CN203831192U - Forming grinding machine capable of processing two surfaces simultaneously - Google Patents

Abstract

The utility model discloses a forming grinding machine capable of processing two surfaces simultaneously. The grinding machine comprises a machine tool base and a work piece grinding workbench mounted on the machine tool base, wherein four sets of grinding mechanisms are mounted on the work piece grinding workbench; the grinding machine is characterized in that the grinding mechanisms are arranged sequentially in the work piece feeding direction; the grinding wheels of the grinding mechanisms are positioned above and below a work piece alternately when the grinding mechanisms are in the working state. Compared with the prior art, the grinding machine disclosed by the utility model has the advantages as follows: four sets of grinding mechanisms are arranged sequentially in the work piece feeding direction, and the grinding wheels of the grinding mechanisms are positioned above and below the work piece alternately when the grinding mechanisms are in the working state, so that after the work piece is clamped for one time only, coarse grinding and fine grinding can be performed on the upper surface and the lower surface of the work piece in one process, and the situation that the work piece is clamped for two times at least for being subjected to coarse grinding and fine grinding respectively is avoided, therefore, the processing efficiency is improved, and the forming machining precision of the work piece can be ensured.

Description

Double-faced forming grinding machine

Technical field

The utility model relates to machining tool technical field, especially relates to a kind of double-faced forming grinding machine.

Background technology

Grinding machine is to utilize grinding tool surface of the work to be carried out to the lathe of grinding, and form grinder is for a kind of lathe of the compromise face of processing work in grinding machine.

Current form grinder, the grinding wheel spindle that comprises lathe base, workpiece Feed table, grinding workbench, the first grinding mechanism and the first grinding mechanism is to the grinding wheel spindle of position adjusting mechanism, the second grinding mechanism and the second grinding mechanism to position adjusting mechanism; Described grinding mechanism comprises emery wheel rotary main shaft, spindle carrier, emery wheel, spindle carrier upper-lower position adjustment screw mandrel, screw mandrel drive motors, emery wheel drive motors; Described first, second grinding mechanism is arranged side by side, and the main-shaft axis of described first, second grinding mechanism is parallel.

The form grinder of this structure has the following disadvantages above: because emery wheel only has two, adding the wherein one side grinding of roughly grinding or refining that man-hour can only be to the top and bottom of product, but when all roughly grinding and refining twice grinding for some product needed top and bottom is two-sided, just cannot a grinding put in place, to process at least at twice, working (machining) efficiency is lower like this, and same workpiece at twice clamping processing also cannot guarantee machining accuracy.

In addition, each grinding mechanism of existing form grinder is to the clamp mechanism that should have a clamping work pieces to use, such as the above-mentioned form grinder with two grinding mechanisms just needs two clamp mechanism, this not only makes the structure of form grinder comparatively complicated, on grinding machine, must reserve enough spaces each clamp mechanism is installed, and improve the manufacturing cost of form grinder.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned prior art present situation, provides a kind of need carry out the double-faced forming grinding machine that clamped one time can be roughly ground and refine the upper and lower surface of workpiece to workpiece.

The utility model solves the problems of the technologies described above adopted technical scheme: this double-faced forming grinding machine, comprise lathe base and be arranged on the workpiece grinding workbench on lathe base, on described workpiece grinding workbench, grinding mechanism is installed, it is characterized in that: described grinding mechanism has four groups and be arranged in order along workpiece direction of feed, and described grinding mechanism in working order under, the emery wheel position of four groups of grinding mechanisms is alternately positioned at the upper and lower of described workpiece.

Preferably, four groups of described grinding mechanisms are arranged side by side the side in workpiece direction of feed, and respectively organize that the mutual horizontal parallel of the emery wheel rotary main shaft axis of grinding mechanism distributes and perpendicular with workpiece direction of feed.Like this, the position distribution of grinding mechanism is comparatively reasonable.

Further preferably, described double-faced forming grinding machine also includes the reverse clamping device that shares and be positioned at workpiece direction of feed opposite side for described four groups of grinding mechanisms, described reverse clamping device running fix is in described workpiece direction of feed, and under workpiece grinding state, described reverse clamping device withstands the reverse side of workpiece grinding skin.Oppositely clamping device withstands after the reverse side of workpiece grinding skin, the normal force in the time of can balance wheel grinding, workpiece being caused, thereby avoid the vibrations and the workpiece grinding-shaping error that are harmful to, in addition, four groups of grinding mechanisms share reverse clamping devices, can simplify the structure of grinding machine and reduce the manufacturing cost of grinding machine.

Oppositely clamping device can adopt various structures, preferably, described reverse clamping device comprises the clamp cylinder that clamping work pieces is used and drives this clamp cylinder at vertical direction, to make the driving mechanism of putting upside down turning upside down, at this, put upside down under driving mechanism driving, described clamp cylinder is clamped in upper surface or the lower surface of workpiece.

Put upside down driving mechanism and can adopt various structures, preferably, the described driving mechanism of putting upside down comprises the mechanism body with two semi arch commutation tracks, the commutation of putting upside down being arranged in mechanism body promotes slide rail, driving this to put upside down commutation promotes the driving cylinder that the relative mechanism body of slide rail moves up and down and is arranged on the cylinder fixed cover on described clamp cylinder, sidepiece at described cylinder fixed cover is fixed with the guide of putting upside down commutation use, described guide comprises the first guide post, the second guide post and sliding bar, the first described guide post and the second guide post are spacing on described two semi arch commutation tracks, described sliding bar is slidably arranged in the described commutation of putting upside down and promotes on slide rail, and, the described driving mechanism of putting upside down passes through a driven unit in workpiece direction of feed, vertically perpendicular to workpiece direction of feed and horizontal vertical, in these three directions of workpiece direction of feed, make integrated moving.Adopt this to put upside down after driving mechanism, the cylinder fixed cover that utilizes the twice semi arch track in mechanism and be mated, can will drive the rectilinear motion of cylinder to be converted into rotatablely moving of clamp cylinder, thereby realize turning upside down of clamp cylinder.

As such scheme further preferably, described driving cylinder is arranged in described mechanism body, described mechanism body, putting upside down commutation promotes slide rail and drives cylinder to be positioned at the homonymy of described cylinder fixed cover, and described two semi arches commutate tracks at cylinder fixed cover and put upside down commutation and promote between slide rail, described guide is integrated part and is located at the side towards two semi arch commutation tracks of cylinder fixed cover, the first guide post of described guide post and the second guide post are slidably arranged in and put upside down commutation and promote on slide rail through two semi arches commutation tracks and described sliding bar.Like this, the structure of putting upside down driving mechanism is more reasonable, can more successfully will drive the rectilinear motion of cylinder to be converted into rotatablely moving of clamp cylinder.

Further preferably, described pair of semi arch commutates track in the same center of circle and is divided into the first commutation track and the second less commutation track of radius that radius is larger, and, two end points of two end points of the first commutation track and the second commutation track are all positioned on same vertical curve, described put upside down commutation and promote slide rail and be horizontally disposed with.

Described driven unit can have various structures and type of drive, and preferably, described driven unit comprises

The first guide rail, level is located on described grinding workbench and is distributed along workpiece direction of feed;

The first take-up housing, is arranged on above-mentioned the first guide rail;

First regulates screw mandrel, matches and is incorporated in drive motors driving lower drive the first take-up housing horizontal slip on the first guide rail with above-mentioned the first take-up housing;

The second guide rail, level is located on the first described take-up housing and is perpendicular with workpiece direction of feed;

The second take-up housing, is arranged on above-mentioned the second guide rail;

Second regulates screw mandrel, matches and is incorporated in drive motors driving lower drive the second take-up housing horizontal slip on the second guide rail with above-mentioned the second take-up housing;

The 3rd guide rail, is vertically located on the second described take-up housing, and described mechanism body is arranged on the 3rd guide rail; And

The 3rd regulates screw mandrel, matches and is incorporated in a drive motors and drives lower lead agency body to slide up and down on above-mentioned the 3rd guide rail with described mechanism body.

In order to make clamp cylinder clamping work pieces better, in the piston rod end of described clamp cylinder, the rubber roll that clamping work pieces is used is installed.

As above-mentioned arbitrary scheme preferably, on described grinding workbench, be also provided with before workpiece is made upper and lower surfacing and can to side surface of workpiece, carry out in advance the first side grinding mechanism and the second side grinding mechanism of grinding, described the first side grinding mechanism and the second side grinding mechanism lay respectively at the both sides of workpiece direction of feed, and, at workpiece, do under upper and lower surfacing state, the side grinding emery wheel of the side grinding emery wheel of described the first side grinding mechanism and the second side grinding mechanism is clamped in respectively the corresponding side surface of workpiece.Like this, the first side grinding mechanism and the second side grinding mechanism not only can carry out grinding to the side of workpiece in advance, and can also play the effect of clamping work pieces.

Compared with prior art, the utility model has the advantage of: because this double-faced forming grinding machine is arranged in order four groups of grinding mechanisms along workpiece direction of feed, and in working order, the emery wheel position of four groups of grinding mechanisms is alternately positioned at the upper and lower of described workpiece, thereby workpiece only needs just can at one in-process, complete required corase grind and fine grinding to its upper and lower surface after clamped one time, and need not divide at least twice clamping roughly grind respectively and refine, thereby not only improve working (machining) efficiency, and can guarantee the forming machining precision of workpiece.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the structural representation of another angle of the utility model embodiment;

Fig. 3 is the structural representation of clamp cylinder after turning upside down in the utility model embodiment;

Fig. 4 is the structural representation of the reverse clamping device of the utility model embodiment;

Fig. 5 is the structural representation of reverse clamping device shown in Fig. 4 in clamp cylinder reverses the process;

Fig. 6 is the structural representation of reverse clamping device shown in Fig. 4 after clamp cylinder is put upside down completely;

Fig. 7 is the structural representation of putting upside down driving mechanism of the utility model embodiment;

Fig. 8 puts upside down the perspective exploded view of driving mechanism shown in Fig. 7.

The specific embodiment

Below in conjunction with accompanying drawing, embodiment is described in further detail the utility model.

As shown in Figure 1 to Figure 3, double-faced forming grinding machine in the present embodiment comprises lathe base 1 and is arranged on machine tool feed workbench 8 and the workpiece grinding workbench 2 on lathe base 1, workpiece 7 directions of feed are horizontal direction, on workpiece grinding workbench 2, along workpiece direction of feed, be aligned in sequence with four groups of grinding mechanisms, four groups of grinding mechanisms are arranged side by side the side in workpiece direction of feed, and the mutual horizontal parallel of emery wheel rotary main shaft 36 axis of respectively organizing grinding mechanism distributes and perpendicular with workpiece direction of feed.Grinding mechanism in working order under, emery wheel 35 positions of four groups of grinding mechanisms are alternately positioned at the upper and lower of described workpiece, particularly, first group of grinding mechanism 31 in four groups of grinding mechanisms and the emery wheel of the 3rd group of grinding mechanism 33 are positioned at the below of workpiece, and the emery wheel of second group of grinding mechanism 32 and the 4th group of grinding mechanism 34 is positioned at the top of workpiece.First group of grinding mechanism 31 and second group of grinding mechanism 32 are also responsible for the corase grind of workpiece near machine tool feed workbench 8, and the 3rd group of grinding mechanism 33 and the 4th group of grinding mechanism 34 are also responsible for the fine grinding of workpiece away from machine tool feed workbench 8.

Every group of grinding mechanism includes emery wheel rotary main shaft, spindle carrier, emery wheel, spindle carrier upper-lower position and adjusts screw mandrel, spindle carrier upper-lower position and adjust screw mandrel rotary drive motor, emery wheel drive motors, grinding mechanism along the rotary drive motor of emery wheel axial direction position adjustments screw mandrel, grinding mechanism position adjustments screw mandrel.The concrete structure of grinding mechanism is prior art, and its structure and operating principle do not launch to describe.

In addition, the first side grinding mechanism 61 and the second side grinding mechanism 62 are also installed on workpiece grinding workbench 2, the first side grinding mechanism 61 and the second side grinding mechanism 62 lay respectively at the both sides of workpiece direction of feed, before above-mentioned four groups of grinding mechanisms carry out upper and lower surfacing, the first side grinding mechanism 61 and the second side grinding mechanism 62 carry out grinding to workpiece 7 sides in advance.And, at workpiece, to do under upper and lower surfacing state, the side grinding emery wheel 63 of the side grinding emery wheel 63 of the first side direction grinding mechanism 61 and the second side grinding mechanism 62 is clamped in respectively the corresponding side surface of workpiece.These two groups of side grinding mechanisms are compared with above-mentioned four groups of grinding mechanisms, difference is that the axis of its rotating shaft main shaft vertically arranges, its concrete structure and operating principle and above-mentioned four groups of grinding mechanisms are substantially similar, are conventional prior art, at this, do not launch to describe.

Above-mentioned for the upper and lower surface of workpiece being carried out to the shared reverse clamping device 4 of four groups of grinding mechanisms of grinding, this reverse clamping device 4 and these four groups of grinding mechanisms lay respectively at the both sides of workpiece direction of feed, oppositely clamping device 4 can be with workpiece servo-actuated and running fix in workpiece direction of feed.And, under workpiece grinding state, the normal force that the reverse side that oppositely clamping device 4 withstands workpiece grinding skin causes workpiece during with balance wheel grinding, thus avoid the vibrations and the workpiece grinding-shaping error that are harmful to.In addition, these four groups of grinding mechanisms share a reverse clamping device, can simplify the structure of grinding machine and reduce the manufacturing cost of grinding machine.

Reverse clamping device 4 in the present embodiment comprises the clamp cylinder 41 that clamping work pieces uses and drives that this clamp cylinder 41 does to turn upside down at vertical direction puts upside down driving mechanism 42, the rubber roll 411 that clamping work pieces is used is installed in the piston rod end of clamp cylinder 41, putting upside down under driving mechanism 42 drivings, the rubber roll 411 of clamp cylinder 41 is pressed on upper surface or the lower surface of workpiece 7.

As shown in Fig. 4 to 8, in the present embodiment, put upside down that driving mechanism 42 comprises mechanism body 421, the putting upside down commutation that is arranged in mechanism body promotes slide rail 422, drives this to put upside down commutation to promote the driving cylinder 423 that the relative mechanism body of slide rail moves up and down and be arranged on the cylinder fixed cover 424 on clamp cylinder 41.Particularly, in mechanism body 421, be provided with vertical guide 420 and two semi arch commutation track, two semi arches commutate tracks in the same center of circle and are divided into the first commutation track 428 and the second less commutation track 429 of radius that radius is larger, and, two end points of two end points of the first commutation track 428 and the second commutation track 429 are all positioned on same vertical curve, putting upside down commutation and promoting slide rail 422 and be horizontally disposed with.Drive cylinder 423 to be vertically arranged in mechanism body 421, driving under the driving of cylinder 423, put upside down commutation promotion slide rail 422 and move up and down along vertical guide 420.

Mechanism body 421, put upside down commutation and promote slide rail 422 and drive cylinder 423 to be positioned at the homonymy of cylinder fixed cover 424, and two semi arch commutation track cylinder fixed cover 424 with put upside down between commutation promotion slide rail 422.At cylinder fixed cover 424, towards the sidepiece of two semi arch tracks, be fixed with the guide of putting upside down commutation use.In the present embodiment, this guide is integrated part and comprises the first guide post 425, the second guide post 426 and sliding bar 427, the first guide post 425, the second guide post 426 and sliding bar 427 are all horizontally disposed with and are parallel to each other, sliding bar 427 is between the first guide post 425 and the second guide post 426, the first guide post 425 is through also spacing on the first commutation track 428, the second guide post 426 is through also spacing on the second commutation track 429, when clamp cylinder 41 is positioned at vertical position, the first guide post 425, the second guide post 426 and sliding bar 427 are on same perpendicular.Clamp cylinder 41 is in the process of turning upside down, and the first guide post 425 and the second guide post 426 move at the first commutation track 428 and the second commutation track 429 upper limits respectively, and sliding bar 427 promotes to slidably reciprocate on slide rail 422 putting upside down commutation.Adopt this to put upside down after driving mechanism 42, the cylinder fixed cover 424 that utilizes the twice semi arch track in mechanism and be mated, can will drive the rectilinear motion of cylinder 423 to be converted into rotatablely moving of clamp cylinder 41, thereby realize turning upside down of clamp cylinder 41.

Above-mentioned put upside down driving mechanism 42 by driven unit in workpiece direction of feed, vertically make integrated moving perpendicular to workpiece direction of feed and horizontal vertical in these three directions of workpiece direction of feed.Particularly, this driven unit comprises

The first guide rail 51, level is located on described workpiece grinding workbench 2 and is distributed along workpiece direction of feed;

The first take-up housing 52, is arranged on above-mentioned the first guide rail 51;

First regulates screw mandrel 53, matches and is incorporated in drive motors driving lower drive the first take-up housing 52 horizontal slip on the first guide rail 51 with above-mentioned the first take-up housing 52;

The second guide rail 54, level is located on the first described take-up housing 52 and is perpendicular with workpiece direction of feed;

The second take-up housing 55, is arranged on above-mentioned the second guide rail 54;

Second regulates screw mandrel 56, matches and is incorporated in drive motors driving lower drive the second take-up housing 55 horizontal slip on the second guide rail 54 with above-mentioned the second take-up housing 55;

The 3rd guide rail 57, is vertically located on the second described take-up housing 55, and described mechanism body 421 is arranged on the 3rd guide rail 57; And

The 3rd regulates screw mandrel 58, matches and is incorporated in a drive motors and drives lower lead agency body to slide up and down on above-mentioned the 3rd guide rail 57 with described mechanism body 421.

During this double-faced forming grinding machine work, be arranged on into the feed mechanism (not shown) on a Feed table 8 and carry out workpiece 7 feedings, emery wheel 35 position adjustments of first group of grinding mechanism 31 and the 3rd group of grinding mechanism 33 are to the below of workpiece 7, emery wheel 35 position adjustments of second group of grinding mechanism 32 and the 4th group of grinding mechanism 34 are to the top of workpiece 7, before workpiece 7 arrives clamping station, grinding is carried out in two sides by the first side grinding mechanism 61 and 62 pairs of workpiece 7 of the second side grinding mechanism, workpiece arrives after clamping station, two sides of the first side grinding mechanism 61 and the second side grinding mechanism 62 clamping work pieces.Suppose that first group of grinding mechanism 31 first roughly grind workpiece lower surface, now, put upside down driving mechanism 42 and drive clamp cylinders 41 to be clamped in the upper surface of workpiece grinding position; Afterwards, 32 pairs of workpiece surfaces of second group of grinding mechanism are roughly ground, and now, put upside down the lower surface that driving mechanism 42 drives clamp cylinder 41 to turn upside down and is clamped in workpiece grinding position.After having roughly ground, oppositely clamping device 4 moves along workpiece direction of feed under driven unit drives, and when 33 pairs of workpiece lower surfaces of the 3rd group of grinding mechanism refine, puts upside down driving mechanism 42 and drives clamp cylinder 41 to be clamped in the upper surface of workpiece grinding position; Afterwards, 34 pairs of workpiece surfaces of the 4th group of grinding mechanism refine, and now, put upside down the lower surface that driving mechanism 42 drives clamp cylinder 41 to turn upside down and is clamped in workpiece grinding position.Like this, workpiece only needs just can at one in-process, complete required corase grind and fine grinding to its upper and lower surface after clamped one time, and need not divide at least twice clamping roughly grind respectively and refine, thus working (machining) efficiency not only improved, and can guarantee the forming machining precision of workpiece.

The foregoing is only preferred embodiment of the present utility model; it should be pointed out that for those of ordinary skills, do not departing under principle prerequisite of the present utility model; can carry out multiple remodeling or improvement to the utility model, within these are all regarded as protection domain of the present utility model.

Claims (10)

1. a double-faced forming grinding machine, comprise lathe base (1) and be arranged on the workpiece grinding workbench (2) on lathe base, on described workpiece grinding workbench (2), grinding mechanism is installed, it is characterized in that: described grinding mechanism has four groups and be arranged in order along workpiece direction of feed, and described grinding mechanism in working order under, emery wheel (35) position of four groups of grinding mechanisms (31,32,33,34) is alternately positioned at the upper and lower of described workpiece.

2. double-faced forming grinding machine according to claim 1, it is characterized in that: described four groups of grinding mechanisms (31,32,33,34) are arranged side by side the side in workpiece direction of feed, and the mutual horizontal parallel distribution of emery wheel rotary main shaft (36) axis of described each grinding mechanism perpendicular with workpiece direction of feed.

3. double-faced forming grinding machine according to claim 2, it is characterized in that: also include the reverse clamping device (4) that shares and be positioned at workpiece direction of feed opposite side for described four groups of grinding mechanisms (3), described reverse clamping device (4) running fix is in described workpiece direction of feed, and under workpiece grinding state, described reverse clamping device (4) withstands the reverse side of workpiece grinding skin.

4. double-faced forming grinding machine according to claim 3, it is characterized in that: described reverse clamping device (4) comprises clamp cylinder (41) that clamping work pieces is used and drives that this clamp cylinder (41) does to turn upside down at vertical direction puts upside down driving mechanism (42), at this, put upside down under driving mechanism (42) driving, described clamp cylinder (41) is clamped in upper surface or the lower surface of workpiece.

5. double-faced forming grinding machine according to claim 4, it is characterized in that: the described driving mechanism (42) of putting upside down comprises the mechanism body (421) with two semi arch commutation tracks, the commutation of putting upside down being arranged in mechanism body promotes slide rail (422), driving this to put upside down commutation promotes the driving cylinder (423) that the relative mechanism body of slide rail moves up and down and is arranged on the cylinder fixed cover (424) on described clamp cylinder, sidepiece at described cylinder fixed cover (424) is fixed with the guide of putting upside down commutation use, described guide comprises the first guide post (425), the second guide post (426) and sliding bar (427), described the first guide post (425) and the second guide post (426) are spacing on described two semi arch commutation tracks (428), described sliding bar (427) is slidably arranged in the described commutation of putting upside down and promotes on slide rail (422), and, the described driving mechanism (42) of putting upside down passes through a driven unit in workpiece direction of feed, vertically perpendicular to workpiece direction of feed and horizontal vertical, in these three directions of workpiece direction of feed, make integrated moving.

6. double-faced forming grinding machine according to claim 5, it is characterized in that: described driving cylinder (423) is arranged in described mechanism body (421), described mechanism body (421), putting upside down commutation promotes slide rail (422) and drives cylinder (423) to be positioned at the homonymy of described cylinder fixed cover (424), and described two semi arches commutate tracks at cylinder fixed cover and put upside down commutation and promote between slide rail, described guide is integrated part and is located at the side towards two semi arch commutation tracks (428) of cylinder fixed cover (424), first guide post (425) of described guide post and the second guide post (426) are slidably arranged in and put upside down commutation and promote on slide rail (422) through two semi arches commutation tracks and described sliding bar (427).

7. double-faced forming grinding machine according to claim 5, it is characterized in that: described pair of semi arch commutates track in the same center of circle and be divided into the first commutation track (428) and the second less commutation track (429) of radius that radius is larger, and, two end points of two end points of the first commutation track (428) and the second commutation track (429) are all positioned on same vertical curve, described put upside down commutation and promote slide rail (422) and be horizontally disposed with.

8. double-faced forming grinding machine according to claim 5, is characterized in that: described driven unit comprises

The first guide rail (51), level is located at described workpiece grinding workbench (2) above and is distributed along workpiece direction of feed;

The first take-up housing (52), is arranged on above-mentioned the first guide rail (51);

First regulates screw mandrel (53), matches and is incorporated in lower the first take-up housing (52) that drives of a drive motors driving in the upper horizontal slip of the first guide rail (51) with above-mentioned the first take-up housing (52);

The second guide rail (54), it is upper and perpendicular with workpiece direction of feed that level is located at described the first take-up housing (52);

The second take-up housing (55), is arranged on above-mentioned the second guide rail (54);

Second regulates screw mandrel (56), matches and is incorporated in lower the second take-up housing (55) that drives of a drive motors driving in the upper horizontal slip of the second guide rail (54) with above-mentioned the second take-up housing (55);

The 3rd guide rail (57), is vertically located at described the second take-up housing (55) upper, and described mechanism body (421) is arranged on the 3rd guide rail (57); And

The 3rd regulates screw mandrel (58), matches and is incorporated in a drive motors and drives lower lead agency body (421) to slide up and down on above-mentioned the 3rd guide rail (57) with described mechanism body (421).

9. double-faced forming grinding machine according to claim 4, is characterized in that: the rubber roll (411) that clamping work pieces is used is installed in the piston rod end of described clamp cylinder (41).

10. according to the double-faced forming grinding machine described in arbitrary claim in claim 1 to 9, it is characterized in that: on described workpiece grinding workbench (2), be also provided with on workpiece is done, before lower surface grinding, can to side surface of workpiece, carry out in advance the first side grinding mechanism (61) and the second side grinding mechanism (62) of grinding, described the first side grinding mechanism (61) and the second side grinding mechanism (62) lay respectively at the both sides of workpiece direction of feed, and, on workpiece is done, under lower surface grinding state, the side grinding emery wheel (63) of the side grinding emery wheel (63) of described the first side grinding mechanism (61) and the second side grinding mechanism (62) is clamped in respectively the corresponding side surface of workpiece.