CN218612934U - Horizontal full-automatic processing equipment - Google Patents

Abstract

The utility model relates to the technical field of machining equipment, in particular to horizontal full-automatic machining equipment; comprises a frame, a mounting seat, a workpiece carrier, a first processing device and a second processing device; the first processing device comprises a first angle adjusting piece, a rotating seat, an X-direction driving piece, an X-direction sliding plate, a Y-direction driving piece, a Y-direction sliding seat, a Z-direction driving piece, a Z-direction sliding plate, a second angle adjusting piece and a spindle assembly; the first angle adjusting piece drives the rotating seat to rotate on an XY plane; the X-direction driving piece is arranged on the rotating seat and drives the X-direction sliding plate to move along the length direction of the rotating seat, the Y-direction driving piece is arranged on the X-direction sliding plate and drives the Y-direction sliding seat to move, the Z-direction driving piece is arranged on the Y-direction sliding seat and drives the Z-direction sliding plate to move up and down, and the second angle adjusting piece is arranged on the Z-direction sliding plate and drives the spindle assembly to rotate on a YZ plane; the purpose of quickly adjusting different positions and different inclination angles of the cutter is achieved, and the production requirement is met.

Description

Horizontal full-automatic processing equipment

Technical Field

The utility model relates to a machining equipment technical field especially relates to a horizontal full-automatic processing equipment.

Background

As shown in fig. 3-1, a workpiece to be machined is irregular, the left and right ends of the workpiece and the inner side of the length direction need to be machined according to design machining requirements, the left and right ends are in an inclined plane or a curved surface, the production design requirements need to be machined on the surface of the inclined plane or the curved surface, when the size of the workpiece is small, the machining method of the machining center can meet the production machining requirements, when the size of the workpiece is large, the machining center cannot accommodate the workpiece, so that a traditional machining method needs to be adopted, when the surface to be machined is in an inclined plane or a curved surface, the machining requirements in the angle aspect are difficult to meet by adopting traditional machining equipment, even if the machining purpose is realized by adjusting the placing angle of the workpiece to match with a cutter of the machining equipment, but the method has the defects of low machining precision, low production efficiency and uncontrollable production quality, so that the method does not accord with the high-precision production requirements, and needs to be improved.

Disclosure of Invention

In order to overcome the shortcoming that production efficiency is low, the machining precision is low that exists among the prior art, the utility model aims to provide a horizontal full-automatic processing equipment, through once fixing a position the work piece, the angle of cutter cooperates the processing surface in the adjustment equipment, satisfies the production requirement at curved surface or scarf, realizes improving production efficiency, improves processingquality's purpose.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a horizontal full-automatic processing device comprises a rack, and further comprises a mounting seat, a workpiece carrier, a first processing device and a second processing device, wherein the workpiece carrier, the first processing device and the second processing device are all arranged on the mounting seat, and the mounting seat, the workpiece carrier, the first processing device and the second processing device are all positioned in the rack;

the first machining device comprises a first angle adjusting piece, a rotating seat, an X-direction driving piece, an X-direction sliding plate, a Y-direction driving piece, a Y-direction sliding seat, a Z-direction driving piece, a Z-direction sliding plate, a second angle adjusting piece and a spindle assembly;

the first angle adjusting piece is arranged on the mounting seat, the rotating seat is rotatably connected to the mounting seat, and the first angle adjusting piece drives the rotating seat to rotate on an XY plane;

the X-direction driving piece is arranged on the rotating seat and drives the X-direction sliding plate to move along the length direction of the rotating seat, the Y-direction driving piece is arranged on the X-direction sliding plate and drives the Y-direction sliding seat to move, the Z-direction driving piece is arranged on the Y-direction sliding seat and drives the Z-direction sliding plate to move up and down, and the second angle adjusting piece is arranged on the Z-direction sliding plate and drives the spindle assembly to rotate on a YZ plane;

the spindle assembly is used for installing an external cutter.

Furthermore, the first angle adjusting part comprises a first driving part and a first connecting part, the first driving part is arranged on the mounting seat, the first connecting part is fixedly connected with the rotating seat, and the first driving part drives the first connecting part to rotate.

Furthermore, first driving piece includes first hand wheel and the first worm of being connected with first hand wheel, first connecting piece is equipped with first arc portion and locates the first tooth portion of first arc portion, first tooth portion with first worm meshing, first hand wheel drives first worm and rotates and drive first connecting piece rotatoryly.

Furthermore, the second angle adjusting part comprises a second driving part and a second connecting part, the second driving part is arranged on the Z-direction sliding plate, the second connecting part is fixedly arranged on the main shaft assembly, and the second driving part drives the second connecting part to rotate.

Furthermore, the second driving part comprises a second hand wheel and a second worm connected with the second hand wheel, the second connecting part is provided with a second arc part and a second tooth part arranged on the second arc part, the second tooth part is meshed with the second worm, and the second hand wheel drives the second worm to rotate and drives the second connecting part to rotate.

Furthermore, the second angle adjusting part further comprises an adapter and a rotary table, the adapter is fixedly arranged on the Z-direction sliding plate, the rotary table is rotatably connected to the adapter, the second connecting part is connected with the rotary table, and the spindle assembly is connected with the rotary table.

Furthermore, the first processing device further comprises a cutter box body, and the cutter box body is arranged on the Y-direction sliding seat.

The utility model has the advantages that: through setting up first angle adjustment piece, roating seat, X to driving piece, X to slide, Y to driving piece, Y to slide, Z to driving piece, Z to slide, second angle adjustment piece and main shaft assembly, realize the purpose of different positions of quick adjustment cutter and different inclination, reach the production requirement.

Drawings

FIG. 1-1 is a schematic perspective view of the present invention;

fig. 1-2 are schematic views of the internal three-dimensional structure of the present invention;

fig. 1-3 are schematic structural views illustrating a state in which the workpiece carrier of the present invention carries a workpiece to be processed;

fig. 2-1 is a schematic structural view of the first processing device of the present invention mounted on the mounting base;

fig. 2-2 is a schematic three-dimensional structure diagram of the first processing device of the present invention;

fig. 2-3 are schematic views of the first processing device of the present invention;

fig. 2-4 are schematic views illustrating an assembled state of the first angle adjustment member and the rotary base according to the present invention;

FIGS. 2-5 are exploded views of the first angle adjustment member and the rotary base of the present invention;

FIGS. 2-6 are schematic views of the assembly structure of the second angle adjustment member and the spindle assembly according to the present invention;

FIGS. 2-7 are schematic views illustrating the operation principle and structure of the second angle adjusting member of the present invention;

fig. 2-8 are schematic views of a first angle adjustment member of the present invention;

fig. 2-9 are schematic views of a second angle adjustment member of the present invention in a second view angle split configuration;

fig. 3-1 is a schematic structural view of a workpiece to be processed.

The reference numerals include:

100-mounting base 200-workpiece carrier 300-first processing device

31-first Angle adjustment 311-first Driving part 3111-first hand wheel

3112 first worm 312 first connecting member 3121 first arc portion

3122 first toothed segment 32 rotary base 331X directional drive

332-X-direction sliding plate 341-Y-direction driving piece 342-Y-direction sliding seat

351-Z drive 352-Z slide 36-second angle adjustment

361-second driving piece 3611-second hand wheel 3612-second worm

362-second connecting piece 3621-second arc 3622-second worm

363-adaptor 364-turntable 37-spindle assembly

38-tool magazine 400-second machining device 500-workpiece to be machined.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

Referring to fig. 1-1 to fig. 2-9, the present invention relates to a horizontal full-automatic processing apparatus, which comprises a frame, and further comprises a mounting base 100, a workpiece carrier 200, a first processing device 300, and a second processing device 400, wherein the workpiece carrier 200, the first processing device 300, and the second processing device 400 are all disposed on the mounting base 100, and the mounting base 100, the workpiece carrier 200, the first processing device 300, and the second processing device 400 are all located in the frame;

the first processing device 300 comprises a first angle adjusting part 31, a rotary base 32, an X-direction driving part 331, an X-direction sliding plate 332, a Y-direction driving part 341, a Y-direction sliding seat 342, a Z-direction driving part 351, a Z-direction sliding plate 352, a second angle adjusting part 36 and a spindle assembly 37;

the first angle adjusting piece 31 is arranged on the mounting base 100, the rotating base 32 is rotatably connected to the mounting base 100, and the first angle adjusting piece 31 drives the rotating base 32 to rotate on an XY plane;

the X-direction driving element 331 is disposed on the rotating base 32 and drives the X-direction sliding plate 332 to move along the length direction of the rotating base 32, the Y-direction driving element 341 is disposed on the X-direction sliding plate 332 and drives the Y-direction sliding base 342 to move, the Z-direction driving element 351 is disposed on the Y-direction sliding base 342 and drives the Z-direction sliding plate 352 to move up and down, and the second angle adjusting element 36 is disposed on the Z-direction sliding plate 352 and drives the spindle assembly 37 to rotate on the YZ plane;

the spindle assembly 37 is used for mounting an external tool.

Specifically, in the present embodiment, the workpiece carrier 200 is disposed in the middle of the mounting base 100, the number of the first processing devices 300 is two, two first processing devices 300 are both mounted on the mounting base 100 and located on opposite sides of the workpiece carrier 200, one second processing device 400 is mounted between the two first processing devices 300, the two first processing devices 300 and the one second processing device 400 are substantially triangular, the workpiece 500 to be processed is first fixed on the workpiece carrier 200, a tool is mounted on the spindle assembly 37 of the first processing device 300, the tool is synchronously mounted on the clamping portion of the second processing device 400, the X-direction driving device 331 first drives the X-direction sliding plate 332 to move to a preset position, the Y-direction driving device 341 drives the Y-direction sliding seat 342 to move to a preset position, the Z-direction driving device 351 drives the Z-direction sliding plate 352 to move to a preset position, the preliminary adjustment of the spindle assembly 37 at a spatial position of X, Y, Z is completed, then the rotation of the rotation base 32 to a preset angle in an XY plane, the synchronous adjustment of the base 32, the X-direction sliding plate 351, the Z-direction sliding plate 352, the Z-direction sliding plate 37 is moved to a preset position, the spindle assembly is finally mounted on the rotation plane 3736, and the spindle assembly 3762, the spindle assembly reaches the preset rotation angle adjustment of the spindle assembly 3736 xz-Z-direction adjustment mechanism 5237, the spindle assembly, and the spindle assembly 3763, the spindle assembly 52, the spindle assembly is adjusted to rotate to achieve the same as the fine adjustment of the spindle assembly.

By arranging the first angle adjusting part 31, the rotating seat 32, the X-direction driving part 331, the X-direction sliding plate 332, the Y-direction driving part 341, the Y-direction sliding seat 342, the Z-direction driving part 351, the Z-direction sliding plate 352, the second angle adjusting part 36 and the spindle assembly 37, the purpose of quickly adjusting different positions and different inclination angles of the tool is achieved, and the production requirement is met.

The first angle adjusting member 31 includes a first driving member 311 and a first connecting member 312, the first driving member 311 is disposed on the mounting seat 100, the first connecting member 312 is fixedly connected to the rotating seat 32, the first driving member 311 drives the first connecting member 312 to rotate, the first connecting member 312 is in a T shape, and the first driving member 311 drives the first connecting member 312 to rotate, so that the purpose of adjusting the rotating seat 32 to rotate by a certain angle is achieved.

The first driving member 311 includes a first hand wheel 3111 and a first worm 3112 connected to the first hand wheel 3111, the first connecting member 312 is provided with a first arc portion 3121 and a first tooth portion 3122 disposed on the first arc portion 3121, the first tooth portion 3122 is engaged with the first worm 3112, the first hand wheel 3111 drives the first worm 3112 to rotate and drives the first connecting member 312 to rotate, the first arc portion 3121 is disposed so that the first tooth portion 3122 is integrally disposed in an arc shape, and under the rotation of the first worm 3112, teeth of the first worm 3112 are engaged with the first tooth portion 3122, so as to drive the first connecting member 312 and the rotary base 32 to rotate, that is, the purpose of the spindle assembly 37 rotating at a preset angle on the XY plane is achieved.

The second angle adjusting element 36 includes a second driving element 361 and a second connecting element 362, the second driving element 361 is disposed on the Z-direction sliding plate 352, the second connecting element 362 is fixedly disposed on the spindle assembly 37, and the second driving element 361 drives the second connecting element 362 to rotate.

The second driving member 361 includes a second wheel 3611 and a second worm 3612 connected to the second wheel 3611, the second connecting member 362 is provided with a second arc portion 3621 and a second tooth portion 3622 provided on the second arc portion 3621, the second tooth portion 3622 is engaged with the second worm 3612, the second wheel 3611 drives the second worm 3612 to rotate and drives the second connecting member 362 to rotate, the second arc portion 3621 is arranged so that the second tooth portion 3622 is integrally arranged in an arc shape, and under the rotation of the second worm 3612, teeth of the second worm 3612 are engaged with the second tooth portion 3622, so that the second connecting member 362 and the spindle assembly 37 are driven to rotate in a YZ plane by a preset angle.

The second angle adjusting part 36 further comprises an adapter 363 and a rotary table 364, the adapter 363 is fixedly arranged on the Z-direction sliding plate 352, the rotary table 364 is rotatably connected to the adapter 363, the second connecting part 362 is connected to the rotary table 364, the spindle assembly 37 is connected to the rotary table 364, the adapter 363 is provided with a convex ring, the rotary table 364 is provided with a groove, the convex ring extends into the groove, and the central axis of the convex ring coincides with the central axis of the groove to ensure the accuracy and the temperature of rotation.

The first processing device 300 further comprises a cutter box body 38, the cutter box body 38 is arranged on the Y-direction sliding seat 342, and the cutter box body 38 is used for storing cutters with different specifications, so that the cutters can be conveniently replaced in the production process.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (7)

1. The utility model provides a horizontal full-automatic processing equipment, includes the frame, its characterized in that: the machining device is characterized by further comprising a mounting seat (100), a workpiece carrier (200), a first machining device (300) and a second machining device (400), wherein the workpiece carrier (200), the first machining device (300) and the second machining device (400) are all arranged on the mounting seat (100), and the mounting seat (100), the workpiece carrier (200), the first machining device (300) and the second machining device (400) are all located in the rack;

the first machining device (300) comprises a first angle adjusting piece (31), a rotating seat (32), an X-direction driving piece (331), an X-direction sliding plate (332), a Y-direction driving piece (341), a Y-direction sliding seat (342), a Z-direction driving piece (351), a Z-direction sliding plate (352), a second angle adjusting piece (36) and a spindle assembly (37);

the first angle adjusting piece (31) is arranged on the mounting seat (100), the rotating seat (32) is rotatably connected to the mounting seat (100), and the first angle adjusting piece (31) drives the rotating seat (32) to rotate on an XY plane;

the X-direction driving piece (331) is arranged on the rotating base (32) and drives the X-direction sliding plate (332) to move along the length direction of the rotating base (32), the Y-direction driving piece (341) is arranged on the X-direction sliding plate (332) and drives the Y-direction sliding base (342) to move, the Z-direction driving piece (351) is arranged on the Y-direction sliding base (342) and drives the Z-direction sliding plate (352) to move up and down, and the second angle adjusting piece (36) is arranged on the Z-direction sliding plate (352) and drives the spindle assembly (37) to rotate on a YZ plane;

the spindle assembly (37) is used for mounting an external cutter.

2. The horizontal full-automatic processing equipment according to claim 1, characterized in that: the first angle adjusting piece (31) comprises a first driving piece (311) and a first connecting piece (312), the first driving piece (311) is arranged on the mounting seat (100), the first connecting piece (312) is fixedly connected with the rotating seat (32), and the first driving piece (311) drives the first connecting piece (312) to rotate.

3. The horizontal full-automatic processing equipment according to claim 2, characterized in that: first driving piece (311) include first hand wheel (3111) and first worm (3112) be connected with first hand wheel (3111), first connecting piece (312) are equipped with first arc portion (3121) and locate first tooth portion (3122) of first arc portion (3121), first tooth portion (3122) with first worm (3112) meshing, first hand wheel (3111) drive first worm (3112) and rotate and drive first connecting piece (312) and rotate.

4. The horizontal full-automatic processing equipment according to claim 1, characterized in that: the second angle adjusting part (36) comprises a second driving part (361) and a second connecting part (362), the second driving part (361) is arranged on the Z-direction sliding plate (352), the second connecting part (362) is fixedly arranged on the spindle assembly (37), and the second driving part (361) drives the second connecting part (362) to rotate.

5. The horizontal full-automatic processing equipment according to claim 4, characterized in that: the second driving part (361) comprises a second hand wheel (3611) and a second worm (3612) connected with the second hand wheel (3611), the second connecting part (362) is provided with a second arc part (3621) and a second tooth part (3622) arranged on the second arc part (3621), the second tooth part (3622) is meshed with the second worm (3612), and the second hand wheel (3611) drives the second worm (3612) to rotate and drives the second connecting part (362) to rotate.

6. The horizontal full-automatic processing equipment according to claim 4, characterized in that: the second angle adjusting piece (36) further comprises an adapter piece (363) and a rotary table (364), the adapter piece (363) is fixedly arranged on the Z-direction sliding plate (352), the rotary table (364) is rotatably connected to the adapter piece (363), the second connecting piece (362) is connected with the rotary table (364), and the spindle assembly (37) is connected with the rotary table (364).

7. The horizontal full-automatic processing equipment according to claim 1, characterized in that: the first machining device (300) further comprises a cutter box body (38), and the cutter box body (38) is arranged on the Y-direction sliding seat (342).

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