive band drive motors 23 by abrasive band 25 connect be arranged on bracing frame 32 upper ends for saw bit matrix 33 being carried out to the bistrique 26 of grinding, described bistrique 26 is to be arranged on bracing frame 32 upper ends by what be fixed on that fixed axis on support frame as described above 32 can rotate.Also be provided with the abrasive band tensioning apparatus 24 being fixed on support frame as described above 32, the apical support of described abrasive band tensioning apparatus 24 is on described abrasive band 25.Abrasive band drive motors 23 drives abrasive band 25 to rotate, and by bistrique 26, saw bit matrix is carried out to grinding.

The operation principle of high-efficiency diamond saw bit matrix polishing machine of the present utility model:

Bistrique 26 initial positions of grinding attachment are outside wanted grinding saw bit matrix 33 circumference, saw bit matrix is arranged on to saw blade to be installed on basal disc 27, rotation hand wheel 9, grinding attachment is axially moved near saw bit matrix, according to saw bit matrix thickness and grinding depth, continue rotation hand wheel 9, make the bistrique 26 of grinding attachment exceed saw bit matrix grinding face, starting main transmission drive motors reductor 28 rotates saw blade installation basal disc 27, saw bit matrix is rotation thereupon also, starting abrasive band drive motors 23 rotates abrasive band 25, starting radial motion drive motors 22 makes whole axial feed device do radial motion, grinding attachment is motion thereupon also, bistrique 26 does radial feed from the center of the export-oriented saw bit matrix of wanted grinding saw bit matrix circumference like this, realize saw bit matrix grinding-polishing.Because grinding attachment, radial feeding device, axial feed device are respectively left and right two covers, in the time that a side grinding turning device carries out grinding-polishing, repeat above process, make opposite side grinding attachment carry out grinding-polishing to another saw bit matrix.So just polishing two saw bit matrixes simultaneously.After the polishing of a certain side saw bit matrix completes, can make the electromagnetic clutch 30 of this side separate, the saw blade installation basal disc 27 of this side is stopped the rotation, grinding attachment bistrique 26 is got back to initial position, reinstall after new saw bit matrix, then make electromagnetic clutch 30 combinations of this side, saw blade is installed basal disc 27 and is driven new saw bit matrix rotation again, carry out grinding-polishing, loop.

Claims (6)

1. a high-efficiency diamond saw bit matrix polishing machine, comprise support (1), it is characterized in that, also be provided with the main drive (5) for installing and driving processed saw bit matrix (33) to rotate being fixed on described support (1), symmetrical main drive (5) both sides that are arranged on are used for left grinding attachment (4) and right grinding attachment (8) that the saw bit matrix (33) being arranged on main drive (5) is carried out to grinding respectively, corresponding left grinding attachment (4) and the right grinding attachment (8) of being arranged on is below for driving left grinding attachment (4) and right grinding attachment (8) axially movable left axial feed device (2) and the right axial feed device (6) along saw bit matrix (33) respectively, and symmetrical be arranged on described support (1) corresponding respectively support and drive left axial feed device (2) and right axial feed device (6) along the left radial feeding device (3) moving radially and the right radial feeding device (7) of saw bit matrix (33).

2. high-efficiency diamond saw bit matrix polishing machine according to claim 1, it is characterized in that, described main drive (5) includes the main transmission support (35) being fixed on described support (1), the symmetrical two groups of main transmission drive motors reductors (28) that are fixed on described main transmission support (35) top, the output shaft of each group main transmission drive motors reductor (28) all connects a main drive shaft that main drive shaft is installed by an electromagnetic clutch (30) respectively and holds (36), the corresponding main driven wheel (29) that connects of each main drive shaft, described each main driven wheel (29) is corresponding to be meshed with a driven gear (31), the outside of described each driven gear (31) is fixedly connected with one, for the saw blade that processed saw bit matrix (33) is installed, basal disc (27) is installed, the inner side of described each driven gear (31) is connected from driving bearing (37) with one by a connecting axle, described is fixed on described main transmission support (35) from driving bearing (37).

3. high-efficiency diamond saw bit matrix polishing machine according to claim 1, it is characterized in that, described left radial feeding device (3) is identical with right radial feeding device (7) structure, include the radially steering box (21) being fixed on described support (1), the power shaft of described radially steering box (21) is fastened on the output shaft of the radial motion drive motors (22) on described support (1), the output shaft of described radially steering box (21) connects radially one end of turn-screw axle (20), the other end of described radially turn-screw axle (20) is fixed on described support (1), described radially turn-screw axle (20) connects and driving axial feed arrangement substrate (16) by radial feed nut (19), what the both sides of described radially turn-screw axle (20) paralleled is provided with two radial feed slide rails (18), what can slide by radial feed slide block (17) in the bottom of described axial feed device substrate (16) both sides is connected on described two radial feed slide rails (18).

4. high-efficiency diamond saw bit matrix polishing machine according to claim 1, it is characterized in that, described left axial feed device (2) is identical with right axial feed device (6) structure, include the axial feed slide rail (15) on the axial feed device substrate (16) that is fixed on left radial feeding device (3) or right radial feeding device (7), be arranged on described axial feed slide rail (15) axial feed slide block (14) upper and that feeding slide rail (15) moves vertically, on described axial feed slide block (14), be provided with the horizontal side plate of the L-type grinding attachment substrate (13) for placing left grinding attachment (4) or right grinding attachment (8), the perpendicular side plate of described L-type grinding attachment substrate (13) is connected the output shaft of steering box (10) with axial feed nut (11) by horizontal turn-screw axle (12), the power shaft of described steering box (10) connects the handwheel (9) that is used for driving steering box (10), described steering box (10) is fixed on axial feed device substrate (16) by a support (34).

5. high-efficiency diamond saw bit matrix polishing machine according to claim 1, it is characterized in that, described left grinding attachment (4) is identical with right grinding attachment (8) structure, include bracing frame (32) and abrasive band drive motors (23) on the grinding attachment substrate (13) that is separately fixed at left axial feed device (2) or right axial feed device (6), the output shaft of described abrasive band drive motors (23) by abrasive band (25) connect be arranged on bracing frame (32) upper end for saw bit matrix (33) being carried out to the bistrique (26) of grinding, described bistrique (26) is to be arranged on bracing frame (32) upper end by what be fixed on that fixed axis on support frame as described above (32) can rotate.

6. high-efficiency diamond saw bit matrix polishing machine according to claim 5, it is characterized in that, also be provided with the abrasive band tensioning apparatus (24) being fixed on support frame as described above (32), the apical support of described abrasive band tensioning apparatus (24) is on described abrasive band (25).

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