CN108637731B

CN108637731B - Machining tool for inclined surface of saddle of machine tool

Info

Publication number: CN108637731B
Application number: CN201810634348.4A
Authority: CN
Inventors: 贺哲斌; 汪斌辉; 汪叶军; 李皓俊
Original assignee: Ningbo Haitian Precision Machinery Co Ltd
Current assignee: Ningbo Haitian Precision Machinery Co Ltd
Priority date: 2018-06-20
Filing date: 2018-06-20
Publication date: 2023-12-01
Anticipated expiration: 2038-06-20
Also published as: CN108637731A

Abstract

The invention discloses a tool for machining a slope surface of a saddle of a machine tool, which comprises a fixed plate, a movable plate, a plurality of first compression units, a plurality of equal-height modules with different heights and a locking mechanism, wherein the movable plate is rotationally connected to the fixed plate, the equal-height modules are arranged on the movable plate, the equal-height modules are used for supporting the saddle of the machine tool with different step differences, the first compression units are used for compressing the saddle of the machine tool, and the locking mechanism is used for locking and fixing the movable plate on the fixed plate or unlocking the movable plate. The machining tool for the inclined surface of the saddle of the machine tool is an integral machining tool, can greatly simplify the fine machining and clamping process of the saddle, realize manual adjustment of the angle of the saddle, reduce the machining time required by the inclined surface of the saddle, improve the machining efficiency of the saddle, effectively ensure stable clamping of the saddle in the process of adjusting the angle of the saddle, ensure that the clamping position of the saddle is firm in the machining process, avoid position deviation phenomenon, and effectively improve the machining precision.

Description

Machining tool for inclined surface of saddle of machine tool

Technical Field

The invention relates to a tool for machining parts, in particular to a tool for machining a saddle inclined surface of a machine tool.

Background

The saddle is an important part in a machine tool, and the machining quality of the saddle is directly related to the assembly precision of the whole machine tool. For example, the gantry machining center has a plurality of production models, and the number of the saddles used in the assembly process is large, the types of saddles are miscellaneous, the precision is high, and the severe requirements are put forward for machine tool manufacturers.

Fig. 1 and 2 are external views of two common machine tool carriages. Because of the special structure of the saddle, no processing tool aiming at the saddle inclination surface exists in the prior art. When two inclined surfaces are machined, the traditional clamping mode is manual clamping, an operator pads the step difference A (shown in fig. 3) by overlapping the equal-height blocks, the posture of the operator is adjusted by knocking the saddle, and machining of the inclined surfaces of the 2 saddles is completed based on corresponding machining references (shown in fig. 4). In the knocking process, the clamping position of the saddle is easy to change, so that the machining precision is not in accordance with the requirement, and the operation process is complex, time and labor are wasted, and the mass production is not facilitated.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: aiming at the defects of the prior art, the machining tool for the inclined surface of the saddle of the machine tool is provided, the machining tool is an integral machining tool, manual adjustment of the angle of the saddle can be realized, the required machining time of the inclined surface of the saddle can be reduced, the machining efficiency of the saddle is improved, the clamping stability of the saddle can be effectively ensured in the process of adjusting the angle of the saddle, and the machining precision of the saddle is ensured.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a lathe saddle inclination face processing frock, includes fixed plate, fly leaf, a plurality of first compression unit, a plurality of equal altitude module and locking mechanical system of highly inequality, the fly leaf rotate and connect the fixed plate on, a plurality of equal altitude module install the fly leaf on, a plurality of equal altitude module be used for supporting the lathe saddle that has different step differences, a plurality of first compression unit be used for compressing tightly the lathe saddle, locking mechanical system be used for with the fly leaf locking fix the fixed plate on or release the locking of fly leaf.

The tool for machining the inclined surface of the saddle of the machine tool can clamp the saddle of the machine tool with different step differences, greatly simplify the fine machining clamping procedure of the saddle, realize manual adjustment of the angle of the saddle, reduce the required machining time of the inclined surface of the saddle, ensure the machining precision of the saddle and effectively improve the machining efficiency of the saddle. When the clamping device is used, the fixed plate is arranged on the workbench of the machining center, the movable plate is fixed on the fixed plate through the locking mechanism, the corresponding equal-height module is selected according to the actual step difference of the saddle of the machine tool to be machined, one end of the saddle, which contains the inclined surface to be machined, is upwards placed on the movable plate, the selected equal-height module supports one side of the saddle, which is provided with the step difference, the saddle is tightly pressed through the plurality of first pressing units, the saddle can be firmly clamped on the movable plate, and the movable plate is fixedly locked through the locking mechanism, so that the clamping of the saddle is completed. After clamping, the machining surfaces of the saddle except for the inclined surface can be machined, after machining is finished, the locking mechanism is used for unlocking the movable plate, the angle of the movable plate is adjusted through front and back rotation, and the angle of the saddle is correspondingly adjusted, so that the inclined surface of the saddle is adjusted and ensured to be consistent with the feeding direction of the cutter, and after the movable plate is fixed through the locking mechanism, the inclined surface can be machined. In the processing process, the clamping position of the saddle is firm, the position deviation phenomenon can not be generated, and the processing precision is effectively improved.

Preferably, each first pressing unit comprises a first pressing block, a first supporting column, a first screw rod and a first nut, wherein the first screw rod and the first nut are matched, the first supporting column is movably placed on the movable plate or the contour module, a first waist-shaped hole is formed in the first pressing block, the first screw rod penetrates through the first waist-shaped hole to be abutted against the movable plate or the contour module, when the movable plate or the contour module is used, one end of the first pressing block is placed on the first supporting column, the other end of the first pressing block is placed on the machine tool saddle, and the first pressing block is pressed by tightening the first nut, namely, the machine tool saddle is pressed and fixed. The first compression unit is simple in structure, flexible and convenient to use, the compression position of the saddle can be flexibly determined according to the needs, and the first compression unit is convenient to disassemble and assemble, and does not influence the structure of a processing tool or a machine tool workbench.

Further, a transition plate is fixed on the movable plate, the plurality of contour modules are installed on the transition plate, and the first support column is movably placed on the transition plate or the contour modules. The transition plate is arranged, so that the modular design of the processing tool is facilitated, the transition plate can also play a role in raising, and the height of the high module can be corrected and adjusted in time in the assembly process.

Preferably, two limiting blocks are installed on the fixed plate, and the two limiting blocks are respectively located on the front side and the rear side of the movable plate. The two limiting blocks play a limiting role on the rotation of the movable plate, prevent the movable plate from rotating excessively and ensure the correct rotation angle.

Preferably, the locking mechanism comprises a knock pin mechanism, a movable pin assembly and a positioning pin assembly, the positioning pin assembly comprises a first mounting block and a positioning pin, the first mounting block is fixed on one side of the movable plate, a first pin sleeve is mounted on the first mounting block, the positioning pin is mounted in the first pin sleeve, the lower end of the positioning pin extends into the fixed plate, the movable pin assembly comprises a second mounting block, a movable pin and a pin rod, the second mounting block is fixed on the other side of the movable plate, a second pin sleeve is mounted on the second mounting block, the movable pin is mounted in the second pin sleeve, the lower end of the movable pin extends into the fixed plate, the lower part of the pin rod is inserted into the movable pin and is in threaded connection with the movable pin, the knock pin mechanism comprises two knock pin units arranged on the front side and the rear side of the second mounting block, each knock pin unit comprises a third mounting block and a third knock pin which are opposite to each other and is in threaded connection with the third mounting block. When the sliding saddle is used, the pin rod and the movable pin are pulled out, namely, the locking of the movable plate is released, the ejector pins on the two ejector pin units are adjusted in a rotating mode, the manual adjustment of the angles of the movable plate and the sliding saddle can be rapidly achieved, and after the angles of the movable plate and the sliding saddle are adjusted in place, the movable pin and the pin rod are assembled again, and therefore the inclined surface of the sliding saddle can be processed.

Further, the locking mechanism also comprises a plurality of second pressing units, each second pressing unit comprises a second pressing block, a second supporting column, a second screw rod and a second nut, the second screw rods and the second nuts are matched with each other, the second supporting columns are movably placed on the fixed plate, second waist-shaped holes are formed in the second pressing blocks, the second screw rods penetrate through the second waist-shaped holes to prop against the fixed plate, when the locking mechanism is used, one end of each second pressing block is placed on the corresponding second supporting column, the other end of each second pressing block is placed on the corresponding movable plate, and the second pressing blocks are pressed through tightening the second nuts, namely the movable plate is fixed in a pressing mode.

Further, a plurality of concave holes are formed in the side wall of the movable plate, and when the movable plate is used, the other end of the second pressing block is inserted into the concave holes. The shrinkage pool set up, the positioning accuracy to the second briquetting of being convenient for.

Preferably, a fourth mounting block is fixed on the fixing plate, the fourth mounting block is close to the second mounting block, a wrench is connected to the fourth mounting block in a rotating mode, and the wrench is used for pulling out the pin rod and the movable pin together. The wrench is arranged on the fixed plate, so that the wrench is convenient to store and use.

Compared with the prior art, the invention has the advantages that: the machining tool for the inclined surface of the saddle of the machine tool is an integral machining tool, can greatly simplify the fine machining and clamping process of the saddle, realize manual adjustment of the angle of the saddle, reduce the machining time required by the inclined surface of the saddle, improve the machining efficiency of the saddle, effectively ensure stable clamping of the saddle in the process of adjusting the angle of the saddle, ensure that the clamping position of the saddle is firm in the machining process, avoid position deviation phenomenon, and effectively improve the machining precision.

Drawings

FIG. 1 is an external view of a conventional machine tool saddle;

FIG. 2 is an external view of another conventional machine tool saddle;

FIG. 3 is a schematic view of a step A of the saddle shown in FIG. 2;

FIG. 4 is a schematic view of two sloped surfaces of the saddle shown in FIG. 2;

FIG. 5 is a schematic view of the appearance of a tool for machining the inclined surface of a saddle of a machine tool according to the embodiment;

FIG. 6 is an enlarged view of FIG. 5 at B;

FIG. 7 is a schematic view showing the effect of clamping a saddle of a machine tool according to the embodiment;

FIG. 8 is a schematic longitudinal section corresponding to FIG. 7;

FIG. 9 is an enlarged view of FIG. 8 at C;

FIG. 10 is a top view showing the effect of clamping a saddle of a machine tool according to the embodiment;

FIG. 11a is a schematic illustration of the position of two sloped surfaces after clamping of the tool saddle;

fig. 11b, 11c are schematic illustrations of the position of two inclined planes at different angles.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

The tool for machining a slope surface of a saddle of a machine tool according to embodiment 1 includes, as shown in the figure, a fixed plate 1, a movable plate 2, a plurality of first pressing units, two equal-height modules 4 with different heights, and a locking mechanism, wherein the movable plate 2 is rotatably connected to the fixed plate 1, the two equal-height modules 4 are mounted on the movable plate 2, the two equal-height modules 4 are used for supporting the saddle of the machine tool with different step differences, the plurality of first pressing units are used for pressing the saddle of the machine tool, and the locking mechanism is used for locking and fixing the movable plate 2 on the fixed plate 1 or unlocking the movable plate 2.

In embodiment 1, each first pressing unit comprises a first pressing block 21, a first supporting column 22, a first screw rod 23 and a first nut 24, wherein the first screw rod 23 and the first nut 24 are matched with each other, a first waist-shaped hole 25 is formed in the first pressing block 21, and when the machine tool saddle 3 is used, one end of the first pressing block 21 is placed on the first supporting column 22, the other end of the first pressing block 21 is placed on the machine tool saddle 3, and the first pressing block 21, namely the machine tool saddle 3, is pressed and fixed by tightening the first nut 24.

In embodiment 1, a transition plate 20 is fixed on a movable plate 2, two equal-height modules 4 are mounted on the transition plate 20, a first support column 22 is movably placed on the transition plate 20 or the equal-height modules 4, and a first screw 23 passes through a first waist-shaped hole 25 to be abutted against the transition plate 20 or the equal-height modules 4; two limiting blocks 11 are arranged on the fixed plate 1, and the two limiting blocks 11 are respectively positioned on the front side and the rear side of the movable plate 2.

In embodiment 1, the lock mechanism includes a knock pin mechanism, a movable pin 62 assembly and a positioning pin assembly, the positioning pin assembly includes a first mounting block 51 and a positioning pin 52, the first mounting block 51 is fixed at one side of the movable plate 2, a first pin bush 53 is mounted on the first mounting block 51, the positioning pin 52 is mounted in the first pin bush 53, the lower end of the positioning pin 52 extends into the fixed plate 1, the movable pin 62 assembly includes a second mounting block 61, a movable pin 62 and a pin rod 63, the second mounting block 61 is fixed at the other side of the movable plate 2, a second pin bush 64 is mounted on the second mounting block 61, the movable pin 62 is mounted in the second pin bush 64, the lower end of the movable pin 62 extends into the fixed plate 1, the lower portion of the pin rod 63 is inserted into the movable pin 62, the knock pin mechanism includes two knock pin units provided at the front and rear sides of the second mounting block 61, each knock pin unit includes a third mounting block 65 and a knock pin 66, the third mounting block 65 is fixed on the fixed plate 1, and the knock pin 66 is connected to the third mounting block 65 and the third mounting block 65 is opposite to the second mounting block 61.

The machining tool for the inclined surface of the saddle of the machine tool of embodiment 2 is basically the same as that of embodiment 1, and is different in that in embodiment 2, the locking mechanism further comprises four second pressing units, each second pressing unit comprises a second pressing block 71, a second supporting column 72, a second screw 73 and a second nut 74, the second screw 73 and the second nut 74 are matched, the second supporting column 72 is movably arranged on the fixed plate 1, a second waist-shaped hole 75 is formed in the second pressing block 71, the second screw 73 penetrates through the second waist-shaped hole 75 to abut against the fixed plate 1, four concave holes 26 are formed in the side wall of the movable plate 2, one end of the second pressing block 71 is placed on the second supporting column 72 when in use, and the other end of the second pressing block 71 is inserted into the concave holes 26 to press the second pressing block 71, namely, the movable plate 2 is pressed and fixed by screwing the second nut 74.

The machine tool saddle slope surface machining tool of embodiment 3 is basically the same as that of embodiment 2, except that in embodiment 3, a fourth mounting block 12 is fixed on the fixing plate 1, the fourth mounting block 12 is close to the second mounting block 61, a wrench 13 is rotatably connected to the fourth mounting block 12, and the wrench 13 is used for pulling out the pin 63 together with the movable pin 62.

Taking embodiment 2 as an example, when the tool for machining the inclined surface of the saddle of the machine tool is used, the fixed plate 1 is installed on a workbench of a machining center, the movable pin 62 and the pin rod 63 are installed in the second pin bush 64, the movable pin 62 is fixed, the movable plate 2 is further pressed and fixed through the second pressing unit, the movable plate 2 is fixed on the fixed plate 1, the corresponding equal-height module 4 is selected according to the actual step size of the saddle 3 of the machine tool to be machined, one end of the saddle 3 containing the inclined surface to be machined is upwards placed on the transition plate 20, the side, with the step difference, of the saddle 3 is supported by the selected equal-height module 4, the pressing position of the saddle 3 is flexibly determined according to needs, the saddle 3 is pressed through the plurality of first pressing units, the saddle 3 can be firmly clamped on the movable plate 2, the clamping of the saddle 3 is completed, the position schematic diagram of the two inclined surfaces after clamping is shown in fig. 11a, and the machined surfaces except the inclined surface of the saddle 3 can be machined after clamping. After the machining is completed, the second pressing unit is released, the pin rod 63 and the movable pin 62 are pulled out to unlock the movable plate 2, then the knock pin 66 on one knock pin unit is rotated and adjusted to adjust the angle of the saddle 3, after the adjustment is completed, the movable pin 62 is fitted into the second pin bush 64 together with the pin rod 63, the movable pin 62 is fixed, and the second pressing unit is locked, at this time, the schematic diagrams of the positions of the two inclined surfaces are shown in fig. 11b, the machining of one inclined surface f1 in accordance with the cutter feeding direction can be performed, thereafter, the similar operation as described above is repeated, the knock pin 66 on the other knock pin unit is rotated and adjusted, at this time, the schematic diagrams of the positions of the two inclined surfaces are shown in fig. 11c, and the machining of the other inclined surface f2 in accordance with the cutter feeding direction can be performed. In fig. 11a to 11c, X, Y represents the X-axis direction and the Y-axis direction of the machining center, respectively, and f1 and f2 represent two inclined surfaces; in fig. 11b and 11c, the solid circles represent cutters fed in the X-axis direction.

Claims

1. The utility model provides a lathe saddle inclination face processing frock, its characterized in that includes fixed plate, fly leaf, a plurality of first compression unit, a plurality of equal altitude modules and locking mechanical system of unequal height, the fly leaf rotate and connect on the fixed plate, a plurality of equal altitude modules install on the fly leaf, a plurality of equal altitude modules be used for supporting the lathe saddle that has different step differences, a plurality of first compression unit be used for compressing tightly the lathe saddle, locking mechanical system be used for with the fly leaf locking fixation on the fixed plate or release the locking of fly leaf, locking mechanical system include knock pin mechanism, movable pin subassembly and locating pin subassembly, the locating pin subassembly include first installation piece and locating pin, first installation piece on one side of fly leaf, first installation piece on install first round pin cover, the locating pin install in first round pin cover, the lower extreme of locating pin stretch into in the fixed plate, the fly leaf including the second installation piece, the movable pin subassembly with the second is installed in the second installation piece on the side of movable pin, the second installation piece and the second installation piece on the movable pin cover, the second installation piece is installed in the second side of movable pin, the second installation piece is installed in the movable pin cover, the second is installed in the movable pin, the jacking pin is in threaded connection with and transversely penetrates through the third mounting block and faces the second mounting block.

2. The tool for machining the inclined surface of the machine tool saddle according to claim 1, wherein each first pressing unit comprises a first pressing block, a first supporting column, a first screw rod and a first nut, the first screw rod and the first nut are matched, the first supporting column is movably arranged on the movable plate or the equal-height module, a first waist-shaped hole is formed in the first pressing block, the first screw rod penetrates through the first waist-shaped hole to be abutted against the movable plate or the equal-height module, and when the tool saddle is used, one end of the first pressing block is placed on the first supporting column, the other end of the first pressing block is placed on the machine tool saddle, and the first pressing block is pressed by tightening the first nut, namely the fixed machine tool saddle is pressed.

3. The tool for machining the inclined surface of the saddle of the machine tool according to claim 2, wherein the movable plate is fixedly provided with a transition plate, the plurality of contour modules are arranged on the transition plate, and the first support column is movably arranged on the transition plate or the contour modules.

4. The tool for machining the inclined surface of the saddle of the machine tool according to claim 1, wherein the fixed plate is provided with two limiting blocks, and the two limiting blocks are respectively positioned on the front side and the rear side of the movable plate.

5. The tool for machining the inclined surface of the saddle of the machine tool according to claim 1, wherein the locking mechanism further comprises a plurality of second pressing units, each second pressing unit comprises a second pressing block, a second supporting column, a second screw rod and a second nut, the second screw rods and the second nuts are matched, the second supporting columns are movably placed on the fixed plate, second waist-shaped holes are formed in the second pressing blocks, the second screw rods penetrate through the second waist-shaped holes to abut against the fixed plate, and when the tool is used, one end of each second pressing block is placed on the corresponding second supporting column, the other end of each second pressing block is placed on the corresponding movable plate, and the second pressing blocks are pressed by tightening the corresponding second nuts, namely the movable plates are pressed and fixed.

6. The tool for machining the inclined surface of the saddle of the machine tool according to claim 5, wherein a plurality of concave holes are formed in the side wall of the movable plate, and the other end of the second pressing block is inserted into the concave holes when the tool is used.

7. The tool for machining the inclined surface of the saddle of the machine tool according to claim 1, wherein a fourth mounting block is fixed on the fixing plate and is close to the second mounting block, a wrench is rotatably connected to the fourth mounting block, and the wrench is used for pulling out the pin rod together with the movable pin.