CN211135541U - Multi-shaft turret type vertical and horizontal machining center - Google Patents

Abstract

The utility model discloses a horizontal machining center is found to multiaxis sword tower formula, its structure includes: a numerical control turntable, a workpiece is placed on the numerical control turntable, multi-axial displacement is realized through a secondary X-axis servo motor, a secondary Y-axis servo motor and a secondary Z-axis servo motor on a second upright post under the action of a secondary slide rail, the tool turret at the front end moves to one side of the numerical control rotary table to process the working surface corresponding to the workpiece, and similarly, under the action of the first-stage slide rail, multi-axial displacement is realized through the first-stage X-axis servo motor, the first-stage Y-axis servo motor and the first-stage Z-axis servo motor on the first upright post, so that the tool turret arranged at the front end moves to the working surface required to be processed by the workpiece to process the workpiece, the lathe can rapidly finish multi-surface machining on a workpiece on the basis of a turret with a plurality of cutters through vertical and horizontal machining tables on two sides of the turntable, the workpiece does not need to be moved for secondary processing, the requirement on the size of a processing workshop is reduced, and the workpiece processing quality is improved.

Description

Multi-shaft turret type vertical and horizontal machining center

Technical Field

The utility model relates to the technical field of machinery, especially, relate to a multiaxis sword tower formula is found horizontal machining center.

Background

At present, when a machining center carries out machining of a large number of different types, operations such as drilling and boring need to be carried out, the turret can be provided with different tools, and the needed tools can be selected according to needs, so that the machining efficiency and management of an automatic lathe are greatly facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be not enough to prior art existence, the utility model aims at providing a horizontal machining center is found to multiaxis sword tower formula to because the worker face of the required processing of work piece needs the sword tower to process it from a plurality of directions during the prior art lathe function of solution, however people rotate the work piece again or move another lathe and carry out secondary operation with the work piece after processing a worker face on a lathe usually, this demand of not only expanding the workshop on the basis that consumes manpower and materials, and carry out secondary operation to the work piece after removing and still great error or deviation are likely to appear in the utmost point, cause extravagant more time and former work piece product, the lower problem of practicality.

In order to achieve the above purpose, the present invention is realized by the following technical solutions: the utility model provides a horizontal machining center is found to multiaxis sword tower formula which the structure includes: the numerical control rotary table, a first upright post, a cutter tower and a second upright post, wherein the first upright post and the second upright post are arranged at two sides of the numerical control rotary table, the cutter tower is arranged in front of the first upright post and the second upright post, the first upright post also comprises a first-stage X-axis servo motor, a first-stage slide rail and a first-stage Z-axis servo motor, one-level Y axle servo motor, one-level X axle servo motor, one-level Z axle servo motor all is equipped with counter weight jar rather than corresponding one-level slide rail with one-level Y axle servo motor one side, the sword tower passes through the one-level slide rail and realizes multiaxis displacement in one side of numerical control revolving stage, the second stand still includes second grade Z axle servo motor, second grade Y axle servo motor, second grade X axle servo motor, the second grade slide rail, second grade Z axle servo motor, second grade Y axle servo motor all is equipped with counter weight jar rather than corresponding second grade slide rail with second grade X axle servo motor one side, the sword tower passes through the second grade slide rail and realizes multiaxis displacement at the opposite side of numerical control revolving stage.

Preferably, the device also comprises a base and a chip removal vehicle, wherein the chip removal vehicle is arranged on one side of the base.

Preferably, the numerical control turntable is mounted at the upper end of the base.

Preferably, the turret is provided with a plurality of machining tools in common.

Preferably, the first upright column and the second upright column arranged on two sides of the numerical control turntable are respectively vertically and horizontally mounted.

Preferably, the two sides of the numerical control turntable are respectively provided with a cutter tower, and the directions of the cutter towers are different.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect: a workpiece is placed on the numerical control rotary table, multi-axial displacement is realized through a secondary X-axis servo motor, a secondary Y-axis servo motor and a secondary Z-axis servo motor on the second upright post under the action of a secondary slide rail, the tool turret at the front end moves to one side of the numerical control rotary table to process the working surface corresponding to the workpiece, and similarly, under the action of the first-stage slide rail, multi-axial displacement is realized through the first-stage X-axis servo motor, the first-stage Y-axis servo motor and the first-stage Z-axis servo motor on the first upright post, so that the tool turret arranged at the front end moves to the working surface required to be processed by the workpiece to process the workpiece, the lathe can rapidly finish multi-surface machining on a workpiece on the basis of a turret with a plurality of cutters through vertical and horizontal machining tables on two sides of the turntable, the workpiece does not need to be moved for secondary processing, the requirement on the size of a processing workshop is reduced, and the workpiece processing quality is improved.

Drawings

Fig. 1 is a schematic structural view of a multi-axis turret type vertical and horizontal machining center of the present invention;

fig. 2 is a schematic view of a top view structure of the multi-axis turret type vertical and horizontal machining center of the present invention.

The names of the parts indicated by the numerical references in the drawings are as follows: the numerical control lathe comprises a numerical control rotary table-1, a base-2, a primary X-axis servo motor-3, a primary slide rail-4, a first upright post-5, a primary Z-axis servo motor-6, a counterweight cylinder-7, a turret-8, a secondary Z-axis servo motor-9, a secondary Y-axis servo motor-10, a second upright post-11, a primary Y-axis servo motor-12, a secondary X-axis servo motor-13, a secondary slide rail-14 and a chip removal vehicle-15.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described below by combining with the specific embodiments.

Referring to fig. 1-2, the present invention provides a multi-axis turret type vertical and horizontal machining center, which comprises: the numerical control rotary table 1, a first upright post 5, a cutter tower 8 and a second upright post 11, wherein the first upright post 5 and the second upright post 11 are arranged at two sides of the numerical control rotary table 1, the cutter tower 8 is arranged in front of the first upright post 5 and the second upright post 11, the first upright post 5 further comprises a first-stage X-axis servo motor 3, a first-stage slide rail 4, a first-stage Z-axis servo motor 6 and a first-stage Y-axis servo motor 12, one side of the first-stage X-axis servo motor 3, one side of the first-stage Z-axis servo motor 6 and one side of the first-stage Y-axis servo motor 12 are respectively provided with a counterweight cylinder 7 and a corresponding first-stage slide rail 4, the cutter tower 8 realizes multi-axial displacement at one side of the numerical control rotary table 1 through the first-stage slide rail 4, the second upright post 11 further comprises a second-stage Z-axis servo motor 9, a second-stage Y-axis servo motor 10, a second-stage X-axis servo motor 13 and a second-stage, the turret 8 realizes multi-axial displacement at the opposite side of numerical control revolving stage 1 through second grade slide rail 14, still includes base 2, chip removal car 15, and chip removal car 15 sets up in 2 one sides of base, and numerical control revolving stage 1 is installed in the upper end of base 2, is equipped with a plurality of processing cutters on the turret 8 altogether, and first stand 5 and the second stand 11 that 1 both sides of numerical control revolving stage were equipped with respectively are for founding horizontal installation, and 1 both sides of numerical control revolving stage respectively are equipped with turret 8 and the direction of turret 8 differs.

When the lathe is used for processing a workpiece, firstly, the workpiece is placed on the numerical control rotary table 1, the workpiece surface to be processed corresponds to the first upright post 5 and the second upright post 11, then, under the action of a secondary slide rail 14, multi-axial displacement is realized through a secondary X-axis servo motor 13, a secondary Y-axis servo motor 10 and a secondary Z-axis servo motor 9 on the second upright post 11, so that the cutter tower 8 at the front end moves to one side of the numerical control rotary table 1 for processing the workpiece surface corresponding to the workpiece, and similarly, under the action of a primary slide rail 4, multi-axial displacement is realized through a primary X-axis servo motor 3, a primary Y-axis servo motor 12 and a primary Z-axis servo motor 6 on the first upright post 5, so that the cutter tower 8 arranged at the front end moves to the workpiece surface to be processed for processing, therefore, the workpiece can be quickly processed with multiple surfaces on the cutter tower 8 with a plurality of cutters on one lathe.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a horizontal machining center is found to multiaxis sword tower formula which the structure includes: numerical control revolving stage (1), first stand (5), sword tower (8), second stand (11), first stand (5) and second stand (11) are installed in the both sides of numerical control revolving stage (1), and first stand (5) all are equipped with sword tower (8), its characterized in that with second stand (11) the place ahead: the first upright post (5) also comprises a first-stage X-axis servo motor (3), a first-stage slide rail (4), a first-stage Z-axis servo motor (6) and a first-stage Y-axis servo motor (12), wherein one sides of the first-stage X-axis servo motor (3), the first-stage Z-axis servo motor (6) and the first-stage Y-axis servo motor (12) are respectively provided with a balance weight cylinder (7) and the corresponding first-stage slide rail (4), the cutter tower (8) realizes multi-axial displacement on one side of the numerical control rotary table (1) through the first-stage slide rail (4), the second upright post (11) also comprises a second-stage Z-axis servo motor (9), a second-stage Y-axis servo motor (10), a second-stage X-axis servo motor (13) and a second-stage slide rail (14), one sides of the second-stage Z-axis servo motor (9), the second-stage Y-axis servo motor (10, the turret (8) realizes multi-axial displacement on the other side of the numerical control turntable (1) through a secondary slide rail (14).

2. The multi-axis turret type vertical and horizontal machining center according to claim 1, wherein: the chip removal device is characterized by further comprising a base (2) and a chip removal vehicle (15), wherein the chip removal vehicle (15) is arranged on one side of the base (2).

3. The multi-axis turret type vertical and horizontal machining center according to claim 1 or 2, wherein: the numerical control rotary table (1) is arranged at the upper end of the base (2).

4. The multi-axis turret type vertical and horizontal machining center according to claim 1, wherein: the cutter tower (8) is provided with a plurality of processing cutters.

5. The multi-axis turret type vertical and horizontal machining center according to claim 1, wherein: the first upright post (5) and the second upright post (11) arranged on two sides of the numerical control turntable (1) are respectively vertically and horizontally mounted.

6. The multi-axis turret type vertical and horizontal machining center according to claim 1, wherein: two sides of the numerical control turntable (1) are respectively provided with a tool turret (8), and the directions of the tool turrets (8) are different.

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