LU93407B1 - Arc-surface stone processing machine - Google Patents

Abstract

The present invention discloses a machine capable of cutting column bases and column caps and processing arc-line plates. The machine comprises a frame (100), an upright column (1), a rotary table (2) and a cutting machine main body (3), wherein the cutting machine main body (3) comprises a spindle box assembly (4) and a rotation device (5), the spindle box assembly (4) is provided with a first tool bit (41) and a second tool bit (42) that are symmetrically arranged, the spindle box assembly (4) is arranged on the rotation device (5), and the rotation device (5) drives the spindle box assembly (4) to rotate to exchange working positions of the first tool bit (41) and the second tool bit (42). According to an arc-surface stone processing machine provided by the present invention, the cutting machine main body (3) is provided with the first tool bit (41) fitted for cutting the column bases and the column caps and the second tool bit (42) fitted for processing patterns or grooves, and through the rotation device (5), the exchanging of the working positions of the first tool bit (41) and the second tool bit (42) is achieved; and the arc-surface stone processing machine is convenient in use, can process column surfaces with complex patterns, has high processing precision and can meet high-quality column processing requirements

Description

ARC-SURFACE STONE PROCESSING MACHINE

BACKGROUND

Technical Field

The present invention relates to the technical field of stone processing devices, and in particular to an arc-surface stone processing machine.

Related Art

The existing stone cutting machine is mainly used for processing strip stones, and columnar stones are processed mainly by a stone profiling machine. However, when the stone profiling machine processes arc stones with the large diameter, the processing time is long and profiling is difficult. Furthermore, the stone profiling machine cannot cut column bases and column caps.

Summary

In view of disadvantages in the prior art, an objective of the present invention is to provide an arc-surface stone processing machine.

In order to achieve the objective described above, a technical scheme adopted by the present invention is as follows: the arc-surface stone processing machine comprises a frame, an upright column, a rotary table and a cutting machine main body, the upright column and the rotary table are arranged on the frame in front and back, and the cutting machine main body is arranged on the upright column in a lifting manner and can move along the upright column back and forth; the arc-surface stone processing machine is characterized in that the cutting machine main body comprises a spindle box assembly and a rotation device, the spindle box assembly is provided with a first tool bit and a second tool bit that are symmetrically arranged, the spindle box assembly is arranged on the rotation device, and the rotation device drives the spindle box assembly to rotate to exchange working positions of the first tool bit and the second tool bit.

Preferably, the rotation device comprises a rotary table seat, a rotating component, a rotary table face plate, a rotary table turbine and a rotary worm, the rotary table face plate is rotatably arranged on the rotary table seat through the rotating component, a cavity for accommodating the rotary table turbine and the rotary worm is formed between the rotary table seat and the rotary table face plate, the rotary table turbine is fixedly connected with the bottom surface of the rotary table face plate, and the rotary worm is meshed with the rotary table turbine and drives the rotary table face plate to rotate by the rotary table turbine.

Preferably, the rotation device further comprises a driving motor and a reducer, the driving motor is connected with the reducer, and an output end of the reducer is connected with the rotary worm.

Preferably, the rotation device further comprises a worm sleeve, the worm sleeve is detachably connected with the rotary table seat, and the rotary worm is rotatably sleeved by the worm sleeve.

Preferably, the rotating component comprises a central shaft fixedly connected with the rotary table face plate, a shaft sleeve arranged at the middle part of the rotary table seat, and a swivel bearing that sleeves the central shaft, and the central shaft is rotatably sleeved by the shaft sleeve.

Preferably, the swivel bearing is a single-direction thrust ball bearing.

Preferably, locating holes for fixing the spindle box assembly are formed in the surface of the rotary table face plate.

Preferably, an annular groove is formed in the bottom of the rotary table face plate, a T-shaped bolt that penetrates through the rotary table seat is arranged in the annular groove, and the rotary table seat and the rotary table face plate are locked through the T-shaped bolt.

Preferably, a spring washer is arranged on the T-shaped bolt.

Preferably, the arc-surface stone processing machine further comprises a transverse movement driving device, a track is arranged on the frame, a sliding block adapted to the track is arranged at the bottom of the upright column, and the transverse movement driving device is connected with the sliding block to drive the upright column to slide in a frame length direction back and forth.

It can be known based on above description of the present invention: according to the arc-surface stone processing machine provided by the present invention, the cutting machine main body is provided with the first tool bit fitted for cutting a column base and a column cap and the second tool bit fitted for processing arc-shaped abbatre, and through the rotation device, the exchanging of the working positions of the first tool bit and the second tool bit is achieved; and the arc-surface stone processing machine is convenient in use, can process arc-line plates with complex patterns, achieves multiple purposes in one machine, has high processing precision and can meet high-quality stone processing requirements.

Brief Description of Drawings FIG. 1 is a structural schematic diagram of an arc-surface stone processing machine when a first tool bit is located at a working position; FIG. 2 is a side view of an arc-surface stone processing machine when a first tool bit is located at a working position; FIG. 3 is a side view of an arc-surface stone processing machine when a second tool bit is located at a working position; FIG. 4 is a structural schematic diagram of a double-tool-bit rotation device for cutting column bases, column caps and arc lines; and FIG. 5 is a cutaway view of a double-tool-bit rotation device for cutting column bases, column caps and arc lines.

Description of Embodiments

Embodiments of the present invention are described below in detail in conjunction with accompanying drawings, but the present invention may be implemented by various manners limited and covered by the appended claims.

As shown in FIG. 1 to FIG. 3, an arc-surface stone processing machine comprises a frame 100, an upright column 1, a rotary table 2 and a cutting machine main body 3, wherein the upright column 1 and the rotary table 2 are arranged on the frame 100 in front and back, the cutting machine main body 3 is arranged on the upright column 1 in a lifting manner and can move along the upright column 1 back and forth, the cutting machine main body 3 comprises a spindle box assembly 4, a rotation device 5 and a transverse movement driving device 6, the spindle box assembly 4 is provided with a first tool bit 41 and a second tool bit 42 that are symmetrically arranged, the spindle box assembly 4 is arranged on the rotation device 5, and the rotation device 5 drives the spindle box assembly 4 to rotate to exchange working positions of the first tool bit 41 and the second tool bit 42.

As shown in FIG. 1 to FIG. 5, the rotation device 5 comprises a rotary table seat 51, a rotary table face plate 52, a rotating component 53, a rotary table turbine 54, a rotary worm 55, a worm sleeve 56, a driving motor 57 and a reducer 58; a cavity 511 for accommodating the rotary table turbine 54 and the rotary worm 55 is formed between the rotary table seat 51 and the rotary table face plate 52; the rotary table face plate 52 is a disk, locating holes 521 for fixing the spindle box assembly 4 are formed in the surface of the rotary table face plate 52, an annular groove 522 is formed in the bottom of the rotary table face plate 52, a T-shaped bolt 523 that penetrates through the rotary table seat 51 is arranged in the annular groove 522, a spring washer 524 is arranged on the T-shaped bolt 523, and after rotating, the rotary table seat 51 and the rotary table face plate 52 are locked through the T-shaped bolt 523; the rotating component 53 comprises a central shaft 531, a shaft sleeve 532 and a bearing 533, the central shaft 531 is fixedly connected with the bottom surface of the rotary table face plate 52, the shaft sleeve 532 is arranged at the middle part of the rotary table seat 51, the swivel bearing 533 is a single-direction thrust ball bearing that sleeves the central shaft 531, and the central shaft 531 is rotatably sleeved by the shaft sleeve 532, so that the rotary table face plate 52 is rotatably arranged on the rotary table seat 51 ; and the rotary table turbine 54 is fixedly connected with the bottom surface of the rotary table face plate 52 through bolts 541, the rotary worm 55 is meshed with the rotary table turbine 54 and drives the rotary table face plate 52 to rotate by the rotary table turbine 54, the rotary worm 55 is rotatably sleeved by the worm sleeve 56, the worm sleeve 56 is detachably connected with the rotary table seat 51 through bolts 561, the driving motor 57 is connected with the reducer 58, and an output end of the reducer 58 is connected with the rotary worm 55.

The transverse movement driving device 6 comprises a track 61 arranged on the frame 100, a sliding block 62 arranged at the bottom of the upright column 1 and adapted to the track 61, and a transverse movement driving motor 63 connected with the sliding block 62, the transverse movement driving motor 63 is in transmission connection with a lead screw, the bottom of the sliding block 62 matches with the lead screw through threads, and the transverse movement driving motor 63 drives the upright column 1 to slide on the frame 100 back and forth, which is used for meeting requirements during large-diameter arc-surface stone processing.

As shown in FIG. 1 to FIG. 5, the workflow of the arc-surface stone processing machine described above is as follows: before working, firstly a stone workpiece is fixed on the rotary table 2, and the upright column 1 is adjusted to a position adapted to the workpiece needing to be processed through the transverse movement driving device 6; during processing, the cutting machine main body 3 can vertically lift up and down and move back and forth on the upright column 1, the first tool bit 41 processes a column surface and cuts a column base and a column cap; during arc-line plate processing, the rotary table face plate 52 is driven by the driving motor 57 and the reducer 58 to rotate, and the spindle box assembly 4 rotates along with the rotary table face plate 52, so that the working positions of the second tool bit 42 and the first tool bit 41 are exchanged; and the second tool bit 42 processes arc grooves of the stone workpiece.

The foregoing descriptions are merely embodiments of the present invention, and the protection scope of the present invention is not limited thereto. All equivalent structural or process changes made according to the content of this specification and accompanying drawings in the present invention or by directly or indirectly applying the present invention in other relevant technical fields shall fall within the protection scope of the present invention.

Claims (10)

1. An arc-surface stone processing machine, comprising a frame (100), an upright column (1), a rotary table (2) and a cutting machine main body (3), wherein the upright column (1) and the rotary table (2) are arranged on the frame (100) in front and back, and the cutting machine main body (3) is arranged on the upright column (1) in a lifting manner and can move along the upright column (1) back and forth; and the arc-surface stone processing machine is characterized in that the cutting machine main body (3) comprises a spindle box assembly (4) and a rotation device (5), the spindle box assembly (4) is provided with a first tool bit (41) and a second tool bit (42) that are symmetrically arranged, the spindle box assembly (4) is arranged on the rotation device (5), and the rotation device (5) drives the spindle box assembly (4) to rotate to exchange working positions of the first tool bit (41) and the second tool bit (42).

2. The arc-surface stone processing machine according to claim 1, wherein the rotation device (5) comprises a rotary table seat (51), a rotating component (53), a rotary table face plate (52), a rotary table turbine (54) and a rotary worm (55), the rotary table face plate (52) is rotatably arranged on the rotary table seat (51) through the rotating component (53), a cavity (511) for accommodating the rotary table turbine (54) and the rotary worm (55) is formed between the rotary table seat (51) and the rotary table face plate (52), the rotary table turbine (54) is fixedly connected with the bottom surface of the rotary table face plate (52), and the rotary worm (55) is meshed with the rotary table turbine (54) and drives the rotary table face plate (52) to rotate by the rotary table turbine (54).

3. The arc-surface stone processing machine according to claim 2, wherein the rotation device (5) further comprises a driving motor (57) and a reducer (58), the driving motor (57) is connected with the reducer (58), and an output end of the reducer (58) is connected with the rotary worm (55).

4. The arc-surface stone processing machine according to claim 2 or 3, wherein the rotation device (5) further comprises a worm sleeve (56), the worm sleeve (56) is detachably connected with the rotary table seat (51), and the rotary worm (55) is rotatably sleeved by the worm sleeve (56).

5. The arc-surface stone processing machine according to claim 2, wherein the rotating component (53) comprises a central shaft (531) fixedly connected with the rotary table face plate (52), a shaft sleeve (532) arranged at the middle part of the rotary table seat (51), and a swivel bearing (533) that sleeves the central shaft (531), and the central shaft (531) is rotatably sleeved by the shaft sleeve (532).

6. The arc-surface stone processing machine according to claim 5, wherein the swivel bearing (533) is a single-direction thrust ball bearing.

7. The arc-surface stone processing machine according to claim 2, wherein locating holes (521) for fixing the spindle box assembly (4) are formed in the surface of the rotary table face plate (52).

8. The arc-surface stone processing machine according to claim 2 or 7, wherein an annular groove (522) is formed in the bottom of the rotary table face plate (52), a T-shaped bolt (523) that penetrates through the rotary table seat (51) is arranged in the annular groove (522), and the rotary table seat (51) and the rotary table face plate (52) are locked through the T-shaped bolt (523).

9. The arc-surface stone processing machine according to claim 8, wherein a spring washer (524 is arranged on the T-shaped bolt (523.

10. The arc-surface stone processing machine according to claim 1, further comprising a transverse movement driving device (6), wherein a track (61) is arranged on the frame (100), a sliding block (62) adapted to the track (61 is arranged at the bottom of the upright column (1), and the transverse movement driving device (6) is connected with the sliding block (62) to drive the upright column (1) to slide in a frame length direction back and forth.