CN220372930U - Vertical mill structure special for milling grooves on two sides of clamping jaw - Google Patents

Abstract

The utility model relates to a vertical mill structure for specially milling grooves on two sides of a claw. The grinding machine comprises a grinding machine body, an electromagnetic chuck for placing a workpiece, a Z-axis feeding device for driving the electromagnetic chuck to move, a grinding device for grinding the workpiece, a Y-axis feeding device for driving the grinding device to lift and fall, and an X-axis feeding device for driving the Y-axis feeding device to slide; the electromagnetic chuck is arranged on the Z-axis feeding device; the grinding device is arranged on the Y-axis feeding device; the Y-axis feeding device is arranged on the X-axis feeding device; the Z-axis feeding device and the X-axis feeding device are both arranged on the grinder body. The vertical grinding machine solves the problems that the vertical grinding machine in the prior art can only grind middle and large workpieces and cannot grind small workpieces due to huge volume. For some special-shaped workpieces with smaller volumes, the horizontal grinding machine cannot clamp and grind, and cannot meet the technical problem of the machining process.

Description

Vertical mill structure special for milling grooves on two sides of clamping jaw

Technical Field

The utility model relates to the field of vertical grinding machines, in particular to a vertical grinding structure special for grinding groove patterns on two sides of a clamping jaw.

Background

With the slow popularization of the numerical control vertical grinding machine, the processed parts are diversified. The advantages of numerically controlled vertical grinders are being amplified gradually from the initial grinding concentricity (the inner and outer centerlines of the workpiece coincide) to the current grinding eccentricity (the inner and outer centerlines of the workpiece do not coincide, there is an eccentricity).

The traditional vertical grinding machine can only grind medium and large workpieces and cannot grind small workpieces due to the huge volume. For some special-shaped workpieces with smaller volumes, the horizontal grinding machine cannot clamp and grind, and cannot meet the processing technology (the processing technology of the special-shaped workpieces is special, and only the groove shapes on two sides of the workpiece can be ground after the workpiece is placed flat), so that a small vertical grinding structure is urgently needed.

Disclosure of Invention

According to the vertical grinding structure special for grinding the groove shapes at the two sides of the clamping jaw, the problem that the vertical grinding machine in the prior art scheme can only grind middle and large workpieces and cannot grind small workpieces due to the fact that the size of the vertical grinding machine is huge is solved. For some special-shaped workpieces with smaller volumes, the horizontal grinding machine cannot clamp and grind, and cannot meet the technical problem of the machining process.

The technical scheme adopted by the embodiment of the application is as follows:

a vertical mill structure for specially grinding grooves on two sides of a claw comprises a grinding machine body, an electromagnetic chuck for placing a workpiece, a Z-axis feeding device for driving the electromagnetic chuck to move, a grinding device for grinding the workpiece, a Y-axis feeding device for driving the grinding device to lift and fall and an X-axis feeding device for driving the Y-axis feeding device to slide; the electromagnetic chuck is arranged on the Z-axis feeding device; the grinding device is arranged on the Y-axis feeding device; the Y-axis feeding device is arranged on the X-axis feeding device; the Z-axis feeding device and the X-axis feeding device are both arranged on the grinding machine body.

The further technical scheme is as follows: the Z-axis feeding device comprises a Z-axis workbench, a Z-axis limiting sliding rail for limiting the Z-axis workbench and a first driving device for driving the Z-axis workbench to slide; the electromagnetic chuck is arranged on the Z-axis workbench; the Z-axis workbench slides on the Z-axis limiting slide rail; the first driving device is arranged on the grinding machine body; the driving end of the first driving device is in transmission connection with a screw rod, and the Z-axis workbench is in threaded connection with the screw rod.

The further technical scheme is as follows: the grinding device comprises a grinding head seat, a grinding head mounting base arranged on the Y-axis feeding device, a grinding wheel rod for supporting a grinding wheel and a trimmer for trimming the grinding wheel; two groups of symmetrically placed grinding head seats are arranged on the grinding head mounting base; each group of grinding head seat is connected with the grinding wheel rod; the trimmer is arranged on the Z-axis workbench.

The further technical scheme is as follows: the Y-axis feeding device comprises a Y-axis sliding plate, a Y-axis mounting seat for limiting the Y-axis sliding plate and a second driving device for driving the Y-axis sliding plate to lift; the grinding head mounting base is arranged on the Y-axis sliding plate; the Y-axis sliding plate slides on the Y-axis mounting seat; the second driving device is arranged on the Y-axis mounting seat; the driving end of the second driving device is in transmission connection with a screw rod, and the Y-axis sliding plate is in threaded connection with the screw rod.

The further technical scheme is as follows: the X-axis feeding device comprises an X-axis sliding plate, an X-axis installation base arranged on the grinding machine body and a third driving device for driving the X-axis sliding plate to slide; the Y-axis mounting seat is arranged on the X-axis sliding plate; the X-axis sliding plate slides on the X-axis mounting base; the third driving device is arranged on the X-axis installation base; the driving end of the third driving device is in transmission connection with a screw rod, and the X-axis sliding plate is in threaded connection with the screw rod.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

1. because the grinding machine body, the electromagnetic chuck, the Z-axis feeding device, the grinding device, the Y-axis feeding device and the X-axis feeding device are adopted, and the electromagnetic chuck can enable a workpiece to be fixedly arranged on the electromagnetic chuck through demagnetizing, the workpiece can be placed at any position on the electromagnetic chuck, and meanwhile, workpieces with different shapes can be placed on the electromagnetic chuck, so that the processing technology is enriched to a certain extent. The Z-axis feeding device works to drive the electromagnetic chuck to slide left and right, so that the workpiece can be driven to move to a proper position. The Y-axis feeding device works to drive the grinding device to slide up and down, so that the grinding device can be moved to the position with the same height as the workpiece, and at the moment, the X-axis feeding device drives the Y-axis feeding device to slide back and forth, so that the workpiece mounted on the electromagnetic chuck can be ground. The whole operation process is simple and reliable, and is further convenient for operators to operate, and meanwhile, compared with the traditional vertical mill, the shafting action is added, and further, complex special-shaped workpiece processing can be performed.

2. Because the Z-axis workbench, the Z-axis limiting slide rail and the first driving device are adopted, the first driving device can drive the Z-axis workbench to slide left and right on the Z-axis limiting slide rail, so that the electromagnetic chuck can be driven to slide left and right, and a workpiece mounted on the electromagnetic chuck can be moved to a proper position.

3. Because the setting of mill head seat, bistrique installation base and grinding wheel pole has been adopted, because two sets of bistrique seats all adopt the dovetailed hanging on the bistrique installation base, therefore the staff can adjust the interval between two sets of bistrique seats according to different work pieces, and then adjusts the interval between two sets of grinding wheel poles. In the adjusting process, the distance between the two groups of grinding wheel rods is adjusted, and the two groups of grinding head bases slide in the horizontal direction on the grinding head mounting base at the same time, so that the accuracy between the two groups of grinding wheel rods is not changed, and the grinding accuracy of the grinding wheel on a workpiece can be ensured. Through the setting of trimmer, appear passivation phenomenon after the emery wheel on the emery wheel pole carries out the grinding for a long time to the work piece, through Y axle feeding device and X axle feeding device work this moment, adjust the position of emery wheel pole for emery wheel on the emery wheel pole supports and leans on the buddha's warrior attendant pen of trimmer, can carry out the repairment to the emery wheel.

4. Because the Y-axis sliding plate, the Y-axis mounting seat and the second driving device are arranged, the second driving device works to drive the Y-axis sliding plate to slide up and down on the Y-axis mounting seat, and then the grinding head mounting base can be driven to lift and adjust, so that the height of the grinding wheel rod and the height adaptation of a workpiece can be conveniently adjusted by a worker.

5. Because the X-axis sliding plate, the X-axis installation base and the third driving device are arranged, the driving end of the third driving device works to drive the X-axis sliding plate to slide back and forth on the X-axis installation base, so that the Y-axis installation base can be driven to slide back and forth, and further, the grinding wheel rod in the grinding device can perform effective grinding operation on a workpiece.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a vertical mill structure for specially grinding grooves on two sides of a claw in the embodiment of the utility model.

Fig. 2 is a schematic view of a part of a structure for embodying the X-axis feeding device in the embodiment of the present utility model.

In the figure: 1. a grinding machine body; 2. an electromagnetic chuck; 3. a Z-axis feeding device; 31. a Z-axis workbench; 32. z-axis limiting slide rail; 33. a first driving device; 4. a grinding device; 41. a grinding head seat; 42. a grinding head mounting base; 43. a grinding wheel rod; 44. a trimmer; 5. a Y-axis feeding device; 51. a Y-axis sliding plate; 52. a Y-axis mounting seat; 53. a second driving device; 6. an X-axis feeding device; 61. an X-axis sliding plate; 62. an X-axis mounting base; 63. and a third driving device.

Detailed Description

According to the vertical grinding structure special for grinding the groove shapes at the two sides of the clamping jaw, the problem that the vertical grinding machine in the prior art scheme can only grind middle and large workpieces and cannot grind small workpieces due to the fact that the size of the vertical grinding machine is huge is solved. For some special-shaped workpieces with smaller volumes, the horizontal grinding machine cannot clamp and grind, and cannot meet the technical problem of the machining process.

The technical scheme in the embodiment of the application aims to solve the problems, and the overall thought is as follows:

in order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

The utility model provides a special vertical mill structure of grinding jack catch both sides groove, as shown in fig. 1, includes grinding machine body 1, is used for placing the electromagnetic chuck 2 of work piece, is used for driving the Z axle feeding device 3 that electromagnetic chuck 2 removed, is used for grinding device 4 of work piece, is used for driving the Y axle feeding device 5 that grinding device 4 risees and is used for driving the X axle feeding device 6 that Y axle feeding device 5 slided. The electromagnetic chuck 2 is arranged on the Z-axis feeding device 3. The grinding device 4 is provided on the Y-axis feeding device 5. The Y-axis feeding device 5 is provided on the X-axis feeding device 6. The Z-axis feeding device 3 and the X-axis feeding device 6 are both provided on the grinder body 1.

When the electromagnetic chuck 2 is in an electrified state, the electromagnetic chuck 2 generates magnetic force, and at the moment, a workpiece can be fixedly arranged on the electromagnetic chuck 2 through the magnetic force effect generated by the electromagnetic chuck 2. When the electromagnetic chuck 2 is in the power-off state, the magnetic force on the electromagnetic chuck 2 disappears, and at the moment, a worker can take off the workpiece from the electromagnetic chuck 2. The Z-axis feeding device 3 and the X-axis feeding device 6 are fixedly arranged at the top of the grinder body 1. The Z-axis feeding device 3 is located right in front of the X-axis feeding device 6. The electromagnetic chuck 2 is fixedly arranged at the top of the Z-axis feeding device 3, and the Z-axis feeding device 3 works to drive the electromagnetic chuck 2 to slide left and right. The grinding device 4 is fixedly arranged at the front side of the Y-axis feeding device 5. The Y-axis feeding device 5 is operable to drive the grinding device 4 to slide up and down. The Y-axis feeding device 5 is fixedly arranged on the top of the X-axis feeding device 6. The X-axis feeding device 6 can drive the Y-axis feeding device 5 to slide back and forth, and further can drive the grinding device 4 to slide back and forth.

Through the setting of grinding machine body 1, electromagnet 2, Z axle feeding device 3, grinding device 4, Y axle feeding device 5 and X axle feeding device 6, because electromagnet 2 can make work piece fixed mounting at electromagnet 2 through demagnetizing upper magnetic energy, consequently can make the work piece place the optional position on electromagnet 2, can make simultaneously place the work piece of different shapes on the electromagnet 2, consequently the processing technology has been enriched to a certain extent. The Z-axis feeding device 3 can drive the electromagnetic chuck 2 to slide left and right, so that the workpiece can be driven to move to a proper position. Since the Y-axis feeding device 5 is operated to drive the grinding device 4 to slide up and down, the grinding device 4 can be moved to a position at the same height as the workpiece, and at this time, the X-axis feeding device 6 drives the Y-axis feeding device 5 to slide back and forth, so that the workpiece mounted on the electromagnetic chuck 2 can be ground. The whole operation process is simple and reliable, and is further convenient for operators to operate, and meanwhile, compared with the traditional vertical mill, the shafting action is added, and further, complex special-shaped workpiece processing can be performed.

As shown in fig. 1, the Z-axis feeding device 3 includes a Z-axis table 31, a Z-axis limit slide rail 32 for limiting the Z-axis table 31, and a first driving device 33 for driving the Z-axis table 31 to slide. The electromagnetic chuck 2 is provided on the Z-axis table 31. The Z-axis table 31 slides on the Z-axis limit slide rail 32. The first driving device 33 is provided on the grinder body 1. The driving end of the first driving device 33 is in transmission connection with a screw rod, and the Z-axis workbench 31 is in threaded connection with the screw rod.

The electromagnetic chuck 2 is fixedly connected to the top of the Z-axis worktable 31. The Z-axis limiting slide rail 32 is fixedly connected to the top of the grinding machine body 1. The Z-axis worktable 31 is slidably connected to the top of the Z-axis limiting slide rail 32. The first driving device 33 is fixedly installed at the right end of the grinder body 1. The first drive means 33 is preferably an electric motor. Because the driving end of the first driving device 33 is in transmission connection with the screw rod, the screw rod can be driven to rotate by the driving end of the first driving device 33. Because Z axle workstation 31 threaded connection is on the lead screw, consequently the lead screw rotates and can drive Z axle workstation 31 and slide about Z axle spacing slide rail 32, and then can drive electromagnet 2 and slide about.

Through the setting of Z axle workstation 31, Z axle spacing slide rail 32 and first drive arrangement 33, because first drive arrangement 33 work can drive Z axle workstation 31 and slide about Z axle spacing slide rail 32, consequently can drive electromagnet 2 and slide about the direction, and then can make the work piece of installing on electromagnet 2 remove suitable position.

As shown in fig. 1 and 2, the grinding device 4 includes a grinding head mount 41, a grinding head mounting base 42 provided on the Y-axis feeding device 5, a grinding wheel bar 43 for supporting a grinding wheel, and a dresser 44 for dressing the grinding wheel. Two groups of grinding head seats 41 which are symmetrically arranged are arranged on the grinding head mounting base 42. Each set of grinding head bases 41 is connected with a grinding wheel rod 43. Trimmer 44 is provided on Z-axis table 31.

The grinding head mounting base 42 is fixedly mounted on the front side of the Y-axis feeding device 5. The two groups of grinding head bases 41 are hung on the front side of the grinding head mounting base 42 by adopting a dovetail shape, and meanwhile, the two groups of grinding head bases 41 are fixedly mounted on the front side of the grinding head mounting base 42 by bolts. The grinding wheel rods 43 are fixedly connected to the two groups of grinding wheel bases 41. Each set of grinding wheel bars 43 has a grinding wheel mounted thereon. The trimmer 44 is fixedly connected to the top of the Z-axis table 31 while the trimmer 44 is located at the rear side of the electromagnetic chuck 2. The Y-axis feeding device 5 works to drive the two groups of grinding wheel rods 43 to move up and down at the same time, so that the two groups of grinding wheel rods 43 can move to the same height as the workpiece and abut against two sides of the workpiece, and at the moment, the X-axis feeding device 6 works to drive the two groups of grinding wheel rods 43 to move back and forth at the same time, so that grinding wheels on the two groups of grinding wheel rods 43 grind the workpiece.

Through setting up of grinding head seat 41, grinding head installation base 42 and grinding wheel pole 43, because two sets of grinding head seat 41 all adopt the dovetailed to hang on grinding head installation base 42, therefore the staff can adjust the interval between two sets of grinding head seat 41 according to different work pieces, and then adjusts the interval between two sets of grinding wheel poles 43. In the adjusting process, the distance between the two groups of grinding wheel rods 43 is adjusted, and the two groups of grinding wheel bases 41 slide on the grinding wheel mounting base 42 in the horizontal direction at the same time, so that the accuracy between the two groups of grinding wheel rods 43 is not changed, and the grinding accuracy of the grinding wheel on a workpiece can be ensured. Through the setting of trimmer 44, appear passivation phenomenon after the emery wheel on emery wheel pole 43 carries out the grinding for a long time to the work piece, through Y axle feeding device 5 and X axle feeding device 6 work this moment, adjust the position of emery wheel pole 43 for the emery wheel on the emery wheel pole 43 supports on the buddha's warrior attendant pen of trimmer 44, can carry out the repairment to the emery wheel.

As shown in fig. 1, the Y-axis feeding device 5 includes a Y-axis slide plate 51, a Y-axis mount 52 for limiting the Y-axis slide plate 51, and a second driving device 53 for driving the Y-axis slide plate 51 to rise and fall. The grinding head mounting base 42 is provided on the Y-axis slide plate 51. The Y-axis slide plate 51 slides on the Y-axis mount 52. The second driving device 53 is provided on the Y-axis mount 52. The driving end of the second driving device 53 is in transmission connection with a screw rod, and the Y-axis sliding plate 51 is in threaded connection with the screw rod.

The grinding head mounting base 42 is fixedly mounted on the front side of the Y-axis sliding plate 51. The Y-axis mount 52 is vertically fixedly connected to the X-axis feeding device 6. The Y-axis sliding plate 51 is vertically slidably connected to the front side of the Y-axis mount 52 while being held on the Y-axis mount 52. The second drive means 53 is preferably an electric motor. The second driving device 53 is fixedly installed on the top of the Y-axis mount 52. Because the driving end of the second driving device 53 is in transmission connection with the screw rod, the screw rod can be driven to rotate by rotating the driving end of the second driving device 53. Since the Y-axis sliding plate 51 is screwed on the screw, the screw rotates to enable the Y-axis sliding plate 51 to slide up and down along the front side of the Y-axis mount 52.

Through the setting of Y axle slide 51, Y axle mount pad 52 and second drive arrangement 53, because second drive arrangement 53 work can drive Y axle slide 51 and slide from top to bottom on Y axle mount pad 52, and then can drive bistrique mount pad 42 and go up and down to adjust, consequently can be convenient for the staff adjust the high adaptation of grinding wheel pole 43 and work piece.

As shown in fig. 2, the X-axis feeding device 6 includes an X-axis slide plate 61, an X-axis mounting base 62 provided on the grinder body 1, and a third driving device 63 for driving the X-axis slide plate 61 to slide. The Y-axis mount 52 is provided on the X-axis slide 61. The X-axis slide 61 slides on the X-axis mounting base 62. The third driving device 63 is provided on the X-axis mounting base 62. The driving end of the third driving device 63 is in transmission connection with a screw rod, and the X-axis sliding plate 61 is in threaded connection with the screw rod.

The Y-axis mount 52 is fixedly attached to the X-axis slide 61. The X-axis mounting base 62 is fixedly connected to the top of the grinder body 1. The X-axis slide 61 is slidably coupled to the top of the X-axis mounting base 62. The third drive means 63 is preferably an electric motor. The third driving device 63 is fixedly connected to the rear end of the X-axis mounting base 62. Because the driving end of the third driving device 63 is in transmission connection with the screw rod, the screw rod can be driven to rotate by the rotation of the driving end of the third driving device 63. Because the X-axis sliding plate 61 is screwed on the screw rod, the screw rod can rotate to drive the X-axis sliding plate 61 to slide back and forth on the X-axis mounting base 62.

Through the arrangement of the X-axis sliding plate 61, the X-axis mounting base 62 and the third driving device 63, the driving end of the third driving device 63 works to drive the X-axis sliding plate 61 to slide back and forth on the X-axis mounting base 62, so that the Y-axis mounting base 52 can be driven to slide back and forth, and the grinding wheel rod 43 in the grinding device 4 can be enabled to perform effective grinding operation on a workpiece.

While preferred embodiments of the present utility model have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. The vertical mill structure is characterized by comprising a grinding machine body (1), an electromagnetic chuck (2) for placing a workpiece, a Z-axis feeding device (3) for driving the electromagnetic chuck (2) to move, a grinding device (4) for grinding the workpiece, a Y-axis feeding device (5) for driving the grinding device (4) to lift and fall and an X-axis feeding device (6) for driving the Y-axis feeding device (5) to slide; the electromagnetic chuck (2) is arranged on the Z-axis feeding device (3); the grinding device (4) is arranged on the Y-axis feeding device (5); the Y-axis feeding device (5) is arranged on the X-axis feeding device (6); the Z-axis feeding device (3) and the X-axis feeding device (6) are arranged on the grinding machine body (1).

2. A special vertical mill structure for milling grooves on two sides of a claw according to claim 1, wherein the Z-axis feeding device (3) comprises a Z-axis worktable (31), a Z-axis limiting slide rail (32) for limiting the Z-axis worktable (31), and a first driving device (33) for driving the Z-axis worktable (31) to slide; the electromagnetic chuck (2) is arranged on the Z-axis workbench (31); the Z-axis workbench (31) slides on the Z-axis limiting slide rail (32); the first driving device (33) is arranged on the grinding machine body (1); the driving end of the first driving device (33) is in transmission connection with a screw rod, and the Z-axis workbench (31) is in threaded connection with the screw rod.

3. A vertical grinding structure of a groove type on both sides of a special grinding claw according to claim 2, characterized in that the grinding device (4) comprises a grinding head base (41), a grinding head mounting base (42) arranged on the Y-axis feeding device (5), a grinding wheel rod (43) for supporting a grinding wheel, and a dresser (44) for dressing the grinding wheel; two groups of grinding head seats (41) which are symmetrically arranged are arranged on the grinding head mounting base (42); each group of grinding head seat (41) is connected with the grinding wheel rod (43); the trimmer (44) is disposed on the Z-axis table (31).

4. A vertical mill structure specially for milling grooves on both sides of a claw according to claim 3, wherein the Y-axis feeding device (5) comprises a Y-axis sliding plate (51), a Y-axis mounting seat (52) for limiting the Y-axis sliding plate (51), and a second driving device (53) for driving the Y-axis sliding plate (51) to lift; the grinding head mounting base (42) is arranged on the Y-axis sliding plate (51); the Y-axis sliding plate (51) slides on the Y-axis mounting seat (52); the second driving device (53) is arranged on the Y-axis mounting seat (52); the driving end of the second driving device (53) is in transmission connection with a screw rod, and the Y-axis sliding plate (51) is in threaded connection with the screw rod.

5. A vertical mill structure of the groove type on both sides of a special milling jaw according to claim 4, characterized in that the X-axis feeding device (6) comprises an X-axis slide plate (61), an X-axis mounting base (62) arranged on the grinding machine body (1), and a third driving device (63) for driving the X-axis slide plate (61) to slide; the Y-axis mounting seat (52) is arranged on the X-axis sliding plate (61); the X-axis sliding plate (61) slides on the X-axis mounting base (62); the third driving device (63) is arranged on the X-axis installation base (62); the driving end of the third driving device (63) is in transmission connection with a screw rod, and the X-axis sliding plate (61) is in threaded connection with the screw rod.