CN220480844U - Opposite double-spindle turning and milling center of double-channel double-tool magazine - Google Patents

Abstract

The utility model discloses a double-channel double-spindle turning and milling center with opposite double tool magazines, which comprises the following components: a machine tool provided with a working surface; x slidably mounted on working surface ₁ A first work assembly in the axial direction, the first work assembly including a first workpiece spindle, the first workpiece spindle being along Z ₂ An axial movement; is slidably arranged on the working surface X ₂ A second work assembly in the axial direction, the second work assembly including a second workpiece spindle, the second workpiece spindle being along Z ₁ An axial movement; x is X ₁ Axis and X ₂ Parallel, Z ₁ Axis and Z ₂ The axes are parallel; a first power turret along X ₂ The axial direction is arranged on the working surface in a sliding way; a second power turret along X ₁ The axle direction slides and sets up on the working face, and the milling center that this application provided, every passageway all has four working shafts, improvement machining efficiency that can be great satisfies the processing of complicated spare part, and the spare part of two passageway processing simultaneously can be exchanged, realizes the processing to spare part multiport, has avoided the precision influence that causes because of the frequent clamp of spare part.

Description

Opposite double-spindle turning and milling center of double-channel double-tool magazine

Technical Field

The utility model belongs to the field of machining, and particularly relates to a double-channel double-tool magazine opposite double-spindle turning and milling center.

Background

The existing milling compound center in the market is single-channel and is generally 3-axis (X axis, Y axis and Z axis), and under the condition of complex parts and multiple processing procedures, the machine type cannot meet the processing requirements of the parts. When such a model compound center processes a multi-process part, repeated clamping is required, which results in an influence on processing accuracy, and a plurality of devices are required, which is a pressure on an enterprise from both site and economical aspects.

Therefore, the double-channel double-spindle turning and milling center with double tool magazines is provided, and all working procedures of complex parts can be processed in one turning and milling center, so that the field is saved, the economic benefit is improved, and the automatic processing of the complex parts is realized.

Disclosure of Invention

The utility model mainly aims to provide a double-channel double-tool-magazine opposite double-spindle turning and milling center which is used for machining multi-workpiece parts in a double-channel and double-tool-magazine mode.

According to an embodiment of the first aspect of the present utility model, there is provided a dual-channel dual-spindle dual-magazine opposite-spindle turning and milling center, comprising: a machine tool provided with a working surface;

is slidably arranged on the working surface X ₁ A first work assembly in the axial direction, the first work assembly comprising a first workpiece spindle, the projection of the first workpiece spindle onto the work surface and X ₁ The axis is vertical, the main axis of the first workpiece is along Z ₂ An axial movement;

is slidably arranged on the working surface X ₂ A second working assembly in the axial direction, the second working assemblyThe assembly comprises a second workpiece spindle, the projection of the second workpiece spindle on the working surface and X ₂ The axis is vertical, the main axis of the second workpiece is along Z ₁ An axial movement; x is X ₁ Axis and X ₂ Parallel, Z ₁ Axis and Z ₂ The axes are parallel;

a first power turret along X ₂ The axial direction is arranged on the working surface;

a second power turret along X ₁ The axial direction is set on the working surface.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, which is disclosed by the embodiment of the first aspect of the utility model, a first sliding rail and a second sliding rail are arranged on the working surface, and the first sliding rail is arranged along the X direction ₁ The second slide rail is arranged along the X direction ₂ The axial direction sets up, first work subassembly slides and sets up on first slide rail, the second work subassembly slides and sets up on the second slide rail.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, the first working assembly comprises a first bottom plate, the first bottom plate is arranged on the first sliding rail in a sliding manner, and the first bottom plate is provided with a Z-direction guide rail ₁ The axial direction is provided with a first Z-direction sliding rail, and the first workpiece spindle is arranged on the first Z-direction sliding rail.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, the first working assembly further comprises a first power unit and a second power unit, the first power unit pushes the first bottom plate to slide on the first sliding rail, and the second power unit pushes the first workpiece spindle to slide on the first Z-direction sliding rail.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, the second working assembly comprises a second bottom plate, the second bottom plate is arranged on the second sliding rail in a sliding manner, and the second bottom plate is provided with a Z-direction guide rail ₂ The second Z-direction sliding rail is arranged in the axial direction, and the second workpiece spindle is arranged on the second Z-direction sliding rail.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, the second working assembly comprises a third power unit and a fourth power unit, the third power unit pushes the second bottom plate to slide on the second sliding rail, and the fourth power unit pushes the second workpiece spindle to slide in the second Z direction.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, which is disclosed by the embodiment of the first aspect of the utility model, the first power unit, the second power unit, the third power unit and the fourth power unit have the same structure and comprise a lead screw and a servo motor, one end of the lead screw of the first power unit is in transmission connection with the servo motor, and the other end of the lead screw of the first power unit is in threaded connection with the first bottom plate; one end of a screw rod of the second power unit is in transmission connection with the servo motor, and the other end of the screw rod of the second power unit is in threaded connection with the first workpiece spindle; one end of a screw rod of the third power unit is in transmission connection with the servo motor, and the other end of the screw rod of the third power unit is in threaded connection with the second bottom plate; one end of a screw rod of the fourth power unit is in transmission connection with the servo motor, and the other end of the screw rod of the fourth power unit is in threaded connection with a main shaft of the second workpiece.

According to the opposite double-spindle turning and milling center of the double-channel double-tool magazine, the first power tool turret and the second power tool turret have the same structure and are power tool turrets with Y axes.

According to the dual-channel dual-tool magazine opposite dual-spindle turning and milling center, the first tool turret and the second tool turret are provided with 12 tool stations.

One of the above technical solutions of the present utility model has at least one of the following advantages or beneficial effects:

the application provides a biax turn-milling center with two tool magazine and binary channels, every passageway has four working shafts, improvement machining efficiency that can be great satisfies the processing of complicated spare part, and the spare part of two passageway processing simultaneously can exchange, realizes the processing to the spare part multiple working procedure, has avoided the precision influence that causes because of the frequent clamp of spare part.

Drawings

The utility model is further described below with reference to the drawings and examples;

fig. 1 is a schematic structural view of the present utility model.

Wherein, the machine tool is 1-and the working surface is 11-;

2-first working components, 21-first workpiece spindles, 22-first sliding rails, 23-first bottom plates and 24-first Z-direction sliding rails;

the device comprises a 3-second working assembly, a 31-second workpiece spindle, a 32-second slide rail, a 33-second bottom plate and a 34-second Z-direction slide rail;

4-a first power turret;

5-a second power turret.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present utility model and are not to be construed as limiting the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may explicitly or implicitly include one or more features.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the term "connected" should be construed broadly, and for example, it may be a fixed connection or an active connection, or it may be a detachable connection or a non-detachable connection, or it may be an integral connection; may be mechanically connected, may be electrically connected, or may be in communication with each other; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements, indirect communication or interaction relationship between the two elements.

The following disclosure provides many different embodiments, or examples, for implementing different aspects of the utility model.

The double-channel double-tool magazine opposite double-spindle turning and milling center shown in fig. 1 comprises a machine tool 1, wherein a working surface 11 is formed on the upper end surface of the machine tool 1. On the working surface 11 there are a first working assembly 2 and a second working assembly 3, wherein the first working assembly 2 is slidably arranged on the working surface 11 at X ₁ The second working assembly 3 is slidably arranged on the working surface 11 in the axial direction ₂ Axial direction, X ₁ Axis and X ₂ The axes are parallel. The first work assembly 2 comprises a first workpiece spindle 21, the projection of the first workpiece spindle 21 onto the work surface 11 and X ₁ The axis is vertical, and the first workpiece spindle 21 is used for driving the first component to perform rotary motion. The second work assembly 3 comprises a second workpiece spindle 31, the projection X of the second workpiece spindle 31 on the work surface 11 ₂ The axis is vertical, and the second workpiece spindle 31 is used for driving the second component to perform rotary motion. The first workpiece spindle 21 can also be along Z ₂ The second workpiece spindle 31 is also movable in the axial direction along Z ₁ Move in the axial direction, Z ₁ Axis and Z ₂ The axes are parallel.

X on the working surface 11 ₂ The axial direction is also provided with a first power turret 4, and the first power turret 4 is fixedly arrangedIs arranged on the working surface 11, and is arranged on the X of the working surface 11 ₁ The second power turret 5 is further arranged in the axial direction, the second power turret 5 is fixedly arranged on the working face 11, and the first power turret 4 and the second power turret 5 are used for machining corresponding first parts and second parts.

In some embodiments of the present utility model, the working surface 11 is further provided with a first sliding rail 22 and a second sliding rail 32, and the first sliding rail 22 is along X ₁ The second slide rail 32 is disposed along the X direction ₂ The first working assembly 2 is slidably arranged on the first slide rail 22, and the second working assembly 3 is arranged on the second slide rail 32.

In some embodiments of the present utility model, the first working assembly 2 comprises a first base plate 23, the first base plate 23 is slidably arranged on the first slide rail 22, and the first base plate 23 is provided with a first guide rail along Z ₁ The first workpiece spindle 21 is disposed on the first Z-direction slide rail 24, which is disposed in the axial direction. The first workpiece spindle 21 is slidably disposed on the first Z-direction slide rail 24 by its own housing.

The first work assembly 2 further includes a first power unit that pushes the first base plate 23 to slide on the first slide rail 22, and a second power unit that pushes the first workpiece spindle 21 to slide on the first Z-direction slide rail 24.

The second working assembly 3 comprises a second base plate 33, the second base plate 33 is arranged on the second sliding rail 32 in a sliding way, and the second base plate 33 is provided with a Z-direction ₂ The second Z-direction slide rail 34 is disposed in the axial direction, and the second workpiece spindle 31 is slidably disposed on the second Z-direction slide rail 34 through its own housing.

The second work assembly 3 further includes a third power unit that pushes the second base plate 33 to slide on the second slide rail 32, and a fourth power unit that pushes the second workpiece spindle 31 to slide on the second Z-direction slide rail 34.

Specifically, the first power unit, the second power unit, the third power unit and the fourth power unit have the same structure and all comprise a screw rod and a servo motor. The first power unit comprises a first lead screw and a first servo motor, the second power unit comprises a second lead screw and a second servo motor, the third power unit comprises a third lead screw and a third servo motor, and the fourth power unit comprises a fourth lead screw and a fourth servo motor. One end of the first lead screw is in transmission connection with a first servo motor fixed on the working surface 11, the other end of the first lead screw is in threaded connection with the first bottom plate 23, the lead screw is driven to rotate through the first servo motor, and then the first bottom plate 23 slides on the first sliding rail 22. Similarly, the second power unit pushes the first workpiece spindle 21 to slide on the first Z-direction slide rail 24, the third power unit pushes the second bottom plate 33 to slide on the second slide rail 32, and the fourth power unit pushes the second workpiece spindle 31 to slide on the second Z-direction slide rail 34.

In some embodiments of the present utility model, the first power turret 4 and the second power turret 5 have the same structure and are both power turrets with Y-axis, and the first power turret 4 and the second power turret 5 are each provided with 12 tool stations, so as to facilitate different processing procedures.

In the present utility model, the double channels refer to a channel formed by the first workpiece spindle 21 and the first power turret 4 and a channel formed by the second workpiece spindle 31 and the second power turret 5, and each channel includes four axes of a Z axis, an X axis, a rotating axis of the workpiece spindle, and a Y axis of the power turret, so that the degree of freedom is high. The two channels move the parts from the first workpiece main shaft 21 to the second workpiece main shaft 31 through the external mechanical arm to realize the part conversion of parts to parts, the parts are machined from different directions, the four machining shafts of each channel are combined, the parts can be machined in multiple ways, the parts are clamped at most once in the machining process, and the machining precision is greatly improved. The structure that this application provided cooperates the manipulator and can realize automatic unloading, realizes the processing of all processes of spare part.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (8)

1. The utility model provides a dual spindle turning and milling center of opposite pair of two tool magazine which characterized in that includes:

a machine tool (1) provided with a working surface (11);

x slidably mounted on the working surface (11) ₁ A first work component (2) in the axial direction, the first work component (2) comprising a first workpiece spindle (21), the projection of the first workpiece spindle (21) onto the working surface (11) and X ₁ The axis is vertical, the first workpiece main shaft (21) is along Z ₂ An axial movement;

x slidably mounted on the working surface (11) ₂ A second work component (3) in the axial direction, the second work component (3) comprising a second workpiece spindle (31), the projection of the second workpiece spindle (31) onto the working surface (11) and X ₂ The axis is vertical, the second workpiece spindle (31) is along Z ₁ An axial movement; x is X ₁ Axis and X ₂ Parallel, Z ₁ Axis and Z ₂ The axes are parallel;

a first power turret (4) along X ₂ The axial direction is arranged on the working surface (11);

a second power turret (5) along X ₁ The axial direction is arranged on the working surface (11);

the first power turret (4) and the second power turret (5) have the same structure and are power turrets with Y shafts.

2. The dual channel dual tool magazine counter dual spindle turn-milling center of claim 1, wherein: the working surface (11) is provided with a first sliding rail (22) and a second sliding rail (32), and the first sliding rail (22) is arranged along the X direction ₁ The second slide rail (32) is arranged along the X direction ₂ The first working assembly (2) is arranged on the first sliding rail (22) in a sliding mode, and the second working assembly (3) is arranged on the second sliding rail (32) in a sliding mode.

3. The dual channel dual tool magazine of claim 2Opposite double spindle turning and milling center, its characterized in that: the first working assembly (2) comprises a first bottom plate (23), the first bottom plate (23) is arranged on the first sliding rail (22) in a sliding way, and the first bottom plate (23) is provided with a Z-shaped part ₁ And the first workpiece spindle (21) is arranged on the first Z-direction sliding rail (24).

4. A dual channel dual tool magazine counter dual spindle turn-milling center as claimed in claim 3 wherein: the first working assembly (2) further comprises a first power unit and a second power unit, the first power unit pushes the first bottom plate (23) to slide on the first sliding rail (22), and the second power unit pushes the first workpiece spindle (21) to slide on the first Z-direction sliding rail (24).

5. The dual channel dual tool magazine counter dual spindle turn-milling center of claim 4, wherein: the second working assembly (3) comprises a second bottom plate (33), the second bottom plate (33) is arranged on the second sliding rail (32) in a sliding way, and the second bottom plate (33) is provided with a sliding plate along Z ₂ And the second workpiece spindle (31) is arranged on the second Z-direction sliding rail (34).

6. The dual channel dual tool magazine counter dual spindle turn-milling center of claim 5, wherein: the second working assembly (3) further comprises a third power unit and a fourth power unit, the third power unit pushes the second bottom plate (33) to slide on the second sliding rail (32), and the fourth power unit pushes the second workpiece spindle (31) to slide in the second Z direction.

7. The dual channel dual tool magazine counter dual spindle turn-milling center of claim 6, wherein: the first power unit, the second power unit, the third power unit and the fourth power unit have the same structure and comprise a screw rod and a servo motor, one end of the screw rod of the first power unit is in transmission connection with the servo motor, and the other end of the screw rod of the first power unit is in threaded connection with a first bottom plate (23); one end of a screw rod of the second power unit is in transmission connection with the servo motor, and the other end of the screw rod of the second power unit is in threaded connection with the first workpiece main shaft (21); one end of a screw rod of the third power unit is in transmission connection with the servo motor, and the other end of the screw rod of the third power unit is in threaded connection with the second bottom plate (33); one end of a screw rod of the fourth power unit is in transmission connection with the servo motor, and the other end of the screw rod of the fourth power unit is in threaded connection with a second workpiece spindle (31).

8. The dual channel dual tool magazine counter dual spindle turn-milling center of claim 1, wherein: the first power turret (4) and the second power turret (5) are provided with 12 cutter stations.