CN221019727U - Double-spindle single-turret numerical control machine tool - Google Patents

Abstract

The utility model provides a double-spindle single-tool-turret numerical control machine tool, and belongs to the field of machine tools. The double-spindle machine tool solves the problem of low machining efficiency of the existing double-spindle machine tool. The double-spindle single-tool-tower numerical control machine tool comprises a machine tool base which is arranged in an inclined structure, wherein a linear guide rail frame and a movable guide rail frame are paved on the machine tool base, a numerical control tool tower which is used for synchronous or asynchronous cutting processing is arranged on the linear guide rail frame, a fixed spindle seat I is arranged on the machine tool base, a movable spindle seat II is arranged on the movable guide rail frame, spindles with chucks are arranged on the spindle seat I and the spindle II, movable seats which are used for respectively driving the numerical control tool tower and the spindle seat to move in the X/Y axis direction are arranged on the linear guide rail frame and the movable guide rail frame, a driving mechanism I which is used for driving the numerical control tool tower and the spindle seat to move in the X axis direction is arranged on the linear guide rail frame and the movable guide rail frame, and a center is arranged on the side part of the spindle seat II. The utility model has the advantages of high efficiency and synchronous processing.

Description

Double-spindle single-turret numerical control machine tool

Technical Field

The utility model belongs to the field of machine tools, and relates to a numerical control machine tool, in particular to a double-spindle single-tool-turret numerical control machine tool.

Background

When the numerical control machine tool processes a workpiece, the workpiece is fixed on a fixture of the numerical control machine tool, and then the workpiece is processed through a cutter power head. Therefore, the numerical control machine tool can perform not only milling processing on the workpiece but also drilling, tapping and other processing on the side surface or end surface of the workpiece.

At present, the common double-spindle numerical control machine tool on the market often has some defects: the parts cannot be machined at the same time, the machining time is long, and the machining efficiency is low.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides a double-spindle single-turret numerical control machine tool which is simple in structure and capable of achieving synchronous machining.

The aim of the utility model can be achieved by the following technical scheme: the double-spindle single-tool-tower numerical control machine tool comprises a machine tool base which is arranged in an inclined structure, wherein a linear guide rail frame and a movable guide rail frame are paved on the machine tool base;

The machine tool base is provided with a fixed spindle seat I, the movable guide rail frame is provided with a movable spindle seat II, and the spindle seat I and the spindle II are respectively provided with a spindle with a chuck;

The linear guide rail frame and the movable guide rail frame are respectively provided with a movable seat for driving the numerical control tool turret and the main shaft seat to move in the X/Y axis direction;

The linear guide rail frame and the movable guide rail frame are respectively provided with a first driving mechanism for driving the numerical control tool turret and the spindle seat to move in the X-axis direction;

and a center is arranged on two side parts of the spindle seat.

In the above-mentioned two main shaft single tool turret digit control machine tool, the digit control tool turret and main shaft seat two respectively activity set up on corresponding removal seat, all lay the guide rail that supplies digit control tool turret, or main shaft seat two Y axle direction to remove on this removal seat.

In the above-mentioned two main shaft single tool turret digit control machine tool, all be provided with on the removal seat and be used for driving the digit control tool turret, or the second actuating mechanism that the second Y axle direction of main shaft seat removed, and this actuating mechanism and actuating mechanism are servo motor and ball cooperation transmission drive its removal with actuating mechanism one.

In the above-mentioned two main shaft single-tool-turret numerically-controlled machine tool, the first main shaft seat and the second main shaft seat are arranged on the machine tool base in a corresponding structure, and the second main shaft seat is driven by the first moving mechanism and the second moving mechanism in a matching manner to realize moving feeding.

In the above-mentioned two-spindle single-turret numerical control machine tool, the numerical control turret may be provided with main/sub tools for cutting processing, respectively, and the main/sub tools may perform synchronous cutting processing or asynchronous cutting processing on the workpieces on the first spindle mount and the second spindle mount, respectively.

In the double-spindle single-turret numerical control machine tool, the center is fixedly arranged on the side part of the main spindle seat II, and the main spindle seat II is driven to move by the cooperation of the moving mechanism I and the moving mechanism II, so that the center is driven to move.

In the double-spindle single-turret numerical control machine tool, a machine tool metal plate for preventing cutting scrap iron from sputtering is arranged on the machine tool base.

Compared with the prior art, the numerical control machine tool with the double main shafts and the single tool turret has compact structural design, and in the machining process of the workpiece on the first main shaft seat by the numerical control tool turret, the numerical control tool turret in the machining process of the workpiece is matched and moved by the second main shaft seat which can move along the X/Y axis direction, so that the technical effect of double-station synchronous machining of the numerical control machine tool is realized, the machining efficiency of the numerical control machine tool is greatly improved, and the machining time is saved.

Drawings

Fig. 1 is a schematic diagram of the three-dimensional structure of the double-spindle single-turret numerical control machine tool.

Fig. 2 is a schematic diagram of the internal three-dimensional structure of the double-spindle single-turret numerical control machine tool.

In the figure, 1, a machine tool base; 2. a linear guide rail frame; 3. moving the guide rail frame; 4. a numerical control turret; 5. a spindle seat I; 6. a spindle seat II; 7. a movable seat; 8. a center; 9. and (5) machine tool metal plates.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 and 2, the double-spindle single-tool-tower numerical control machine tool comprises a machine tool base 1 which is arranged in an inclined structure, a linear guide rail frame 2 and a movable guide rail frame 3 are paved on the machine tool base 1, a numerical control tool tower 4 for synchronous or asynchronous cutting processing is arranged on the linear guide rail frame 2, a fixed spindle seat I5 is arranged on the machine tool base 1, a movable spindle seat II 6 is arranged on the movable guide rail frame 3, spindles with chucks are respectively arranged on the spindle seat I5 and the spindle II, a movable seat 7 which respectively drives the numerical control tool tower 4 and the spindle seat II 6X/Y to move in the axial direction is arranged on the linear guide rail frame 2 and the movable guide rail frame 3, and a driving mechanism I which is used for driving the numerical control tool tower 4 and the spindle seat II 6X to move in the axial direction is arranged on the linear guide rail frame 2 and the movable guide rail frame 3, and a center 8 is arranged on the side part of the spindle seat II 6.

The numerical control tool turret 4 is compact in structural design, and in the machining process of a workpiece on the first spindle seat 5, the second spindle seat 6 which can move along the X/Y axis direction is utilized to cooperatively move the numerical control tool turret 4 in the machining process and synchronously cut, so that the technical effect of double-station synchronous machining of a numerical control machine tool is realized, the machining efficiency is greatly improved, and the machining time is saved.

The numerical control tool turret 4 is provided with a main/auxiliary tool which is respectively used for processing the workpiece on the first spindle seat 5 and the second spindle seat, and the numerical control tool turret 4 drives the main tool to enter the workpiece on the first spindle seat 5 to perform cutting processing on the workpiece on the second spindle seat 6 by utilizing the characteristic that the second spindle seat 6 can move in the X/Y axis direction, and the second spindle seat 6 moves and cooperates with the numerical control tool turret 4 to enable the auxiliary tool positioned on the numerical control tool turret 4 to perform cutting processing on the workpiece on the second spindle seat 6, so that synchronous cutting processing is realized;

Because the numerical control turret 4 also moves when processing the workpiece on the first spindle seat 5, the second spindle seat 6 moves and cooperates with the movement track of the numerical control turret 4 to realize cutting processing, and the cutting movement feed amount of the second spindle seat 6 needs to be 2 times or several times of the movement feed amount of the numerical control turret 4.

Further, in order to facilitate synchronous cutting or asynchronous cutting of the numerical control turret 4, the numerical control turret 4 and the spindle seat two 6 are respectively movably arranged on the corresponding moving seat 7, guide rails for moving the numerical control turret 4 or the spindle seat two 6Y axis direction are respectively laid on the moving seat 7, driving mechanisms two for driving the numerical control turret 4 or the spindle seat two 6Y axis direction to move are respectively arranged on the moving seat 7, and the driving mechanisms two are matched with the ball screw to drive the servo motor to move.

In further detail, in order to realize synchronous machining or asynchronous machining of the workpieces on the first spindle seat 5 and the second spindle seat 6 at the same time, the first spindle seat 5 and the second spindle seat 6 are arranged on the machine tool base 1 in a corresponding structure, the second spindle seat 6 is driven by the first moving mechanism and the second moving mechanism to realize moving feeding, the numerical control tool turret 4 can be respectively provided with a main/auxiliary tool for cutting machining, and the main/auxiliary tools respectively perform synchronous cutting machining or asynchronous cutting machining on the workpieces on the first spindle seat 5 and the second spindle seat 6.

Further, the center 8 is fixedly arranged on the side part of the second spindle seat 6, and the second spindle seat 6 is driven to move by the cooperation of the first moving mechanism and the second moving mechanism, so that the center 8 is driven to move.

Preferably, the machine tool base 1 is provided with a machine tool metal plate 9 for preventing the cutting scrap iron from sputtering.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although the terms of the machine tool base 1, the linear guide frame 2, the movable guide frame 3, the numerical control turret 4, the first spindle seat 5, the second spindle seat 6, the movable seat 7, the center 8, the machine tool sheet metal 9, and the like are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (7)

1. The double-spindle single-turret numerical control machine tool comprises a machine tool base (1) which is arranged in an inclined structure, wherein a linear guide rail frame (2) and a movable guide rail frame (3) are paved on the machine tool base (1), and the double-spindle single-turret numerical control machine tool is characterized in that a numerical control turret (4) for cutting is arranged on the linear guide rail frame (2);

The machine tool base (1) is provided with a fixed spindle seat I (5), the movable guide rail frame (3) is provided with a movable spindle seat II (6), and the spindle seat I (5) and the spindle II are respectively provided with a spindle with a chuck;

The linear guide rail frame (2) and the movable guide rail frame (3) are respectively provided with a movable seat (7) for driving the numerical control tool turret (4) and the spindle seat II (6) to move in the X/Y axis direction;

The linear guide rail frame (2) and the movable guide rail frame (3) are respectively provided with a first driving mechanism for driving the numerical control tool turret (4) and the spindle seat II (6) to move in the X-axis direction;

And a center (8) is arranged on the side part of the second spindle seat (6).

2. The numerical control machine tool with double main shafts and single tool turret according to claim 1, wherein the numerical control tool turret (4) and the main shaft seat two (6) are respectively movably arranged on a corresponding moving seat (7), and guide rails for the numerical control tool turret (4) or the main shaft seat two (6) to move along the Y-axis direction are respectively laid on the moving seat (7).

3. The double-spindle single-turret numerical control machine tool according to claim 2, wherein the moving bases (7) are respectively provided with a driving mechanism II for driving the numerical control turret (4) or the spindle base II (6) to move in the Y-axis direction, and the driving mechanism II and the driving mechanism I are respectively a servo motor and a ball screw to drive the servo motor and the ball screw to move in a matched transmission manner.

4. The numerical control machine tool with double main shafts and single tool turret according to claim 1, wherein the first main shaft seat (5) and the second main shaft seat (6) are arranged on the machine tool base (1) in a corresponding structure, and the second main shaft seat (6) realizes moving feeding through the matching transmission of the first moving mechanism and the second moving mechanism.

5. The numerical control machine tool with double main shafts and single tool turret according to claim 1, wherein the numerical control tool turret (4) can be respectively provided with a main/auxiliary tool for cutting machining, and the main/auxiliary tool respectively performs synchronous cutting machining or asynchronous cutting machining on workpieces on a main shaft seat I (5) and a main shaft seat II (6).

6. The double-spindle single-turret numerical control machine tool according to claim 1, wherein the center (8) is fixedly arranged on the side part of the second spindle seat (6), and the second spindle seat (6) is driven to move by the cooperation of the first moving mechanism and the second moving mechanism, so that the center (8) is driven to move.

7. A double spindle single turret numerical control machine according to claim 1, characterized in that a machine metal plate (9) for preventing cutting scrap iron from sputtering is provided on the machine base (1).