CN211280444U - Novel table-board rotating five-axis engraving machine - Google Patents

Abstract

The utility model belongs to the technical field of engraving machines, and discloses a novel table-board rotating five-axis engraving machine, wherein a B-axis rotating platform is arranged at the lower end of a engraving main shaft and is connected with a B-axis rotating platform motor through a turbine worm; the engraving main shaft is fixed at the lower end of the Z-axis sliding plate and is fixedly provided with an A-axis speed reducer through a bolt. The utility model is provided with the A-axis speed reducer on the engraving main shaft, so that the engraving main shaft rotates around the X axis; meanwhile, a B-axis rotating platform is arranged below the gantry, so that the materials rotate around a Z axis, one-time processing of the materials is realized, the direction of processed materials is not required to be adjusted manually or by a machine, and great resource waste is avoided. The utility model discloses a system control XYZAB five-axis linkage has improved 40% work efficiency, has practiced thrift 30% cost.

Description

Novel table-board rotating five-axis engraving machine

Technical Field

The utility model belongs to the technical field of engraving machine, especially, relate to a novel rotatory five engravers of mesa.

Background

Currently, the closest prior art in the industry: along with the continuous expansion of engraver application, the type of engraver processing material is also more and more, and ordinary carpenter's engraver or ordinary stone material engraver can't satisfy the multiple requirement of user to the processing material at all. For example, a user needs to process five-sided carving of round wood or square wood, a common carving machine cannot process the round wood or the square wood at all at one time, and the direction of a processed material needs to be adjusted manually or mechanically, so that great resource waste is caused.

In summary, the problems of the prior art are as follows: the existing engraving machine can not process materials at one time, and the direction of processing materials is adjusted by manpower or machines, thereby causing great resource waste.

The difficulty and significance for solving the technical problems are as follows: five-sided carving and clamping of the large round wood or square wood reduce material waste as much as possible. The solution of the above problems is favorable for saving materials and labor, and the whole body is beautiful after carving.

SUMMERY OF THE UTILITY MODEL

To the problem that prior art exists, the utility model provides a novel rotatory five engravers of mesa.

The utility model is realized in such a way that the novel table-board rotary five-shaft engraving machine is provided with an engraving main shaft;

a B-axis rotating platform is arranged at the lower end of the engraving main shaft and is connected with a B-axis rotating platform motor through a worm gear and a worm;

the engraving main shaft is fixed at the lower end of the Z-axis sliding plate and is fixedly provided with an A-axis speed reducer through a bolt.

An A-axis speed reducer is arranged on the engraving main shaft, so that the engraving main shaft rotates around an X axis; meanwhile, a B-axis rotating platform is arranged below the gantry, so that the materials rotate around a Z axis, one-time processing of the materials is realized, the direction of processed materials is not required to be adjusted manually or by a machine, and great resource waste is avoided. The system controls the XYZAB five-axis linkage, improves the working efficiency by 40 percent and saves the cost by 30 percent. The efficiency is improved, the material and the labor are saved, and the whole body is beautiful after the carving.

Furthermore, Y-axis upright columns are arranged on two side surfaces of the B-axis rotating platform;

the Y-axis stand column is divided into two sections, the lower Y-axis stand column is connected with the upper Y-axis stand column through a slide rail, and the upper Y-axis stand column is connected with a Y-axis motor through a bolt; the Y-axis transmission rack is in toothed connection with a Y-axis gear on a Y-axis motor shaft.

A Y-axis motor is arranged on the upper-end Y-axis upright post, and a gear and a rack are connected to the Y-axis motor, so that the front and back movement of the carving main shaft is realized.

Furthermore, the upper end of the Y-axis upright post is connected with an X-axis beam through a bolt, a slide rail is arranged on the X-axis beam, the X-axis beam is connected with an X-axis moving seat through the slide rail, and the X-axis moving seat is connected with an X-axis motor through an X-axis transmission rack.

The X-axis moving seat is connected with a gear on an X-axis motor shaft through an X-axis transmission rack, so that the engraving main shaft is moved left and right.

Furthermore, the X-axis moving seat is connected with the Z-axis sliding plate through a sliding rail, a Z-axis motor is fixed at the upper end of the X-axis moving seat through a bolt and connected with the X-axis moving seat, and the Z-axis motor is connected with the Z-axis sliding plate through a Z-axis transmission lead screw.

Furthermore, an A-axis speed reducer is installed at the lower end of the Z-axis sliding plate, an A-axis motor is installed on the A-axis speed reducer, and the A-axis motor is electrically connected with a power supply.

The Z-axis motor is connected with the Z-axis sliding plate through the Z-axis transmission lead screw, so that the up-and-down movement of the carving main shaft is realized, and the carving depth of the material is controlled.

Drawings

Fig. 1 is a schematic structural view of a novel table-board rotating five-axis engraving machine provided by the embodiment of the present invention.

Fig. 2 is a schematic view of an X-axis motor mounting structure provided by an embodiment of the present invention.

In the figure: 1. engraving a main shaft; 2. a B-axis rotating platform; 3. a B-axis rotating platform motor; 4. an X-axis beam; 5. a Z-axis slide plate; 6. an A-axis reducer; 7. an A-axis motor; 8. a Y-axis side plate; 9. a Y-axis column; 10. A Z-axis motor; 11. a Y-axis motor; 12. an X-axis motor; 13. a Y-axis gear; 14. a Y-axis rack; 15. an X-axis gear; 16. an X-axis rack.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

In order to solve the above technical problems, the technical solution of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-2, the novel table-board rotary five-axis engraving machine is provided with an engraving main shaft; the lower end of the engraving main shaft 1 is provided with a B-axis rotating platform 2, and the B-axis rotating platform 2 is connected with a B-axis rotating platform motor 3 through a worm gear and a worm.

Two side surfaces of the B-axis rotating platform 2 are provided with Y-axis upright posts 9, the Y-axis upright posts 9 are divided into two sections, the lower-end Y-axis upright posts are connected with the upper-end Y-axis upright posts through slide rails, the upper-end Y-axis upright posts are fixedly connected with a Y-axis motor 11 through bolts, and a Y-axis transmission rack 13 is in contact with a Y-axis gear 14 on the Y-axis motor 11.

The upper end Y-axis upright post is connected with an X-axis beam 4 through a bolt, a slide rail is arranged on the X-axis beam 4, the X-axis beam 4 is connected with an X-axis sliding plate through the slide rail, and the X-axis sliding plate is in contact with a gear 15 on an X-axis motor 12 shaft through an X-axis transmission rack 16.

The X-axis sliding plate is connected with the Z-axis sliding plate 5 through a sliding rail, the upper end of the Z-axis sliding plate is fixedly connected with a Z-axis motor 10 through a bolt, and the Z-axis motor 10 is connected with the Z-axis sliding plate 5 through a Z-axis transmission lead screw.

The lower end of the Z-axis sliding plate 5 is provided with a carving main shaft, and the carving main shaft 1 is fixed with an A-axis speed reducer 6 through bolts.

The utility model discloses the theory of operation on do:

the carving material is placed on the B-axis rotating platform 2, and the B-axis rotating platform 2 is controlled to rotate and carve through the B-axis rotating platform motor 3. The Y-axis motor 11 is connected with a power supply to realize the forward and backward movement of the engraving main shaft 1; the X-axis motor 12 is connected with a power supply to realize the left-right movement of the carving main shaft 1; the Z-axis motor 10 is powered on to realize the up-and-down movement of the Z-axis sliding plate 5, thereby realizing the up-and-down movement of the engraving main shaft 1. An A-axis speed reducer 6 is installed at the lower end of the Z-axis sliding plate 5, an A-axis motor 7 is arranged on the speed reducer 6, the A-axis motor 7 is connected with a power supply, the main shaft 1 rotates forwards and backwards, and the A-axis rotary engraving is achieved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all the modifications and equivalents of the technical spirit of the present invention to any simple modifications of the above embodiments are within the scope of the technical solution of the present invention.

Claims (5)

1. A novel table-board rotating five-axis engraving machine is characterized in that the novel table-board rotating five-axis engraving machine is provided with an engraving main shaft;

a B-axis rotating platform is arranged at the lower end of the engraving main shaft and is connected with a B-axis rotating platform motor through a worm gear and a worm;

the engraving main shaft is fixed at the lower end of the Z-axis sliding plate and is fixedly provided with an A-axis speed reducer through a bolt.

2. The novel table-board rotating five-axis engraving machine as claimed in claim 1, wherein Y-axis columns are arranged on two side faces of the B-axis rotating platform;

the Y-axis stand column is divided into two sections, the lower Y-axis stand column is connected with the upper Y-axis stand column through a slide rail, and the upper Y-axis stand column is connected with a Y-axis motor through a bolt; the Y-axis transmission rack is in toothed connection with a Y-axis gear on a Y-axis motor shaft.

3. The novel table-board rotating five-axis engraving machine as claimed in claim 2, wherein the upper end of the Y-axis upright post is connected with an X-axis beam through a bolt, a slide rail is arranged on the X-axis beam, the X-axis beam is connected with an X-axis moving seat through a slide rail, and the X-axis moving seat is connected with an X-axis motor through an X-axis transmission rack.

4. The novel table-board rotating five-axis engraving machine as claimed in claim 3, wherein the X-axis moving seat is connected with the Z-axis sliding plate through a sliding rail, the upper end of the X-axis moving seat is connected with a Z-axis motor through a bolt, and the Z-axis motor is connected with the Z-axis sliding plate through a Z-axis transmission lead screw.

5. The novel table-board rotating five-axis engraving machine as claimed in claim 4, wherein the lower end of the Z-axis sliding plate is provided with an A-axis reducer, the A-axis reducer is provided with an A-axis motor, and the A-axis motor is electrically connected with a power supply.

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