CN103084934A

CN103084934A - Numerical control precise circular knife grinding mill and method thereof

Info

Publication number: CN103084934A
Application number: CN2013100597003A
Authority: CN
Inventors: 陈�胜
Original assignee: ZHEJIANG YONGLIDA CNC MACHINERY CO Ltd
Current assignee: ZHEJIANG YONGLIDA CNC MACHINERY CO Ltd
Priority date: 2013-02-26
Filing date: 2013-02-26
Publication date: 2013-05-08

Abstract

The invention discloses a numerical control precise circular knife grinding mill and a method of the numerical control precise circular knife grinding mill. The numerical control precise circular knife grinding mill comprises a machine seat, an X-shaft guide rail base seat, an X-shaft guide rail, an X-shaft sliding block, an X-shaft sliding plate, an X-shaft servo motor box, grinding wheel fastening nuts, workpiece fastening nuts, a workpiece fixing circular disk, a workpiece, a Z-shaft servo motor box, an input keyboard, a computer, an operating panel, a machine case, a Z-shaft feeding servo motor, a Z-shaft sliding block, a rotating chassis, a Z-shaft sliding plate, a Z-shaft guide rail, a Z-shaft guide rail base seat, an X-shaft feeding servo motor, an X-shaft coupler, a rotating sliding block, a Z-shaft coupler and a Z-shaft feeding servo motor. The numerical control precise circular knife grinding mill is suitable for grinding of circular workpieces and has the advantages of being easy to operate, convenient to use, flexible, simple and fast in blade changing, capable of satisfying grinding of various types of blades, low in technical requirements for workers, capable of being entirely controlled by programs in the process of grinding and high in production efficiency.

Description

Numerically-controlled precise dise knife grinder and method thereof

Technical field

The present invention relates to grinder, relate in particular to a kind of numerically-controlled precise dise knife grinder and method thereof.

Background technology

In social production, a lot of production fields will be used the circular shear blade cutting products, such as paper mill, slaughterhouse etc.When blade uses for a long time, can occur inevitably that blade abrasion is fast, the situation of blade rust, in order to guarantee the Quality and yield of product, carry out grinding with regard to the regular blade of needs, sharp with the maintenance knife-blade, and also the grinding accuracy demand is higher.But most of use of grinding blade is manual grinding or semi-automatic controlling machine grinding now, and manual grinding is wasted time and energy, and production efficiency is low, and precision is relatively low.Although semi-automatic controlling machine grinding grinding accuracy is higher, operation requirements is higher, is difficult for grasping, and percent defective is higher, and investment is higher.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, a kind of numerically-controlled precise dise knife grinder and method thereof are provided.

Numerically-controlled precise dise knife grinder comprises support, X-axis part, Z axis part, numerical control part, and X-axis part and Z axis partly are arranged vertically on support, and the numerical control partial fixing is on the Z axis part;

described X-axis partly comprises the X-axis guiderail base, the X-axis guide rail, the X-axis slide block, the X-axis slide plate, X-axis servomotor cabinet, the emery wheel clamp nut, emery wheel, X-axis feed servo motor, the X-axis shaft coupling, X-axis feed servo motor is fixed on support, X-axis feed servo motor output shaft is connected with the X-axis feed arrangement by the X-axis shaft coupling, the X-axis feed arrangement is connected with the X-axis slide plate, the X-axis guiderail base is fixed on support, the X-axis guide rail parallel is fixed on the X-axis guiderail base, the X-axis slide block set is on the X-axis guide rail, the X-axis slide block is inboard to be contacted with the X-axis guide pass, can smoothly slide on the X-axis guide rail, on the X-axis slide plate, groove is arranged, the X-axis slide block can smoothly slide in groove, X-axis servomotor cabinet is fixed on the X-axis slide plate, emery wheel is fixed on X-axis servomotor cabinet output shaft by the emery wheel clamp nut,

described Z axis partly comprises the workpiece clamp nut, the workpiece fixed disc, workpiece, Z axis servomotor cabinet, Z axis feed servo motor, the Z axis slide block, swivel base, the Z axis slide plate, the Z axis guide rail, the Z axis guiderail base, rotary slider, the Z axis shaft coupling, Z axis feed servo motor, Z axis feed servo motor is fixed on support, Z axis feed servo motor output shaft is connected with the Z axis feed arrangement by the Z axis shaft coupling, the Z axis feed arrangement is connected with the Z axis slide plate, the Z axis guiderail base is fixed on support, the Z axis guide rail parallel is fixed on the Z axis guiderail base, the Z axis slide plate forms moving sets by Z axis slide block and Z axis guide rail, swivel base and Z axis slide plate are fixed, there is circular guideway Z axis slide plate upper end, rotary slider is inboard to be contacted with guide pass, rotary slider can slide on guide rail smoothly, Z axis servomotor cabinet bottom has groove, rotary slider can slide in groove smoothly, Z axis servomotor cabinet can rotational slide on the Z axis slide plate,

Described numerical control partly comprises input keyboard, computer, guidance panel, casing, casing and support are fixed, input keyboard, computer, guidance panel are embedded in casing, and computer is connected with X-axis feed servo motor, Z axis feed servo motor, X-axis servomotor cabinet, Z axis servomotor cabinet by control system.

Numerically-controlled precise dise knife Ginding process comprises the following steps:

1) open numerically-controlled precise dise knife grinder;

2) by input keyboard, procedure is inputted computer;

3) back out the emery wheel clamp nut and emery wheel is contained on X-axis servomotor output shaft tightens again the emery wheel clamp nut, back out the workpiece clamp nut, take off the workpiece fixed disc, workpiece is loaded onto, then tightened the workpiece clamp nut;

4) automatically carry out grinding;

5) complete grinding, back out the workpiece clamp nut, take off the workpiece fixed disc, the dismounting workpiece.

Use the present invention, can automatically complete the grinding of circular cutter in enormous quantities, simple, convenient flexible, allowing blade replacement simple and fast more, can satisfy the grinding of all size blade, and lower to workman's specification requirement, and grinding process fully can be by programme-control, production efficiency is higher, with respect to common hand grinding, production efficiency is high, and is simple to operate, safe and reliable, with respect to manual dise knife grinder, the present invention only need compile and edit suitable program, can complete in enormous quantities the grinding of workpiece, and machining accuracy is higher

Description of drawings

Fig. 1 is numerically-controlled precise dise knife grinder front view;

Fig. 2 is numerically-controlled precise dise knife grinder top view (removal casing);

in figure, support 1, X-axis guiderail base 2, X-axis guide rail 3, X-axis slide block 4, X-axis slide plate 5, X-axis servomotor cabinet 6, emery wheel clamp nut 7, emery wheel 8, workpiece clamp nut 9, workpiece fixed disc 10, workpiece 11, Z axis servomotor cabinet 12, input keyboard 13, computer 14, guidance panel 15, casing 16, Z axis feed servo motor 17, Z axis slide block 18, swivel base 19, Z axis slide plate 20, Z axis guide rail 21, Z axis guiderail base 22, X-axis feed servo motor 23, X-axis shaft coupling 24, rotary slider 25, Z axis shaft coupling 26, Z axis feed servo motor 27.

The specific embodiment

As shown in Figure 1, 2, numerically-controlled precise dise knife grinder comprises support, X-axis part, Z axis part, numerical control part, and X-axis part and Z axis partly are arranged vertically on support, and the numerical control partial fixing is on the Z axis part;

described X-axis partly comprises X-axis guiderail base 2, X-axis guide rail 3, X-axis slide block 4, X-axis slide plate 5, X-axis servomotor cabinet 6, emery wheel clamp nut 7, emery wheel 8, X-axis feed servo motor 23, X-axis shaft coupling 24, X-axis feed servo motor 23 is fixed on support 1, X-axis feed servo motor 23 output shafts are connected with the X-axis feed arrangement by X-axis shaft coupling 24, the X-axis feed arrangement is connected with X-axis slide plate 5, X-axis guiderail base 2 is fixed on support 1, X-axis guide rail 3 is parallel to be fixed on X-axis guiderail base 2, X-axis slide block 4 is enclosed within on X-axis guide rail 3, X-axis slide block 4 is inboard to be contacted with 3, X-axis guide rail, can smoothly slide on X-axis guide rail 3, on X-axis slide plate 5, groove is arranged, X-axis slide block 4 can smoothly slide in groove, X-axis servomotor cabinet 6 is fixed on X-axis slide plate 5, emery wheel 8 is fixed on X-axis servomotor cabinet 6 output shafts by emery wheel clamp nut 7,

described Z axis partly comprises workpiece clamp nut 9, workpiece fixed disc 10, workpiece 11, Z axis servomotor cabinet 12, Z axis feed servo motor 17, Z axis slide block 18, swivel base 19, Z axis slide plate 20, Z axis guide rail 21, Z axis guiderail base 22, rotary slider 25, Z axis shaft coupling 26, Z axis feed servo motor 27, Z axis feed servo motor 27 is fixed on support 1, Z axis feed servo motor 27 output shafts are connected with the Z axis feed arrangement by Z axis shaft coupling 26, the Z axis feed arrangement is connected with Z axis slide plate 20, Z axis guiderail base 22 is fixed on support 1, Z axis guide rail 21 is parallel to be fixed on Z axis guiderail base 22, Z axis slide plate 20 forms moving sets by Z axis slide block 18 and Z axis guide rail 21, swivel base 19 is fixing with Z axis slide plate 20, there is circular guideway Z axis slide plate 20 upper ends, rotary slider 25 is inboard to be contacted with guide pass, rotary slider 25 can slide on guide rail smoothly, Z axis servomotor cabinet 12 bottoms have groove, rotary slider 25 can slide in groove smoothly, Z axis servomotor cabinet 12 can rotational slide on Z axis slide plate 20,

Described numerical control partly comprises input keyboard 13, computer 14, guidance panel 15, casing 16, casing 16 is fixing with support 1, input keyboard 13, computer 14, guidance panel 15 are embedded in casing 16, and computer 14 is connected with X-axis feed servo motor 23, Z axis feed servo motor 27, X-axis servomotor cabinet 6, Z axis servomotor cabinet 12 by control system.

1) open numerically-controlled precise dise knife grinder;

2) by input keyboard 13, procedure is inputted computer 14;

3) back out emery wheel clamp nut 7 and emery wheel 8 is contained on X-axis servomotor 6 output shafts tightens again emery wheel clamp nut 7, back out workpiece 11 clamp nuts 9, take off workpiece fixed disc 10, workpiece 11 is loaded onto, then tightened workpiece clamp nut 9;

4) automatically carry out grinding;

5) complete grinding, back out workpiece clamp nut 9, take off workpiece fixed disc 10, dismounting workpiece 11.

Claims

1. a numerically-controlled precise dise knife grinder, is characterized in that comprising support, X-axis part, Z axis part, numerical control part, and X-axis part and Z axis partly are arranged vertically on support, and the numerical control partial fixing is on the Z axis part;

described X-axis partly comprises X-axis guiderail base (2), X-axis guide rail (3), X-axis slide block (4), X-axis slide plate (5), X-axis servomotor cabinet (6), emery wheel clamp nut (7), emery wheel (8), X-axis feed servo motor (23), X-axis shaft coupling (24), X-axis feed servo motor (23) is fixed on support (1), X-axis feed servo motor (23) output shaft is connected with the X-axis feed arrangement by X-axis shaft coupling (24), the X-axis feed arrangement is connected with X-axis slide plate (5), X-axis guiderail base (2) is fixed on support (1), X-axis guide rail (3) is parallel to be fixed on X-axis guiderail base (2), X-axis slide block (4) is enclosed within on X-axis guide rail (3), X-axis slide block (4) is inboard to be contacted with X-axis guide rail (3) face, can be upper level and smooth slip of X-axis guide rail (3), the X-axis slide plate has groove on (5), X-axis slide block (4) can smoothly slide in groove, X-axis servomotor cabinet (6) is fixed on X-axis slide plate (5), emery wheel (8) is fixed on X-axis servomotor cabinet (6) output shaft by emery wheel clamp nut (7),

described Z axis partly comprises workpiece clamp nut (9), workpiece fixed disc (10), workpiece (11), Z axis servomotor cabinet (12), Z axis feed servo motor (17), Z axis slide block (18), swivel base (19), Z axis slide plate (20), Z axis guide rail (21), Z axis guiderail base (22), rotary slider (25), Z axis shaft coupling (26), Z axis feed servo motor (27), Z axis feed servo motor (27) is fixed on support (1), Z axis feed servo motor (27) output shaft is connected with the Z axis feed arrangement by Z axis shaft coupling (26), the Z axis feed arrangement is connected with Z axis slide plate (20), Z axis guiderail base (22) is fixed on support (1), Z axis guide rail (21) is parallel to be fixed on Z axis guiderail base (22), Z axis slide plate (20) forms moving sets by Z axis slide block (18) and Z axis guide rail (21), swivel base (19) is fixing with Z axis slide plate (20), there is circular guideway Z axis slide plate (20) upper end, rotary slider (25) is inboard to be contacted with guide pass, rotary slider (25) can slide on guide rail smoothly, Z axis servomotor cabinet (12) bottom has groove, rotary slider (25) can slide in groove smoothly, Z axis servomotor cabinet (12) can be in the upper rotational slide of Z axis slide plate (20),

Described numerical control partly comprises input keyboard (13), computer (14), guidance panel (15), casing (16), casing (16) is fixing with support (1), input keyboard (13), computer (14), guidance panel (15) are embedded in casing (16), and computer (14) is connected with X-axis feed servo motor (23), Z axis feed servo motor (27), X-axis servomotor cabinet (6), Z axis servomotor cabinet (12) by control system.

2. one kind is used the numerically-controlled precise dise knife Ginding process of grinder as claimed in claim 1, it is characterized in that comprising the following steps:

1) open numerically-controlled precise dise knife grinder;

2) by input keyboard (13), procedure is inputted computer (14);

3) backing out emery wheel clamp nut (7) is contained in emery wheel (8) on X-axis servomotor (6) output shaft and tightens emery wheel clamp nut (7) again, back out workpiece (11) clamp nut (9), take off workpiece fixed disc (10), workpiece (11) is loaded onto, then tightened workpiece clamp nut (9);

4) automatically carry out grinding;

5) complete grinding, back out workpiece clamp nut (9), take off workpiece fixed disc (10), dismounting workpiece (11).