CN210877739U - Vertical and horizontal combined machining center - Google Patents

Abstract

The utility model provides a compound machining center crouches immediately, include: a bed body; the workbench is arranged on the lathe bed and used for clamping a workpiece; the vertical processing device is movably arranged on the lathe bed to process the workpiece on the workbench; the horizontal machining device is movably arranged on the lathe bed to machine the workpiece on the workbench, and the horizontal machining device and the vertical machining device are respectively positioned on two sides of the workbench. Because the vertical processing device and the horizontal processing device can move on the lathe bed, the vertical processing device and the horizontal processing device can move to the position matched with the workpiece on the workbench, so that the vertical processing device and the horizontal processing device can simultaneously process different positions of the same workpiece or simultaneously process different workpieces on the workbench, the simultaneous working of the vertical processing device and the horizontal processing device is realized, and the processing efficiency is improved. In addition, the scheme can reduce the clamping times of the workpiece, thereby reducing the clamping error and improving the processing precision of the workpiece.

Description

Vertical and horizontal combined machining center

Technical Field

The utility model relates to a lathe technical field particularly, relates to a compound machining center crouches immediately.

Background

The existing numerical control machining center with the vertical milling head and the horizontal milling head can complete the surface milling, drilling and tapping work of the upper surface and four side surfaces, reduces the clamping times of workpieces, improves the efficiency and the precision, but the vertical milling head and the horizontal milling head with the existing structures cannot work simultaneously, and only the simple superposition of the traditional vertical machining center and the horizontal machining center influences the machining efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a compound machining center crouches immediately to solve the problem that vertical processingequipment and horizontal processingequipment in the compound machining center crouches immediately among the prior art can not process the work piece simultaneously.

In order to solve the problem, the utility model provides a compound machining center crouches immediately, include: a bed body; the workbench is arranged on the lathe bed and used for clamping a workpiece; the vertical processing device is movably arranged on the lathe bed to process the workpiece on the workbench; the horizontal machining device is movably arranged on the lathe bed to machine the workpiece on the workbench, and the horizontal machining device and the vertical machining device are respectively positioned on two sides of the workbench.

Further, the lathe bed has two pairs of mutually perpendicular X, Y, Z three directions, and vertical processingequipment includes: the first saddle is movably arranged on the bed body and can move along the X direction; the first upright post is movably arranged on the first saddle and can move along the Y direction; and the vertical processing part is arranged on the first upright post and is used for processing the workpiece.

Further, the vertical processing device further includes: the first driving part is arranged between the first saddle and the lathe bed and is used for driving the first saddle to move on the lathe bed; the first guide part is arranged between the first saddle and the lathe bed and used for guiding the first saddle.

Further, the vertical processing device further includes: the second driving part is arranged between the first saddle and the first upright post and is used for driving the first upright post to move on the first saddle; and the second guide part is arranged between the first saddle and the first upright post and used for guiding the first upright post.

Further, the vertical processing unit can move on the first column in the Z direction, and the vertical processing unit further includes: the third driving part is arranged between the vertical processing part and the first upright post and is used for driving the vertical processing part to move on the first upright post; and the third guide part is arranged between the vertical processing part and the first stand column and used for guiding the vertical processing part.

Further, the lathe bed has two pairs of mutually perpendicular's X, Y, Z three directions, and horizontal processingequipment includes: the second saddle is movably arranged on the bed body and can move along the X direction; the second upright post is movably arranged on the second saddle and can move along the Y direction; and the horizontal processing part is arranged on the second upright post and is used for processing the workpiece.

Further, the horizontal processing device further comprises: the fourth driving part is arranged between the second saddle and the lathe bed and is used for driving the second saddle to move on the lathe bed; and the fourth guide part is arranged between the second saddle and the lathe bed and is used for guiding the second saddle.

Further, the horizontal processing device further comprises: the fifth driving part is arranged between the second saddle and the second upright post and is used for driving the second upright post to move on the second saddle; and the fifth guide part is arranged between the second saddle and the second upright post and is used for guiding the second upright post.

Further, horizontal processingequipment still includes along Z direction removal on the second stand, horizontal processingequipment: the sixth driving part is arranged between the horizontal processing part and the second upright column and is used for driving the horizontal processing part to move on the second upright column; and the sixth guide part is arranged between the horizontal processing part and the second upright column and is used for guiding the horizontal processing part.

Further, the workbench is provided with a plurality of stations, the stations are used for clamping workpieces respectively, and the vertical machining device and the horizontal machining device are used for machining the workpieces on different stations respectively.

Further, the work table includes: the fixed seat is arranged on the bed body; the revolving stage rotationally sets up on the fixing base, and the circumference interval that a plurality of stations extend the revolving stage sets up on the revolving stage.

Furthermore, the lathe bed has two mutually perpendicular X, Y, Z three directions, and vertical processingequipment's main shaft sets up along the Z direction, and horizontal processingequipment's main shaft sets up along the Y direction, and the pivot of revolving stage sets up along the X direction.

Use the technical scheme of the utility model, be provided with lathe bed, workstation, vertical processingequipment and horizontal processingequipment in the combined machining center crouches immediately, wherein, horizontal processingequipment and vertical processingequipment are located the both sides of workstation respectively, and the movably setting of vertical processingequipment is on the lathe bed to work piece on the processing workstation, the movably setting of horizontal processingequipment is on the lathe bed, with the work piece on the processing workstation. Because the vertical processing device and the horizontal processing device can move on the lathe bed, the vertical processing device and the horizontal processing device can move to the positions matched with the workpieces on the workbench, so that the vertical processing device and the horizontal processing device can simultaneously process different positions of the same workpiece or simultaneously process different workpieces on the workbench, the simultaneous working of the vertical processing device and the horizontal processing device is realized, and the processing efficiency is improved. Moreover, the clamping frequency of the workpiece can be reduced by adopting the scheme, so that the error caused by clamping the workpiece for multiple times can be reduced or avoided, and the processing precision of the workpiece is improved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural diagram of a vertical and horizontal combined machining center provided by an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a bed body; 20. a work table; 21. a fixed seat; 22. a rotating table; 30. a vertical processing device; 31. a first saddle; 32. a first upright post; 33. a vertical processing part; 34. a first driving section; 35. a first guide portion; 36. a second driving section; 37. a second guide portion; 38. a third driving section; 39. a third guide portion; 40. a horizontal processing device; 41. a second saddle; 42. a second upright post; 43. a horizontal processing section; 44. a fourth driving section; 45. a fourth guide portion; 46. a fifth driving section; 47. a fifth guide part; 48. a sixth driving section; 49. and a sixth guide portion.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a vertical and horizontal combined machining center, including: a bed 10; the workbench 20 is arranged on the lathe bed 10, and the workbench 20 is used for clamping a workpiece; a vertical processing device 30 movably disposed on the bed 10 to process the workpiece on the table 20; and the horizontal processing device 40 is movably arranged on the lathe bed 10 to process the workpiece on the workbench 20, and the horizontal processing device 40 and the vertical processing device 30 are respectively positioned at two sides of the workbench 20.

By applying the technical scheme of the embodiment, a bed 10, a workbench 20, a vertical processing device 30 and a horizontal processing device 40 are arranged in the vertical and horizontal combined processing center, wherein the horizontal processing device 40 and the vertical processing device 30 are respectively located at two sides of the workbench 20, the vertical processing device 30 is movably arranged on the bed 10 to process a workpiece on the workbench 20, and the horizontal processing device 40 is movably arranged on the bed 10 to process a workpiece on the workbench 20. Because the vertical processing device 30 and the horizontal processing device 40 can move on the lathe bed 10, the vertical processing device 30 and the horizontal processing device 40 can move to positions matched with the workpieces on the workbench 20, so that the vertical processing device 30 and the horizontal processing device 40 can simultaneously process different positions of the same workpiece or simultaneously process different workpieces on the workbench 20, thereby realizing the simultaneous operation of the vertical processing device 30 and the horizontal processing device 40 and improving the processing efficiency. Moreover, the clamping frequency of the workpiece can be reduced by adopting the scheme, so that the error caused by clamping the workpiece for multiple times can be reduced or avoided, and the processing precision of the workpiece is improved. In this embodiment, the vertical processing device 30 and the horizontal processing device 40 do not move relative to each other.

In the present embodiment, the bed 10 has X, Y, Z three directions perpendicular to each other two by two, and the vertical machining device 30 includes: a first saddle 31 movably provided on the bed 10, the first saddle 31 being movable in the X direction; a first column 32 movably provided on the first saddle 31, the first column 32 being movable in the Y direction; the vertical processing portion 33 is provided on the first column 32, and the vertical processing portion 33 is used for processing a workpiece. In the present embodiment, the X direction and the Y direction may be understood as a horizontal direction, and the Z direction may be understood as a vertical direction. With the above arrangement, the movement of the first saddle 31 in the horizontal direction can be realized to move to an appropriate position for machining a workpiece.

Specifically, the vertical processing device 30 further includes: a first driving part 34 disposed between the first saddle 31 and the bed 10, the first driving part 34 being configured to drive the first saddle 31 to move on the bed 10; and a first guide portion 35 provided between the first saddle 31 and the bed 10, the first guide portion 35 guiding the first saddle 31. This enables stable movement of the first saddle 31 on the bed 10 by cooperation of the first driving portion 34 and the first guide portion 35. The first driving portion 34 may be a lead screw, and the first guiding portion 35 may be a guide rail. In order to improve stability, the first guide portion 35 may be provided in plurality.

In the present embodiment, the vertical processing device 30 further includes: a second driving part 36 disposed between the first saddle 31 and the first column 32, the second driving part 36 being configured to drive the first column 32 to move on the first saddle 31; and a second guide portion 37 provided between the first saddle 31 and the first column 32, the second guide portion 37 guiding the first column 32. This enables a stable movement of the first upright 32 on the first saddle 31 by the cooperation of the second driving portion 36 and the second guide portion 37. Wherein the second driving part 36 may be configured as a lead screw, and the second guiding part 37 may be configured as a guide rail. In order to improve stability, the second guide portion 37 may be provided in plurality.

As shown in fig. 1, the vertical processing unit 33 is movable on the first column 32 in the Z direction, and the vertical processing device 30 further includes: a third driving unit 38 disposed between the vertical processing unit 33 and the first column 32, the third driving unit 38 driving the vertical processing unit 33 to move on the first column 32; and a third guide portion 39 provided between the vertical processing portion 33 and the first column 32, the third guide portion 39 guiding the vertical processing portion 33. This enables the vertical processing portion 33 to stably move on the first column 32 by the cooperation of the third driving portion 38 and the third guide portion 39. Wherein the third driving part 38 may be configured as a lead screw, and the third guiding part 39 may be configured as a guide rail. In order to improve stability, the third guide portion 39 may be provided in plurality.

In the present embodiment, the bed 10 has X, Y, Z three directions perpendicular to each other two by two, and the horizontal machining device 40 includes: a second carriage 41 movably provided on the bed 10, the second carriage 41 being movable in the X direction; a second column 42 movably provided on the second saddle 41, the second column 42 being movable in the Y direction; and a horizontal machining section 43 provided on the second column 42, the horizontal machining section 43 being used for machining a workpiece. With the above arrangement, the second saddle 41 can be moved in the horizontal direction to move to a proper position for machining a workpiece.

Specifically, the horizontal processing device 40 further includes: a fourth driving part 44 disposed between the second saddle 41 and the bed 10, the fourth driving part 44 being configured to drive the second saddle 41 to move on the bed 10; and a fourth guide portion 45 provided between the second saddle 41 and the bed 10, the fourth guide portion 45 guiding the second saddle 41. This enables the second saddle 41 to be stably moved on the bed 10 by the cooperation of the fourth driving portion 44 and the fourth guide portion 45. Wherein, the fourth driving part 44 may be configured as a lead screw, and the fourth guiding part 45 may be configured as a guide rail. For improving the stability, the fourth guide portion 45 may be provided in plural, for example, three at intervals.

In this embodiment, the horizontal processing apparatus 40 further includes: a fifth driving part 46 disposed between the second saddle 41 and the second column 42, the fifth driving part 46 being configured to drive the second column 42 to move on the second saddle 41; and a fifth guide portion 47 provided between the second saddle 41 and the second column 42, the fifth guide portion 47 being used to guide the second column 42. This enables a stable movement of the second upright 42 on the second saddle 41 by the cooperation of the fifth driving portion 46 and the fifth guiding portion 47. Among them, the fifth driving part 46 may be provided as a lead screw, and the fifth guiding part 47 may be provided as a guide rail. In order to improve stability, the fifth guide portion 47 may be provided in plurality.

Further, the horizontal processing unit 43 is movable on the second column 42 in the Z direction, and the horizontal processing device 40 further includes: a sixth driving unit 48 disposed between the horizontal processing unit 43 and the second column 42, the sixth driving unit 48 driving the horizontal processing unit 43 to move on the second column 42; and a sixth guide portion 49 provided between the horizontal type processing portion 43 and the second column 42, the sixth guide portion 49 guiding the horizontal type processing portion 43. In this way, the horizontal processing portion 43 can be stably moved on the second column 42 by the cooperation of the sixth driving portion 48 and the sixth guide portion 49. Among them, the sixth driving portion 48 may be provided as a lead screw, and the sixth guiding portion 49 may be provided as a guide rail. In order to improve stability, the sixth guide portion 49 may be provided in plurality.

In the present embodiment, the table 20 has a plurality of stations for holding the workpieces, respectively, and the vertical processing device 30 and the horizontal processing device 40 are for processing the workpieces at different stations, respectively. Thus, a plurality of workpieces can be placed on a plurality of stations of the table 20, and different workpieces can be simultaneously processed by the vertical processing device 30 and the horizontal processing device 40, so that the working efficiency can be improved. Wherein the vertical processing device 30 and the horizontal processing device 40 can process different positions of the workpiece. For a workpiece, the vertical machining device 30 can machine 4 sides of the workpiece; the horizontal machining device 40 can machine the top surface of the workpiece, that is, the surface of the workpiece perpendicular to the direction of the main axis of the horizontal machining device 40.

As shown in fig. 1, the table 20 includes: the fixed seat 21 is arranged on the lathe bed 10; the rotary table 22 is rotatably provided on the fixed base 21, and a plurality of stations are provided on the rotary table 22 at intervals in the circumferential direction of the rotary table 22. With the above arrangement, the workpiece on the rotary table 22 can be easily matched with the vertical machining device 30 or the horizontal machining device 40. For example, the rotary table 22 is first at a fixed position, the vertical processing device 30 processes a first workpiece on the rotary table 22, and the horizontal processing device 40 processes a second workpiece on the rotary table 22; after all the workpieces are machined, the turntable 22 is rotated by a certain angle to change the positions of the workpieces, and then the first workpiece is rotated to the machining position of the horizontal machining device 40, so that the horizontal machining device 40 machines the first workpiece, the second workpiece is rotated to the machining position of the vertical machining device 30, so that the vertical machining device 30 machines the second workpiece, or the second workpiece is rotated to another position to wait, and the third workpiece is rotated to the machining position of the vertical machining device 30, so that the vertical machining device 30 machines the third workpiece. Therefore, through the arrangement, the clamping times of the workpieces can be reduced, the vertical processing device 30 and the horizontal processing device 40 can be simultaneously processed, and the production efficiency is improved.

Further, the bed 10 has X, Y, Z three directions perpendicular to each other two by two, the main shaft of the vertical machining device 30 is disposed in the Z direction, the main shaft of the horizontal machining device 40 is disposed in the Y direction, and the rotation shaft of the rotary table 22 is disposed in the X direction. This facilitates the moving cooperation of the vertical machining device 30, the horizontal machining device 40, and the rotary table 22 to machine the workpiece at a desired position. In this embodiment, a collection trough is provided below the table 20 to collect swarf. A milling head or other cutting tools may be attached to the spindle of the vertical machining device 30, and a milling head or other cutting tools may be attached to the spindle of the horizontal machining device 40.

Use the technical scheme of the utility model, be provided with lathe bed 10, workstation 20, vertical processingequipment 30 and horizontal processingequipment 40 in the compound machining center crouches immediately, wherein, horizontal processingequipment 40 and vertical processingequipment 30 are located the both sides of workstation 20 respectively, and the movably setting of vertical processingequipment 30 is on lathe bed 10 to the work piece on the processing workstation 20, the movably setting on lathe bed 10 of horizontal processingequipment 40 is with the work piece on the processing workstation 20. Because the vertical processing device 30 and the horizontal processing device 40 can move on the lathe bed 10, the vertical processing device 30 and the horizontal processing device 40 can move to positions matched with the workpieces on the workbench 20, so that the vertical processing device 30 and the horizontal processing device 40 can simultaneously process different positions of the same workpiece or simultaneously process different workpieces on the workbench 20, thereby realizing the simultaneous operation of the vertical processing device 30 and the horizontal processing device 40 and improving the processing efficiency. In this embodiment, the vertical processing device 30 and the horizontal processing device 40 do not move relative to each other.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A vertical and horizontal combined machining center is characterized by comprising:

a bed (10);

the workbench (20) is arranged on the lathe bed (10), and the workbench (20) is used for clamping a workpiece;

the vertical machining device (30) is movably arranged on the lathe bed (10) and is used for machining the workpiece on the workbench (20);

the horizontal machining device (40) is movably arranged on the lathe bed (10) to machine the workpiece on the workbench (20), and the horizontal machining device (40) and the vertical machining device (30) are respectively positioned on two sides of the workbench (20);

the workbench (20) is provided with a plurality of stations for respectively clamping workpieces, and the vertical machining device (30) and the horizontal machining device (40) are respectively used for machining the workpieces on different stations.

2. The vertical-horizontal combined machining center according to claim 1, wherein the machine bed (10) has X, Y, Z three directions which are two by two perpendicular to each other, and the vertical machining device (30) includes:

a first saddle (31) movably disposed on the bed (10), the first saddle (31) being movable in an X direction;

a first column (32) movably disposed on the first saddle (31), the first column (32) being movable in a Y-direction;

a vertical processing portion (33) provided on the first column (32), the vertical processing portion (33) being used for processing a workpiece.

3. The vertical-horizontal combined machining center according to claim 2, wherein the vertical machining device (30) further includes:

a first driving part (34) arranged between the first saddle (31) and the bed (10), wherein the first driving part (34) is used for driving the first saddle (31) to move on the bed (10);

a first guide portion (35) provided between the first saddle (31) and the bed (10), the first guide portion (35) being used to guide the first saddle (31).

4. The vertical-horizontal combined machining center according to claim 2, wherein the vertical machining device (30) further includes:

a second driving part (36) arranged between the first saddle (31) and the first upright (32), the second driving part (36) being used for driving the first upright (32) to move on the first saddle (31);

a second guide portion (37) provided between the first saddle (31) and the first column (32), the second guide portion (37) being used for guiding the first column (32).

5. The vertical and horizontal combined machining center according to claim 2, wherein the vertical machining unit (33) is movable on the first column (32) in the Z direction, and the vertical machining device (30) further comprises:

a third driving part (38) arranged between the vertical processing part (33) and the first upright column (32), wherein the third driving part (38) is used for driving the vertical processing part (33) to move on the first upright column (32);

and a third guide section (39) provided between the vertical processing section (33) and the first column (32), the third guide section (39) being used for guiding the vertical processing section (33).

6. The vertical-horizontal combined machining center according to claim 1, wherein the machine bed (10) has X, Y, Z three directions which are two by two perpendicular to each other, and the horizontal machining device (40) comprises:

a second saddle (41) movably disposed on the bed (10), the second saddle (41) being movable in the X direction;

a second column (42) movably disposed on the second saddle (41), the second column (42) being movable in the Y direction;

and the horizontal processing part (43) is arranged on the second upright column (42), and the horizontal processing part (43) is used for processing a workpiece.

7. The vertical-horizontal combined machining center according to claim 6, wherein the horizontal machining device (40) further comprises:

a fourth driving part (44) arranged between the second saddle (41) and the bed (10), wherein the fourth driving part (44) is used for driving the second saddle (41) to move on the bed (10);

a fourth guide portion (45) provided between the second saddle (41) and the bed (10), the fourth guide portion (45) being used for guiding the second saddle (41).

8. The vertical-horizontal combined machining center according to claim 6, wherein the horizontal machining device (40) further comprises:

a fifth driving part (46) arranged between the second saddle (41) and the second column (42), the fifth driving part (46) being used for driving the second column (42) to move on the second saddle (41);

a fifth guide portion (47) provided between the second saddle (41) and the second column (42), the fifth guide portion (47) being for guiding the second column (42).

9. The vertical and horizontal combined machining center according to claim 6, wherein the horizontal machining unit (43) is movable on the second column (42) in the Z direction, and the horizontal machining device (40) further comprises:

a sixth driving section (48) provided between the horizontal processing section (43) and the second column (42), the sixth driving section (48) driving the horizontal processing section (43) to move on the second column (42);

and a sixth guide part (49) provided between the horizontal processing part (43) and the second column (42), the sixth guide part (49) guiding the horizontal processing part (43).

10. Vertical-horizontal compound machining center according to claim 1, characterized in that the work table (20) comprises:

the fixed seat (21) is arranged on the lathe bed (10);

and the rotating platform (22) is rotatably arranged on the fixed seat (21), and the stations extend to the periphery of the rotating platform (22) at intervals and are arranged on the rotating platform (22).

11. The vertical and horizontal combined machining center according to claim 10, wherein the machine bed (10) has X, Y, Z directions perpendicular to each other two by two, the main shaft of the vertical machining device (30) is disposed in the Z direction, the main shaft of the horizontal machining device (40) is disposed in the Y direction, and the rotation shaft of the rotary table (22) is disposed in the X direction.

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