CN214815256U - Four-axis cutting equipment - Google Patents

Abstract

The utility model mainly relates to the technical field of mechanical cutting, and provides four-axis cutting equipment, wherein an X-axis bearing platform is arranged on a support table and is driven by an X-axis driving component to move in the X-axis direction, a Z-axis bearing platform is arranged on the side surface of the X-axis bearing platform and is driven by a Z-axis driving component to move in the Z-axis direction, a Y-axis bearing platform is arranged on a frame and is driven by a Y-axis driving component to move in the Y-axis direction, a C-axis bearing platform is arranged at the bottom of the Z-axis bearing platform and is driven by a C-axis driving component to rotate by taking the Z-axis as the axial direction, and a cutting component cuts a workpiece to be processed in four directions through an X-axis rotating module, a Z-axis rotating module, a Y-axis rotating module and a C-axis rotating module under the control of preset software, comprises full-automatic trimming operation of all around and central position flashes of the workpiece, the whole equipment has high automation degree and small occupied area, is suitable for practical use and is worth popularizing.

Description

Four-axis cutting equipment

Technical Field

The utility model mainly relates to a mechanical cutting technical field, concretely relates to four-axis cutting is equipped.

Background

With the development of the modern machining industry, the requirements on the cutting quality and precision are continuously improved, the requirements on improving the production efficiency, reducing the production cost and having a high-intelligent automatic cutting function are also improved, particularly, for workpieces manufactured by a die-casting process, burrs are inevitably generated on the periphery and the central split-joint position of the workpieces, and how to reasonably process the burrs is the key for ensuring the product quality.

In the prior art, a mechanical cutting method is usually adopted for the flash of a die casting, a machine can only cut the periphery of a workpiece generally, and cannot accurately cut the inside of the workpiece, and if the flash of the inside of the workpiece needs to be cut, workers often need to manually support the flash on one side of the machine, so that the labor cost is increased undoubtedly, and potential safety hazards exist undoubtedly.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a four-axis cutting equipment for solve the technical problem who provides among the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

four-axis cutting is equipped, including the frame, still include: the supporting parts comprise supporting frames which are arranged on two sides of the upper surface of the rack in pairs and supporting tables between the supporting frames; the X-axis moving module comprises an X-axis driving component and an X-axis bearing platform, and the X-axis bearing platform is arranged on the supporting platform and is driven by the X-axis driving component to move in the X-axis direction; the Z-axis moving module comprises a Z-axis driving component and a Z-axis bearing platform, and the Z-axis bearing platform is arranged on the side surface of the X-axis bearing platform and is driven to move in the Z-axis direction by the Z-axis driving component; the Y-axis moving module comprises a Y-axis driving component and a Y-axis bearing platform, and the Y-axis bearing platform is arranged on the rack and is driven by the Y-axis driving component to move in the Y-axis direction; the C-axis rotating module comprises a C-axis driving assembly and a C-axis bearing platform, and the C-axis bearing platform is arranged at the bottom of the Z-axis bearing platform and is driven by the C-axis driving assembly to rotate by taking the Z axis as the axial direction; and the cutting assembly is arranged on one side of the C-axis bearing platform, and the cutting operation is completed under the combined operation of the X-axis moving module, the Z-axis moving module, the Y-axis moving module and the C-axis rotating module.

Preferably, the X-axis bearing platform comprises a first mounting plate and a second mounting plate which are arranged vertically to each other; the Z-axis bearing platform comprises a third mounting plate which is vertically arranged; the C-axis bearing platform comprises a fourth mounting plate which is horizontally arranged; the first mounting plate is parallel to an XY plane and is in transmission connection with the support table through the X-axis driving assembly; the second mounting plate is parallel to the XZ plane and is fixedly connected to the side surface of the first mounting plate; the third mounting plate is parallel to the XZ plane and is in transmission connection with the second mounting plate through the Z-axis driving assembly; the fourth mounting plate is parallel to the XY plane and is in transmission connection with the third mounting plate through the C-axis driving assembly.

Preferably, the X-axis driving assembly includes: the first linear guide rail is fixedly connected to the support table along the X-axis direction; the first sliding block is fixedly connected to the bottom of the first mounting plate and is matched with the first linear guide rail to guide the X-axis bearing platform to move in the X-axis direction; the first helical rack is fixedly connected to the support platform along the X-axis direction; and the first helical gear is driven by a first motor on the first mounting plate and is matched with the first helical rack to drive the X-axis bearing platform to move in the X-axis direction.

Preferably, the Z-axis drive assembly includes: the second linear guide rail is fixedly connected to the third mounting plate along the Z-axis direction; the second sliding block is fixedly connected to one side, close to the third mounting plate, of the second mounting plate and is matched with the second linear guide rail to guide the Z-axis bearing platform to move in the Z-axis direction; the second helical rack is fixedly connected to the third mounting plate along the Z-axis direction; and the second helical gear is driven by a second motor on the second mounting plate and is matched with the second helical rack to drive the Z-axis bearing platform to move in the Z-axis direction.

Preferably, the C-axis drive assembly includes: and the third motor is fixedly connected with the third mounting plate and drives the C-shaped bearing platform to rotate by taking the Z axis as the axial direction.

Preferably, the Y-axis bearing platform comprises a horizontally arranged fifth mounting plate for placing a workpiece to be processed; the fifth mounting plate is parallel to the XY plane and is in transmission connection with the rack through the Y-axis driving assembly.

Preferably, the Y-axis driving assembly includes: the third linear guide rail is arranged on the rack along the Y-axis direction; the third sliding block is fixedly connected to the bottom of the fifth mounting plate and is matched with the third linear guide rail to guide the Y-axis bearing platform to move in the Y-axis direction; the third helical rack is fixedly connected to the bottom of the fifth mounting plate along the Y-axis direction; and the third bevel gear is driven by a fourth motor on the rack and is matched with the third bevel rack to drive the Y-axis bearing platform to move in the Y-axis direction.

Preferably, the cutting assembly comprises a cutter driven by a fifth motor; and the fifth motor is fixedly connected to the bottom of the C-shaped bearing platform.

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

under the control of preset software, the cutting assembly cuts the workpiece to be processed in four directions through the X-axis moving module, the Z-axis moving module, the Y-axis moving module and the C-axis rotating module, and comprises full-automatic trimming operation of the workpiece and the flashes at the periphery and the center, so that the whole equipment is high in automation degree, small in occupied area and suitable for practical popularization.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is an enlarged explosion schematic diagram of the X-axis moving module of the present invention;

fig. 3 is an enlarged schematic view of the Z-axis moving module of the present invention;

fig. 4 is an enlarged schematic view of the C-axis moving module of the present invention;

fig. 5 is a front schematic view of the Y-axis moving module of the present invention;

fig. 6 is an enlarged schematic view of the inside of the Y-axis moving module of the present invention.

In the figure: 1, a frame; 2, supporting frames; 3, supporting the table; a 4X-axis movement module; 5Z-axis moving module; 6Y-axis moving module; a 7C axis rotation module; 8, cutting the assembly; 9, workpiece; 401 a first mounting plate; 402 a second mounting plate; 301 a first linear guide; 403 a first slider; 302 a first helical rack; 404 a first bevel gear; 405 a first motor; 501 a third mounting plate; 502 a second linear guide; 406 a second slider; 503 second helical rack; 407 a second bevel gear; 408 a second motor; 701 a fourth mounting plate; 504 a third motor; 702 a fifth electric machine; a 801 cutter; 601 a fifth mounting plate; 101 a third linear guide; 602 a third slide; 603 a third helical rack; 102 a fourth motor; 103 a third helical gear.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The utility model provides a four-axis cutting is equipped, and aim at controls cutting assembly through X axle removal module, Z axle removal module, Y axle removal module and C axle rotation module jointly and treats the processing work piece and cut the operation, include to the work piece around with the full-automatic operation of cutting edge of central point position overlap.

Please refer to fig. 1 again, fig. 1 is the overall structure schematic diagram of the four-axis cutting equipment of the present invention, which comprises a frame 1 and further comprises: the supporting part comprises supporting frames 2 which are arranged on two sides of the upper surface of the frame 1 in pairs and supporting tables 3 between the supporting frames 2, the X-axis moving module 4 comprises an X-axis driving assembly and an X-axis bearing platform, and the X-axis bearing platform is arranged on the supporting tables 3 and driven by the X-axis driving assembly to move in the X-axis direction; the Z-axis moving module 5 comprises a Z-axis driving component and a Z-axis bearing platform, and the Z-axis bearing platform is arranged on the side surface of the X-axis bearing platform and is driven to move in the Z-axis direction by the Z-axis driving component; the Y-axis moving module 6 comprises a Y-axis driving assembly and a Y-axis bearing platform, and the Y-axis bearing platform is arranged on the rack and driven to move in the Y-axis direction by the Y-axis driving assembly; the C-axis rotating module 7 comprises a C-axis driving assembly and a C-axis bearing platform, and the C-axis bearing platform is arranged at the bottom of the Z-axis bearing platform and is driven by the C-axis driving assembly to rotate by taking the Z axis as the axial direction; and the cutting assembly 8 is arranged on one side of the C-axis bearing platform and is used for finishing the flash cutting operation of the periphery and the center of the workpiece 9 under the combined operation of the X-axis moving module 4, the Z-axis moving module 5, the Y-axis moving module 6 and the C-axis rotating module 7.

Referring to fig. 2 again, fig. 2 is an enlarged schematic diagram of an X-axis moving module 4, in a preferred embodiment, the X-axis bearing platform includes a first mounting plate 401 and a second mounting plate 402, which are perpendicular to each other; the first mounting plate 401 is parallel to the XY plane and is in transmission connection with the support table 3 through an X-axis driving assembly; the second mounting plate 402 is parallel to the XZ plane and is fixedly connected to the side surface of the first mounting plate 401; the X-axis drive assembly includes: a first linear guide 301 fixedly connected to the support table 3 along the X-axis direction; the first sliding block 403 is fixedly connected to the bottom of the first mounting plate 401 and is matched with the first linear guide rail 301 to guide the movement of the X-axis bearing platform in the X-axis direction; a first helical rack 302 fixedly connected to the support 3 along the X-axis direction; the first helical gear 404 is driven by a first motor 405 on the first mounting plate 401, and drives the X-axis bearing platform to move in the X-axis direction in cooperation with the first helical rack 302.

Please refer to fig. 3, wherein fig. 3 is an enlarged schematic view of the Z-axis moving module 5, and in a preferred embodiment, the Z-axis bearing platform includes a third mounting plate 501 vertically disposed; the third mounting plate 501 is parallel to the XZ plane and is in transmission connection with the second mounting plate 402 through a Z-axis driving assembly; the Z-axis drive assembly includes: a second linear guide 502 fixedly connected to the third mounting plate 501 along the Z-axis direction; the second sliding block 406 is fixedly connected to one side, close to the third mounting plate 501, of the second mounting plate 402 and is matched with the second linear guide rail 502 to guide the movement of the Z-axis bearing platform in the Z-axis direction; a second helical rack 503 fixedly connected to the third mounting plate 501 along the Z-axis direction; the second bevel gear 407 is driven 408 by a second motor on the second mounting plate 402, and drives the Z-axis bearing platform to move in the Z-axis direction in cooperation with the second bevel rack 503

Referring to fig. 4 again, fig. 4 is an enlarged schematic view of the C-axis moving module 7, and in a preferred embodiment, the C-axis bearing platform includes a horizontally disposed fourth mounting plate 701; the fourth mounting plate 701 is parallel to the XY plane and is in transmission connection with the third mounting plate 501 through a C-axis driving assembly; the C-axis drive assembly includes: a third motor 504 fixedly connected to the third mounting plate 501 for driving the C-axis bearing platform to rotate around the Z-axis; the cutting assembly 8 comprises a cutter 801 driven by a fifth motor 702; the fifth motor 702 is fixedly connected to the bottom of the fourth mounting plate 701.

Please refer to fig. 5-6, fig. 5 is a schematic front view of the Y-axis moving module 6, and fig. 6 is an enlarged schematic view of the inside of the Y-axis moving module 6, in a preferred embodiment, the Y-axis bearing platform includes a horizontally disposed fifth mounting plate 601, and the workpiece 9 to be processed is clamped by a clamping tool (not shown) and placed on the fifth mounting plate 601 for performing a cutting operation; the fifth mounting plate 601 is parallel to the XY plane and is in transmission connection with the frame 1 through a Y-axis driving assembly; the Y-axis drive assembly includes: the third linear guide rail 101 is arranged on the rack 1 along the Y-axis direction; the third sliding block 602 is fixedly connected to the bottom of the fifth mounting plate 601 and is matched with the third linear guide rail 101 to guide the motion of the Y-axis bearing platform in the Y-axis direction; the third helical rack 603 is fixedly connected to the bottom of the fifth mounting plate 601 along the Y-axis direction; the third bevel gear 103 is driven by a fourth motor 102 on the frame 1, and drives the Y-axis bearing platform to move in the Y-axis direction in cooperation with a third bevel rack 603.

The above description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the method and the technical solution of the present invention are not substantially improved or directly applied to other occasions without improvement, and are all within the protection scope of the present invention.

Claims (8)

1. Four-axis cutting is equipped, including the frame, its characterized in that still includes:

the supporting parts comprise supporting frames which are arranged on two sides of the upper surface of the rack in pairs and supporting tables between the supporting frames;

the X-axis moving module comprises an X-axis driving component and an X-axis bearing platform, and the X-axis bearing platform is arranged on the supporting platform and is driven by the X-axis driving component to move in the X-axis direction;

the Z-axis moving module comprises a Z-axis driving component and a Z-axis bearing platform, and the Z-axis bearing platform is arranged on the side surface of the X-axis bearing platform and is driven to move in the Z-axis direction by the Z-axis driving component;

the Y-axis moving module comprises a Y-axis driving component and a Y-axis bearing platform, and the Y-axis bearing platform is arranged on the rack and is driven by the Y-axis driving component to move in the Y-axis direction;

the C-axis rotating module comprises a C-axis driving assembly and a C-axis bearing platform, and the C-axis bearing platform is arranged at the bottom of the Z-axis bearing platform and is driven by the C-axis driving assembly to rotate by taking the Z axis as the axial direction; and

and the cutting assembly is arranged on one side of the C-axis bearing platform, and the cutting operation is completed under the combined operation of the X-axis moving module, the Z-axis moving module, the Y-axis moving module and the C-axis rotating module.

2. The four-axis cutting assembly of claim 1, wherein the X-axis bearing platform comprises two first and second mounting plates disposed perpendicular to each other;

the Z-axis bearing platform comprises a third mounting plate which is vertically arranged;

the C-axis bearing platform comprises a fourth mounting plate which is horizontally arranged;

the first mounting plate is parallel to an XY plane and is in transmission connection with the support table through the X-axis driving assembly;

the second mounting plate is parallel to the XZ plane and is fixedly connected to the side surface of the first mounting plate;

the third mounting plate is parallel to the XZ plane and is in transmission connection with the second mounting plate through the Z-axis driving assembly;

the fourth mounting plate is parallel to the XY plane and is in transmission connection with the third mounting plate through the C-axis driving assembly.

3. Four-axis cutting equipment according to claim 2, characterized in that said X-axis drive assembly comprises:

the first linear guide rail is fixedly connected to the support table along the X-axis direction;

the first sliding block is fixedly connected to the bottom of the first mounting plate and is matched with the first linear guide rail to guide the X-axis bearing platform to move in the X-axis direction;

the first helical rack is fixedly connected to the support platform along the X-axis direction; and

and the first helical gear is driven by a first motor on the first mounting plate and is matched with the first helical rack to drive the X-axis bearing platform to move in the X-axis direction.

4. The four-axis cutting apparatus of claim 2, wherein the Z-axis drive assembly comprises:

the second linear guide rail is fixedly connected to the third mounting plate along the Z-axis direction;

the second sliding block is fixedly connected to one side, close to the third mounting plate, of the second mounting plate and is matched with the second linear guide rail to guide the Z-axis bearing platform to move in the Z-axis direction;

the second helical rack is fixedly connected to the third mounting plate along the Z-axis direction; and

and the second helical gear is driven by a second motor on the second mounting plate and is matched with the second helical rack to drive the Z-axis bearing platform to move in the Z-axis direction.

5. Four-axis cutting equipment according to claim 2, characterized in that said C-axis drive assembly comprises:

and the third motor is fixedly connected with the third mounting plate and drives the C-shaped bearing platform to rotate by taking the Z axis as the axial direction.

6. The four-axis cutting assembly of any one of claims 1-5, wherein the Y-axis bearing platform comprises a horizontally disposed fifth mounting plate for placement of a workpiece to be machined;

the fifth mounting plate is parallel to the XY plane and is in transmission connection with the rack through the Y-axis driving assembly.

7. Four-axis cutting equipment according to claim 6, characterized in that said Y-axis drive assembly comprises:

the third linear guide rail is arranged on the rack along the Y-axis direction;

the third sliding block is fixedly connected to the bottom of the fifth mounting plate and is matched with the third linear guide rail to guide the Y-axis bearing platform to move in the Y-axis direction;

the third helical rack is fixedly connected to the bottom of the fifth mounting plate along the Y-axis direction; and

and the third bevel gear is driven by a fourth motor on the rack and is matched with the third bevel rack to drive the Y-axis bearing platform to move in the Y-axis direction.

8. The four-axis cutting apparatus of claim 7, wherein the cutting assembly includes a cutter driven by a fifth motor;

and the fifth motor is fixedly connected to the bottom of the C-shaped bearing platform.

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