CN221019717U - Double-spindle double-Y composite numerical control machine tool - Google Patents

Abstract

The utility model discloses a double-spindle double-Y composite numerical control machine tool which comprises a machine base, a first spindle seat, a first Z-axis driving assembly, a first Y-axis moving seat, a first Y-axis driving assembly, a first X-axis moving seat, a first X-axis driving assembly, a second spindle seat, a second Z-axis driving assembly, a second Y-axis moving seat, a second Y-axis driving assembly, a second X-axis moving seat and a second X-axis driving assembly. The double-spindle double-Y composite numerical control machine tool has the advantages that: the first Y-axis moving seat and the second Y-axis moving seat and the first X-axis moving seat and the second X-axis moving seat move more stably and reliably, so that the processing stability and the processing precision of the double-spindle numerical control machine tool are improved; six-axis linkage processing can be realized, the processing is more flexible and convenient, and parts with complex structures can be processed; the whole machine has more compact structure and reduced volume.

Description

Double-spindle double-Y composite numerical control machine tool

Technical Field

The utility model belongs to the technical field of numerical control machine tools, and relates to a double-spindle double-Y composite numerical control machine tool.

Background

At present, a common double-spindle numerical control machine tool on the market often has some defects: 1, the movement of the Y-axis moving seat and the X-axis moving seat is not stable and reliable enough, so that the processing stability and the processing precision of the double-spindle numerical control machine tool are reduced; 2. the processing is not flexible enough, and for some parts with complex structures, the processing is difficult, even impossible; 3. the structure is not compact enough and the whole volume is larger.

Disclosure of utility model

The utility model aims to provide a double-spindle double-Y composite numerical control machine tool to solve the technical problems.

In order to solve the technical problems, the utility model adopts the following technical scheme: the double-spindle double-Y composite numerical control machine tool comprises a machine base, a first spindle seat, a first Z-axis driving assembly, a first Y-axis moving seat, a first Y-axis driving assembly, a first X-axis moving seat, a first X-axis driving assembly, a second spindle seat, a second Z-axis driving assembly, a second Y-axis moving seat, a second Y-axis driving assembly, a second X-axis moving seat and a second X-axis driving assembly;

The first spindle seat is arranged on the machine base through a first Z-axis linear guide rail pair, the first Z-axis driving assembly is used for driving the first spindle seat to move along the Z-axis direction, and a first spindle with a chuck is arranged on the first spindle seat; the second spindle seat is arranged on the machine base through a second Z-axis linear guide rail pair, the second Z-axis driving assembly is used for driving the second spindle seat to move along the Z-axis direction, and a second spindle with a chuck is arranged on the second spindle seat;

the first Y-axis moving seat is arranged on the base through a first Y-axis linear guide rail pair, the first Y-axis driving assembly is used for driving the first Y-axis moving seat to move along the Y-axis direction, the first X-axis moving seat is arranged on the first Y-axis moving seat through a first X-axis linear guide rail pair, the first X-axis driving assembly is used for driving the first X-axis moving seat to move along the X-axis direction, and the first X-axis moving seat is provided with a first processing assembly;

The second Y-axis moving seat is arranged on the base through a second Y-axis linear guide rail pair, the second Y-axis driving assembly is used for driving the second Y-axis moving seat to move along the Y-axis direction, the second X-axis moving seat is arranged on the second Y-axis moving seat through a second X-axis linear guide rail pair, the second X-axis driving assembly is used for driving the second X-axis moving seat to move along the X-axis direction, and the second X-axis moving seat is provided with a second processing assembly;

The machine seat is provided with a first supporting seat, a first Y-axis linear guide rail pair is arranged on the first supporting seat, a first side Y-axis linear guide rail pair is arranged on the side surface of the first supporting seat, the first Y-axis movable seat is arranged on the first supporting seat through the first Y-axis linear guide rail pair and the first side Y-axis linear guide rail pair respectively, a first side X-axis linear guide rail pair is arranged on the side surface of the first Y-axis movable seat, and the first X-axis movable seat is arranged on the first Y-axis movable seat through the first X-axis linear guide rail pair and the first side X-axis linear guide rail pair respectively;

The machine seat is provided with a second supporting seat, a second Y-axis linear guide pair is arranged on the second supporting seat, a second side Y-axis linear guide pair is arranged on the side face of the second supporting seat, the second Y-axis moving seat is respectively arranged on the second supporting seat through the second Y-axis linear guide pair and the second side Y-axis linear guide pair, a second side X-axis linear guide pair is arranged on the side face of the second Y-axis moving seat, and the second X-axis moving seat is respectively arranged on the second Y-axis moving seat through the second X-axis linear guide pair and the second side X-axis linear guide pair.

Further, the first supporting seat corresponds to the second supporting seat, a first side Y-axis linear guide rail pair is arranged on one side, close to the second supporting seat, of the first supporting seat, and a second side Y-axis linear guide rail pair is arranged on one side, close to the first supporting seat, of the second supporting seat.

Further, the first supporting seat and the second supporting seat are both n-shaped, the first supporting seat is provided with a first through hole, the first spindle seat can pass through the first through hole, the second supporting seat is provided with a second through hole, and the second spindle seat can pass through the second through hole.

Further, two sides of the first Y-axis moving seat are respectively provided with a first side face X-axis linear guide rail pair, two sides of the first X-axis moving seat are respectively provided with a first connecting plate, and the first connecting plates are connected with the first Y-axis moving seat through the first side face X-axis linear guide rail pair; the two sides of the second Y-axis moving seat are respectively provided with a second side face X-axis linear guide rail pair, the two sides of the second X-axis moving seat are respectively provided with a second connecting plate, and the second connecting plates are connected with the second Y-axis moving seat through the second side face X-axis linear guide rail pair.

Further, the first Z-axis driving assembly comprises a first Z-axis motor and a first Z-axis screw nut pair, the first Z-axis motor is installed on the base, and the first Z-axis motor drives the first spindle seat to move along the Z-axis direction through the first Z-axis screw nut pair; the second Z-axis driving assembly comprises a second Z-axis motor and a second Z-axis screw nut pair, the second Z-axis motor is installed on the base, and the second Z-axis motor drives the second spindle seat to move along the Z-axis direction through the second Z-axis screw nut pair.

Further, the first Y-axis driving assembly comprises a first Y-axis motor and a first Y-axis screw nut pair, the first Y-axis motor is arranged on the first supporting seat, and the first Y-axis motor drives the first Y-axis moving seat to move along the Y-axis direction through the first Y-axis screw nut pair; the second Y-axis driving assembly comprises a second Y-axis motor and a second Y-axis screw nut pair, the second Y-axis motor is installed on the second supporting seat, and the second Y-axis motor drives the second Y-axis moving seat to move along the Y-axis direction through the second Y-axis screw nut pair.

Further, the first X-axis driving assembly comprises a first X-axis motor and a first X-axis screw nut pair, the first X-axis motor is arranged on the first Y-axis moving seat, and the first X-axis motor drives the first X-axis moving seat to move along the X-axis direction through the first X-axis screw nut pair; the second X-axis driving assembly comprises a second X-axis motor and a second X-axis screw nut pair, the second X-axis motor is installed on the second Y-axis moving seat, and the second X-axis motor drives the second X-axis moving seat to move along the X-axis direction through the second X-axis screw nut pair.

Further, the first machining assembly comprises two first machining power head devices which are respectively arranged on the first X-axis moving seat; the second machining assembly comprises two second machining power head devices which are respectively arranged on the second X-axis moving seat.

The utility model has the beneficial effects that: the double-spindle double-Y composite numerical control machine tool has the advantages that: the first and second side Y-axis linear guide rail pairs and the first and second side X-axis linear guide rail pairs are arranged, so that the movement of the first and second Y-axis movable seats and the movement of the first and second X-axis movable seats are more stable and reliable, and the processing stability and the processing precision of the double-spindle numerical control machine tool are improved; six-axis linkage processing can be realized, the processing is more flexible and convenient, and parts with complex structures can be processed; the n-shaped supporting seat is arranged for installing each part, so that the whole machine structure is more compact, and the whole machine volume is reduced.

Drawings

Fig. 1 is a first perspective view of a double-spindle double-Y compound numerical control machine tool according to an embodiment of the present utility model.

Fig. 2 is a second perspective view of the dual spindle dual Y compound numerically controlled machine tool in accordance with the embodiment of the present utility model.

Fig. 3 is an enlarged view of I in fig. 1.

Fig. 4 is a front view of a double-spindle double-Y compound numerical control machine tool according to an embodiment of the present utility model.

Fig. 5 is a left side view of fig. 4.

Fig. 6 is a right side view of fig. 4.

Fig. 7 is a top view of fig. 4.

Reference numerals illustrate:

The machine comprises a machine base 11, a first spindle seat 12, a first spindle 13, a first Z-axis driving assembly 14, a first Y-axis moving seat 15, a first Y-axis driving assembly 16, a first side Y-axis linear guide pair 17, a first X-axis moving seat 18, a first X-axis driving assembly 19, a first side X-axis linear guide pair 20, a first machining power head device 21, a second spindle seat 22, a second spindle 23, a second Z-axis driving assembly 24, a second Y-axis moving seat 25, a second Y-axis driving assembly 26, a second side Y-axis linear guide pair 27, a second X-axis moving seat 28, a second X-axis driving assembly 29, a second side X-axis linear guide pair 30 and a second machining power head device 31;

A first support base 111, a second support base 112;

A first passage 1111 and a second passage 1121;

A first connection plate 181;

the second connection plate 281.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, 2 and 4-7, the dual spindle dual Y composite numerical control machine tool of the present embodiment includes a machine base 11, a first spindle base 12, a first Z-axis driving assembly 14, a first Y-axis moving base 15 having an "L" shape, a first Y-axis driving assembly 16, a first X-axis moving base 18, a first X-axis driving assembly 19, a second spindle base 22, a second Z-axis driving assembly 24, a second Y-axis moving base 25 having an "L" shape, a second Y-axis driving assembly 26, a second X-axis moving base 28 and a second X-axis driving assembly 29. The machine base 11 is provided with a first support seat 111 and a second support seat 112 which are in an n-shaped form, and the first support seat 111 and the second support seat 112 correspond to each other. The first support base 111 is formed with a first through hole 1111, the first through hole 1111 penetrates in the thickness direction of the first support base 111, the second support base 112 is formed with a second through hole 1121, and the second through hole 1121 penetrates in the thickness direction of the second support base 112.

The first spindle seat 12 is mounted on the machine base 11 through a first Z-axis linear guide rail pair, and a first spindle 13 with a chuck is mounted on the first spindle seat 12. The first Z-axis driving assembly 14 is configured to drive the first spindle base 12 to move along the Z-axis direction. The first Z-axis driving assembly 14 comprises a first Z-axis motor and a first Z-axis screw nut pair, the first Z-axis motor is mounted on the base 11, and the first Z-axis motor drives the first spindle seat 12 to move along the Z-axis direction through the first Z-axis screw nut pair during operation. The first spindle seat 12 can pass through the first through hole 1111 of the first support seat 111 during movement.

Referring to fig. 3, two first Y-axis linear guide pairs are respectively mounted on the top of the first support base 111, a first side Y-axis linear guide pair 17 is mounted on one side of the first support base 111 near the second support base 112, and the first Y-axis moving base 15 is mounted on the first support base 111 through the first Y-axis linear guide pair and the first side Y-axis linear guide pair 17, respectively. The first Y-axis driving assembly 16 is used for driving the first Y-axis moving seat 15 to move along the Y-axis direction. The first Y-axis driving assembly 16 includes a first Y-axis motor, a first Y-axis screw nut pair, the first Y-axis motor is mounted on the first support base 111, and the first Y-axis motor drives the first Y-axis moving base 15 to move along the Y-axis direction through the first Y-axis screw nut pair.

The first X-axis moving seat 18 is mounted to the first Y-axis moving seat 15 through two first X-axis linear guide pairs. A first side surface X-axis linear guide pair 20 is respectively installed at two sides of the first Y-axis moving seat 15, a first connecting plate 181 is respectively processed at two sides of the first X-axis moving seat 18, and the two first connecting plates 181 are respectively connected with the first Y-axis moving seat 15 through the two first side surface X-axis linear guide pairs 20, so that the first X-axis moving seat 18 is respectively installed on the first Y-axis moving seat 15 through the first X-axis linear guide pair and the first side surface X-axis linear guide pair 20. The first X-axis driving assembly 19 is configured to drive the first X-axis moving seat 18 to move along the X-axis direction. The first X-axis driving assembly 19 includes a first X-axis motor, a first X-axis screw nut pair, the first X-axis motor is mounted on the first Y-axis moving seat 15, and the first X-axis motor drives the first X-axis moving seat 18 to move along the X-axis direction through the first X-axis screw nut pair. The first X-axis moving seat 18 is provided with a first machining assembly for machining parts, the first machining assembly comprises two first machining power head devices 21, and the two first machining power head devices 21 are respectively arranged on the first X-axis moving seat 18.

The second spindle seat 22 is mounted on the machine base 11 through a second Z-axis linear guide rail pair, and a second spindle 23 with a chuck is mounted on the second spindle seat 22. The second Z-axis driving assembly 24 is configured to drive the second spindle base 22 to move along the Z-axis direction. The second Z-axis driving assembly 24 comprises a second Z-axis motor and a second Z-axis screw nut pair, the second Z-axis motor is mounted on the base 11, and the second Z-axis motor drives the second spindle seat 22 to move along the Z-axis direction through the second Z-axis screw nut pair during operation. The second spindle seat 22 can pass through the second passage 1121 of the second support seat 112 during movement.

Two second Y-axis linear guide pairs are respectively arranged at the top of the second supporting seat 112, a second side Y-axis linear guide pair 27 is arranged on one side, close to the first supporting seat 111, of the second supporting seat 112, and the second Y-axis moving seat 25 is respectively arranged on the second supporting seat 112 through the second Y-axis linear guide pair and the second side Y-axis linear guide pair 27. The second Y-axis driving assembly 26 is used for driving the second Y-axis moving seat 25 to move along the Y-axis direction. The second Y-axis driving assembly 26 includes a second Y-axis motor and a second Y-axis screw nut pair, the second Y-axis motor is mounted on the second support base 112, and the second Y-axis motor drives the second Y-axis moving base 25 to move along the Y-axis direction through the second Y-axis screw nut pair.

The second X-axis moving seat 28 is mounted to the second Y-axis moving seat 25 through two second X-axis linear guide pairs. Two sides of the second Y-axis moving seat 25 are respectively provided with a second side X-axis linear guide pair 30, two sides of the second X-axis moving seat 28 are respectively provided with a second connecting plate 281, and the two second connecting plates 281 are respectively connected with the second Y-axis moving seat 25 through the two second side X-axis linear guide pairs 30, so that the second X-axis moving seat 28 is respectively arranged on the second Y-axis moving seat 25 through the second X-axis linear guide pair and the second side X-axis linear guide pair 30. The second X-axis driving assembly 29 is configured to drive the second X-axis moving seat 28 to move along the X-axis direction. The second X-axis driving assembly 29 includes a second X-axis motor, a second X-axis screw nut pair, the second X-axis motor is mounted on the second Y-axis moving seat 25, and the second X-axis motor drives the second X-axis moving seat 28 to move along the X-axis direction through the second X-axis screw nut pair. The second X-axis moving seat 28 is provided with a second machining assembly for machining parts, the second machining assembly comprises two second machining power head devices 31, and the two second machining power head devices 31 are respectively arranged on the second X-axis moving seat 28.

The first side Y-axis linear guide pair 17 and the second side Y-axis linear guide pair 27 are both guide slider structures.

The double-spindle double-Y composite numerical control machine tool has the advantages that: the first and second side Y-axis linear guide rail pairs and the first and second side X-axis linear guide rail pairs are arranged, so that the movement of the first and second Y-axis movable seats and the movement of the first and second X-axis movable seats are more stable and reliable, and the processing stability and the processing precision of the double-spindle numerical control machine tool are improved; six-axis linkage processing can be realized, the processing is more flexible and convenient, and parts with complex structures can be processed; the n-shaped supporting seat is arranged for installing each part, so that the whole machine structure is more compact, and the whole machine volume is reduced.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The double-spindle double-Y composite numerical control machine tool comprises a machine base (11), a first spindle seat (12), a first Z-axis driving assembly (14), a first Y-axis moving seat (15), a first Y-axis driving assembly (16), a first X-axis moving seat (18), a first X-axis driving assembly (19), a second spindle seat (22), a second Z-axis driving assembly (24), a second Y-axis moving seat (25), a second Y-axis driving assembly (26), a second X-axis moving seat (28) and a second X-axis driving assembly (29);

the first spindle seat (12) is arranged on the machine base (11) through a first Z-axis linear guide rail pair, the first Z-axis driving assembly (14) is used for driving the first spindle seat (12) to move along the Z-axis direction, and a first spindle (13) with a chuck is arranged on the first spindle seat (12); the second spindle seat (22) is arranged on the machine base (11) through a second Z-axis linear guide rail pair, the second Z-axis driving assembly (24) is used for driving the second spindle seat (22) to move along the Z-axis direction, and a second spindle (23) with a chuck is arranged on the second spindle seat (22);

The first Y-axis moving seat (15) is arranged on the base (11) through a first Y-axis linear guide pair, the first Y-axis driving assembly (16) is used for driving the first Y-axis moving seat (15) to move along the Y-axis direction, the first X-axis moving seat (18) is arranged on the first Y-axis moving seat (15) through a first X-axis linear guide pair, the first X-axis driving assembly (19) is used for driving the first X-axis moving seat (18) to move along the X-axis direction, and the first X-axis moving seat (18) is provided with a first processing assembly;

The second Y axle removes seat (25) through second Y axle linear guide pair install in frame (11), second Y axle drive assembly (26) are used for the drive second Y axle removes seat (25) along Y axle direction removal, second X axle removes seat (28) through second X axle linear guide pair install in second Y axle removes seat (25), second X axle drive assembly (29) are used for the drive second X axle removes seat (28) along X axle direction removal, install second processing subassembly on second X axle removes seat (28), its characterized in that:

The machine seat (11) is provided with a first supporting seat (111), a first Y-axis linear guide rail pair is arranged on the first supporting seat (111), a first side Y-axis linear guide rail pair (17) is arranged on the side surface of the first supporting seat (111), a first Y-axis moving seat (15) is arranged on the first supporting seat (111) through the first Y-axis linear guide rail pair and the first side Y-axis linear guide rail pair (17), a first side X-axis linear guide rail pair (20) is arranged on the side surface of the first Y-axis moving seat (15), and a first X-axis moving seat (18) is arranged on the first Y-axis moving seat (15) through the first X-axis linear guide rail pair and the first side X-axis linear guide rail pair (20) respectively;

Be equipped with second supporting seat (112) on frame (11), second Y axle linear guide pair install in on second supporting seat (112), the side of second supporting seat (112) is equipped with second side Y axle linear guide pair (27), second Y axle removes seat (25) respectively through second Y axle linear guide pair and second side Y axle linear guide pair (27) install in second supporting seat (112), the side of second Y axle removes seat (25) is equipped with second side X axle linear guide pair (30), second X axle removes seat (28) respectively through second X axle linear guide pair and second side X axle linear guide pair (30) install in second Y axle removes seat (25).

2. The double-spindle double-Y composite numerical control machine tool according to claim 1, wherein the first supporting seat (111) and the second supporting seat (112) correspond to each other, a first side Y-axis linear guide pair (17) is arranged on one side, close to the second supporting seat (112), of the first supporting seat (111), and a second side Y-axis linear guide pair (27) is arranged on one side, close to the first supporting seat (111), of the second supporting seat (112).

3. The double-spindle double-Y compound numerical control machine tool according to claim 1 or 2, wherein the first support seat (111) and the second support seat (112) are both in an n-shape, the first support seat (111) is provided with a first through hole (1111), the first spindle seat (12) can pass through the first through hole (1111), the second support seat (112) is provided with a second through hole (1121), and the second spindle seat (22) can pass through the second through hole (1121).

4. The double-spindle double-Y composite numerical control machine tool according to claim 1, wherein first side face X-axis linear guide rail pairs (20) are respectively arranged on two sides of the first Y-axis movable seat (15), first connecting plates (181) are respectively arranged on two sides of the first X-axis movable seat (18), and the first connecting plates (181) are connected with the first Y-axis movable seat (15) through the first side face X-axis linear guide rail pairs (20); the two sides of the second Y-axis moving seat (25) are respectively provided with a second side face X-axis linear guide rail pair (30), the two sides of the second X-axis moving seat (28) are respectively provided with a second connecting plate (281), and the second connecting plates (281) are connected with the second Y-axis moving seat (25) through the second side face X-axis linear guide rail pair (30).

5. The double-spindle double-Y composite numerical control machine tool according to claim 1, wherein the first Z-axis driving assembly (14) comprises a first Z-axis motor and a first Z-axis screw nut pair, the first Z-axis motor is mounted on the machine base (11), and the first Z-axis motor drives the first spindle base (12) to move along the Z-axis direction through the first Z-axis screw nut pair; the second Z-axis driving assembly (24) comprises a second Z-axis motor and a second Z-axis screw nut pair, the second Z-axis motor is installed on the base (11), and the second Z-axis motor drives the second spindle seat (22) to move along the Z-axis direction through the second Z-axis screw nut pair.

6. The double-spindle double-Y composite numerical control machine tool according to claim 1, wherein the first Y-axis driving assembly (16) comprises a first Y-axis motor and a first Y-axis screw nut pair, the first Y-axis motor is mounted on the first supporting seat (111), and the first Y-axis motor drives the first Y-axis moving seat (15) to move along the Y-axis direction through the first Y-axis screw nut pair; the second Y-axis driving assembly (26) comprises a second Y-axis motor and a second Y-axis screw nut pair, the second Y-axis motor is installed on the second supporting seat (112), and the second Y-axis motor drives the second Y-axis moving seat (25) to move along the Y-axis direction through the second Y-axis screw nut pair.

7. The double-spindle double-Y composite numerical control machine tool according to claim 1, wherein the first X-axis driving assembly (19) comprises a first X-axis motor and a first X-axis screw nut pair, the first X-axis motor is mounted on the first Y-axis moving seat (15), and the first X-axis motor drives the first X-axis moving seat (18) to move along the X-axis direction through the first X-axis screw nut pair; the second X-axis driving assembly (29) comprises a second X-axis motor and a second X-axis screw nut pair, the second X-axis motor is arranged on the second Y-axis moving seat (25), and the second X-axis motor drives the second X-axis moving seat (28) to move along the X-axis direction through the second X-axis screw nut pair.

8. A double-spindle double-Y compound numerical control machine tool according to claim 1, characterized in that the first machining assembly comprises two first machining power head devices (21), the two first machining power head devices (21) being respectively mounted on the first X-axis moving seat (18); the second machining assembly comprises two second machining power head devices (31), and the two second machining power head devices (31) are respectively installed on the second X-axis moving seat (28).