CN212762354U - C-axis multi-shaft device for machining center - Google Patents

Abstract

The utility model discloses a C axle multiaxis formula device for machining center, include: the machine body, the upper portion of machine body is equipped with the control cabinet and the both sides of control cabinet are equipped with the slide rail, and the surface mounting of slide rail has horizontal slip subassembly and the upper portion of horizontal slip subassembly to be equipped with the processing subassembly. The utility model discloses expansion end fixed mounting panel at processing subassembly, and the side of mounting panel sets up the mount, the side of mount sets up the axle bed in drive box and inside mounting groove, the axle bed passes through and links to each other between drive shaft and the mount of both sides, the one end of drive shaft links to each other with the power take off end of drive box simultaneously, thereby it makes the axle bed rotate at the mount is inside to drive the drive shaft through the drive box, the axle bed is whole to be rectangle structure setting and four sides all set up the recess simultaneously, the internally mounted of recess has knife rest and knife rest internally mounted to have the tool bit, be connected between tool bit and the inside drive arrangement of axle bed, this kind of setting can be at a plurality of C axles of axle bed internally mounted.

Description

C-axis multi-shaft device for machining center

Technical Field

The utility model relates to a numerical control processing technology field, more specifically are a C axle multiaxis formula device for machining center.

Background

The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts. The numerical control machining center is one of numerical control machines with highest yield and most extensive application in the world at present. The comprehensive processing capacity is strong, a workpiece can finish more processing contents after being clamped once, the processing precision is high, batch workpieces with medium processing difficulty are processed, the efficiency is 5-10 times that of common equipment, especially, the batch processing method can finish processing which cannot be finished by a plurality of common equipment, and the batch processing method is more suitable for single-piece processing or medium-small batch multi-variety production with complex shapes and high precision requirements. The functions of milling, boring, drilling, tapping, cutting threads and the like are integrated on one device, so that the device has multiple technological means. The machining center is classified according to the spatial position of the main shaft during machining into: horizontal and vertical machining centers. The method is classified according to the process application: a boring and milling machining center and a combined machining center. The special classification according to function is as follows: single, double and multiple working table machining centers. A single shaft, a double shaft, a triple shaft and a machining center with a replaceable spindle box.

The existing machining center controls the moving direction and the machining depth of a main shaft through a sliding assembly and a machining assembly in the machining process, and a tool bit lacks the moving flexibility. Therefore, a new technical solution needs to be provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a C axle multiaxis formula device for machining center has solved the moving direction and the depth of machining that current machining center controlled the main shaft through slip subassembly and processing subassembly in the course of working many times among the prior art, and the tool bit lacks the problem of the flexibility of removal.

In order to achieve the above object, the utility model provides a following technical scheme: a C-axis multi-axis apparatus for a machining center, comprising: the organism, the both sides that the upper portion of organism was equipped with control cabinet and control cabinet are equipped with the slide rail, the surface mounting of slide rail has the upper portion of horizontal slip subassembly and horizontal slip subassembly to be equipped with the processing subassembly, the side that the removal end of processing subassembly was equipped with mounting panel and mounting panel is equipped with the mount, the mount passes through fixed connection between bolt and the mounting panel, inside mounting groove and the right side of being equipped with of mount is equipped with the drive box, the inside both sides that are equipped with axle bed and axle bed of mounting groove are equipped with the drive shaft, the one end of drive shaft links to each other with the mounting groove and the other end links to each other with the power take off end of drive box, the axle bed passes through to rotate between drive shaft and the drive box and the mounting groove to be connected.

As a preferred embodiment of the present invention, the bottom of the machine body is provided with a base and a screw thread connection between the base and the machine body, and the base is provided with six groups and arranged in parallel with each other.

As a preferred embodiment of the present invention, the surface of the console is provided with an additional rotation axis and the left side of the additional rotation axis is provided with a fixing base, and the fixing base is slidably connected to the console.

As an embodiment of the present invention, the shaft seat is integrally a groove with a rectangular structure around the rectangular structure, and the tool rest is located inside the groove.

As a preferred embodiment of the present invention, the slide rail is a double-shaft transmission structure.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses expansion end fixed mounting panel at processing subassembly, and the side of mounting panel sets up the mount, the side of mount sets up the axle bed in drive box and inside mounting groove, the axle bed passes through and links to each other between drive shaft and the mount of both sides, the one end of drive shaft links to each other with the power take off end of drive box simultaneously, thereby it makes the axle bed rotate at the mount is inside to drive the drive shaft through the drive box, the axle bed is whole to be rectangle structure setting and four sides all set up the recess simultaneously, the internally mounted of recess has knife rest and knife rest internally mounted to have the tool bit, be connected between tool bit and the inside drive arrangement of axle bed, this kind of setting can be at a plurality of C axles of axle bed internally mounted.

Drawings

FIG. 1 is a schematic view of the overall structure of the machining center of the present invention;

FIG. 2 is a schematic view of the internal structure of the fixing frame of the present invention;

fig. 3 is a schematic side view of the shaft seat of the present invention.

In the drawing, a machine body-1, a base-2, an additional rotating shaft-3, a fixed seat-4, an operating board-5, a transverse sliding component-6, a sliding rail-7, a processing component-8, a fixed frame-9, a tool bit-10, a mounting plate-11, a mounting groove-12, a shaft seat-13, a tool rest-14, a driving box-15, a groove-16 and a driving shaft-17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a C-axis multi-axis apparatus for a machining center, comprising: a machine body 1, wherein an operating board 5 is arranged on the upper portion of the machine body 1, slide rails 7 are arranged on two sides of the operating board 5, a transverse sliding assembly 6 is arranged on the surface of each slide rail 7, a processing assembly 8 is arranged on the upper portion of the transverse sliding assembly 6, a mounting plate 11 is arranged at the moving end of each processing assembly 8, a fixing frame 9 is arranged on the side surface of the mounting plate 11, the fixing frame 9 is fixedly connected with the mounting plate 11 through bolts, a mounting groove 12 is arranged inside the fixing frame 9, a driving box 15 is arranged on the right side of the fixing frame 9, a shaft seat 13 is arranged inside the mounting groove 12, a driving shaft 17 is arranged on two sides of the shaft seat 13, one end of the driving shaft 17 is connected with the mounting groove 12, the other end of the driving shaft 17 is connected with the power output end of the driving box 15, the shaft seat 13 is, at the expansion end fixed mounting panel 11 of processing subassembly 8, and the side of mounting panel 11 sets up mount 9, the side of mount 9 sets up axle bed 13 in drive box 15 and inside mounting groove 12, axle bed 13 links to each other between drive shaft 17 and the mount 9 through both sides, the one end of drive shaft 17 links to each other with the power take off end of drive box 15 simultaneously, thereby drive shaft 17 through drive box 15 and make axle bed 13 rotate inside mount 9, axle bed 13 is whole to be the rectangle structure setting and the four sides all sets up recess 16 simultaneously, recess 16's internally mounted has knife rest 14 and knife rest 14 internally mounted has tool bit 10, be connected between tool bit 10 and the inside drive arrangement of axle bed 13, this kind of setting can be at a plurality of C axles of axle bed internally mounted, the change of tool bit 10 has been reduced, its flexibility has been.

Further improved, as shown in fig. 1: the bottom of organism 1 is equipped with base 2 and threaded connection between base 2 and the organism 1, base 2 is provided with six groups and parallel arrangement each other, and threaded connection between base 2 and the organism 1 can adjust the height between base 2 and the organism 1, has increased the stability of organism 1 simultaneously, makes it keep the level.

Further improved, as shown in fig. 1: the surface of control cabinet 5 is equipped with additional rotation axis 3 and the left side of additional rotation axis 3 is equipped with fixing base 4, sliding connection between fixing base 4 and the control cabinet 5, additional rotation axis 3 cooperation fixing base 4 can be fixed by the machined part, can drive the work piece through additional rotation axis 3 simultaneously and rotate, conveniently processes.

In a further improvement, as shown in fig. 3: the whole axle bed 13 that is the setting of rectangle structure and axle bed 13 is equipped with the recess 16 of rectangle structure all around, knife rest 14 is located inside recess 16, and knife rest 14 sets up the surplus space that has increased between tool bit 10 and the mounting groove 12 inside recess 16, avoids colliding between tool bit 10 and the mounting groove 12.

Further improved, as shown in fig. 1: slide rail 7 is the setting of biax transmission structure, and slide rail 7 of biax transmission structure has increased the slip stability of horizontal slip subassembly.

The utility model discloses expansion end fixed mounting panel 11 at processing subassembly 8, and the side of mounting panel 11 sets up mount 9, mount 9's side sets up axle bed 13 in setting up drive box 15 and inside mounting groove 12, axle bed 13 links to each other between drive shaft 17 and the mount 9 through both sides, drive shaft 17's one end links to each other with drive box 15's power take off end simultaneously, thereby it makes axle bed 13 rotate inside mount 9 to drive shaft 17 through drive box 15, axle bed 13 is whole to be the rectangle structure setting and the four sides all sets up recess 16 simultaneously, recess 16's internally mounted has knife rest 14 and knife rest 14 internally mounted has tool bit 10, be connected between tool bit 10 and the inside drive arrangement of axle bed 13, this kind of setting can be at a plurality of C axles of axle bed internally mounted, the change of tool bit 10 has been reduced, its flexibility has been.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. 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 (5)

1. A C axle multiaxis formula device for machining center which characterized in that: the method comprises the following steps: the machine body (1), the upper portion of the machine body (1) is provided with an operating board (5), sliding rails (7) are arranged on two sides of the operating board (5), a transverse sliding assembly (6) is arranged on the surface of each sliding rail (7), a processing assembly (8) is arranged on the upper portion of the transverse sliding assembly (6), a mounting plate (11) is arranged at the moving end of each processing assembly (8), a fixing frame (9) is arranged on the side face of the mounting plate (11), the fixing frame (9) is fixedly connected with the mounting plate (11) through bolts, a mounting groove (12) is arranged inside the fixing frame (9), a driving box (15) is arranged on the right side of the fixing frame (9), a shaft seat (13) is arranged inside the mounting groove (12), driving shafts (17) are arranged on two sides of the shaft seat (13), one end of each driving shaft (17) is connected with the mounting groove (12, the tool is characterized in that the shaft seat (13) is rotatably connected with the mounting groove (12) through a driving shaft (17) and a driving box (15), tool rests (14) are arranged on the periphery of the shaft seat (13), tool bits (10) are arranged in the tool rests (14), and the tool bits (10) are inserted in the tool rests (14).

2. The C-axis multi-axis apparatus for a machining center according to claim 1, wherein: the bottom of organism (1) is equipped with base (2) and threaded connection between base (2) and the organism (1), base (2) are provided with six groups and parallel arrangement each other.

3. The C-axis multi-axis apparatus for a machining center according to claim 1, wherein: the surface of the control console (5) is provided with an additional rotating shaft (3), a fixed seat (4) is arranged on the left side of the additional rotating shaft (3), and the fixed seat (4) is in sliding connection with the control console (5).

4. The C-axis multi-axis apparatus for a machining center according to claim 1, wherein: the whole shaft seat (13) is arranged in a rectangular structure, a groove (16) with a rectangular structure is formed in the periphery of the shaft seat (13), and the tool rest (14) is located inside the groove (16).

5. The C-axis multi-axis apparatus for a machining center according to claim 1, wherein: the slide rail (7) is arranged in a double-shaft transmission structure.

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