CN215549380U - Engraving machine with chip removing mechanism - Google Patents

Abstract

The utility model discloses an engraving machine with a scrap removing mechanism, which comprises a rack, first driving mechanisms arranged on two sides of the rack, and an operating platform connected to the rack in a sliding manner; the operating platform moves back and forth under the action of the first driving mechanism; a second driving mechanism is arranged above the operating platform, and an output end of the second driving mechanism is provided with a carving device; the second driving mechanism comprises a supporting platform fixed on the rack, a sliding rail arranged on the supporting platform and a sliding groove matched with the sliding rail, and the sliding groove is fixedly connected with the driving device; the driving device is provided with a chip removing mechanism which can move along with the second driving mechanism. The utility model can effectively remove the saw dust on the slide rail and the saw dust in the crack of the slide rail, so that the equipment can smoothly and normally operate.

Description

Engraving machine with chip removing mechanism

Technical Field

The utility model relates to the technical field of wood plate engraving, in particular to an engraving machine with a chip removing mechanism.

Background

Along with more and more attention on environmental protection, the demand on the wooden products is more and more. At present, equipment for engraving and processing the wooden products is also slowly improved from manual cutting to semi-automation to full automation, and the processing speed and quality are gradually improved. However, during the processing of wood products, a lot of dust and wood chips are generated, and the working environment of workers is affected. Dust removal, chip removal have certain research among the prior art, but most all take measures at the position of sculpture tool bit, neglected around the slide rail or mingled with the saw-dust in the slide rail gap in semi-automatization or full automatization equipment, the saw-dust of gathering around the slide rail can influence the operation process of equipment, influences the speed of sculpture processing.

SUMMERY OF THE UTILITY MODEL

In view of the shortcomings of the prior art, the present invention provides a solution to the above problems. In order to achieve the purpose, the utility model provides the following technical scheme: an engraving machine with a scrap removing mechanism comprises a frame, first driving mechanisms arranged on two sides of the frame, and an operating platform connected to the frame in a sliding manner; the operating platform moves back and forth under the action of the first driving mechanism; a second driving mechanism is arranged above the operating platform, and an output end of the second driving mechanism is provided with a carving device; the second driving mechanism comprises a supporting platform fixed on the rack, a sliding rail arranged on the supporting platform and a sliding groove matched with the sliding rail, and the sliding groove is fixedly connected with the driving device; the driving device is provided with a chip removing mechanism which can move along with the second driving mechanism.

Furthermore, the scrap removing mechanism is rotatably fixed on the driving device.

Furthermore, a rotating mechanism is arranged between the chip removing mechanism and the driving device, and the chip removing mechanism is fixed on the rotating mechanism.

Further, the scrap removing mechanism comprises a dust hood, a dust suction pipe, an impurity storage device and an air pump; one end of the dust absorption pipe is detachably communicated with the dust absorption cover, and the other end of the dust absorption pipe is detachably connected with the impurity storage device. The air pump is composed of a motor and an air impeller, and is arranged at the upper end of the impurity storage device.

Furthermore, the scrap removing mechanism comprises an impurity storage device and an air pump, wherein the two sides of the impurity storage device are symmetrically provided with a dust hood and a dust collection pipe, and a blocking device is arranged at the joint of the dust collection pipe and the impurity storage device and used for realizing the communication and the partition of the space of the impurity storage device and the dust collection pipe.

Furthermore, the blocking device is an end cover and can be rotatably arranged at the port of the impurity storage device connected with the dust suction pipe.

Furthermore, the blocking device is a blocking sheet, and a circular flange groove which can be inserted into the blocking sheet is arranged at the port of the impurity storage device connected with the dust suction pipe.

Furthermore, the front end of the dust hood is hinged with the hairbrush, and the angle of the hairbrush can be adjusted through the hinge.

Furthermore, a driving mechanism includes first transmission shaft, secondary drive axle, the third transmission shaft, connect the first conveyer belt of first transmission shaft and secondary drive axle, connect the second conveyer belt of first transmission shaft and third transmission shaft, wherein first transmission shaft runs through the left and right sides of frame, the one end that secondary drive axle and third transmission shaft are close to the frame sets up circular gear respectively, the frame left and right sides set up with the circular gear complex bar cingulum on secondary drive axle and the third transmission shaft.

The utility model has the beneficial technical effects that: by adopting the engraving machine with the scrap removing mechanism, the sawdust on the slide rail and the sawdust in the crack of the slide rail can be effectively removed, so that the equipment can smoothly and normally operate. The scrap removing mechanism is simple in structure, small in size and free of occupying space, and the dust collection direction can be freely switched according to practical requirements; the application range is wide, and the method is suitable for manual, semi-automatic and full-automatic engraving machine equipment.

Drawings

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

FIG. 2 is a schematic structural view of a chip removing mechanism according to a first embodiment of the present invention;

FIG. 3 is a schematic structural view of a chip removing mechanism according to a second embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a blocking plate of a second embodiment of the chip removing mechanism according to the present invention.

Reference numerals: 10. a frame; 11. an operating platform; 12. a drive device; 13. a miscellaneous storage device; 14. an air pump; 15. a rotation mechanism; 16. a dust collection pipe; 17. a dust hood; 18. a brush; 19. an end cap; 20. a blocking sheet; 21. a first drive shaft; 22. a second drive shaft; 23. a first drive belt; 24. a strip toothed belt; 25. a third drive shaft; 26. a second belt; 27. a slide rail; 28. a sliding groove; 29. a support platform; 30. an engraving device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1-2, an engraver with a chip removing mechanism includes a frame 10, a first driving mechanism, and a second driving mechanism. Set up operation platform 11 on the frame 10, wherein first actuating mechanism sets up in the both sides of frame 10, including first transmission shaft 21, second transmission shaft 22, third transmission shaft 25, connect the first conveyer belt of first transmission shaft 21 and second transmission shaft 22, connect the second conveyer belt of first transmission shaft 21 and third transmission shaft 25, wherein first transmission shaft 21 runs through the left and right sides of frame 10, the one end that second transmission shaft 22 and third transmission shaft 25 are close to frame 10 sets up circular gear respectively, frame 10 left and right sides is fixed set up with circular gear matched with bar cingulum on second transmission shaft 22 and the third transmission shaft 25. The motor drives the first transmission shaft 21 to rotate, the conveyor belt drives the second transmission shaft 22 and the third transmission shaft 25 to rotate, and then the circular gears on the second transmission shaft 22 and the third transmission shaft 25 drive the strip-shaped toothed belt to move, namely, the circular motion of the circular gears on the second transmission shaft 22 and the third transmission shaft 25 is converted into the linear motion of the strip-shaped toothed belt, so that the operation platform 11 is driven to move.

The second driving mechanism comprises a supporting platform 29 fixed on the frame 10, a sliding rail 27 arranged on the supporting platform 29, a sliding groove 28 moving in cooperation with the sliding rail 27, and a driving device 12 fixedly arranged on the sliding groove 28. Wherein the supporting platform 29 spans the left and right sides of the frame 10, the slide rail 27 is parallel to the supporting platform 29, and one end of the slide rail 27 is close to the left side of the supporting platform 29, and the other end is close to the right side of the supporting platform 29. In operation, the sliding groove 28 moves along the sliding rail 27, and the driving device 12 is driven to move. The output of the second drive mechanism mounts the engraving device 30, and the engraving device 30 is movable with the drive mechanism 12. When in use, the operation platform 11 is moved back and forth by adjusting the first driving mechanism according to the size and the position of the processed wood plate; the second driving mechanism is adjusted to move the engraving device 30 left and right.

During the processing of the wood board, the wood chips are collected on the slide rails 27 of the second driving mechanism, thereby affecting the sliding of the slide grooves 28. In the present embodiment, the driving device 12 is provided with a chip removing mechanism, and the chip removing mechanism can move along with the driving device 12. Specifically, the dust removing mechanism comprises a dust hood 17, a dust suction pipe 16, an impurity storage device 13 and an air pump 14. One end of the dust suction pipe 16 is detachably communicated with the dust suction cover 17, the other end of the dust suction pipe 16 is detachably connected with the impurity storage device 13, and particularly, two ends of the dust suction pipe 16 are respectively connected to the dust suction cover 17 and the impurity storage device 13 through threads. The air pump 14 is composed of a motor and an air impeller, and the air pump 14 is arranged at the upper end of the impurity storage device 13. A rotating mechanism 15 is arranged between the impurity storage device 13 and the driving device 12, the rotating mechanism 15 in the embodiment is formed by improving an existing rotating disk, the rotating disk is fixedly connected to the rear end of the driving device 12, the impurity storage device 13 is arranged on the rotating disk, the impurity storage device 13 can rotate along with the rotating disk, so that the dust suction pipe 16 and the dust suction cover 17 are driven to rotate, and the positions of the dust suction pipe 16 and the dust suction cover 17 can be adjusted according to the moving direction of the engraving device 30. The driving device 12 is provided with a fastener at the side for fixing the dust suction pipe 16. Even saw-dust in the slide rail 27 crack has dust extraction, still is difficult to get rid of, and further, the front end of suction hood 17 sets up brush 18, and brush 18 hinged joint is at the front end of suction hood 17, and the angle of accessible hinge regulation brush 18 more is favorable to getting rid of the saw-dust of pressing from both sides in the slide rail 27 crack. When the dust removing device is used, the dust collecting cover 17 and the dust collecting pipe 16 are driven to move to one side, where the driving device 12 needs to move, of the driving device 12 through rotating the impurity storage device 13 according to the moving direction of the driving device 12, then the dust collecting pipe 16 is fixed through a buckle, the motor of the chip removing mechanism and the driving device 12 are started, the chip removing mechanism moves along with the driving device 12 while the driving device 12 moves, the saw dust in the gap of the sliding rail 27 is cleared out through the brush 18, and then the saw dust and the saw dust around the sliding rail 27 are sucked into the impurity storage device 13.

Example 2

Referring to fig. 3, the difference between the embodiment 2 and the embodiment 1 is that the impurity storage device 13 is fixedly arranged at the rear of the driving device 12, and the dust collection cover 17 and the dust collection pipe 16 are symmetrically arranged at the left and right sides of the driving device 12. A detachable end cover 19 is arranged at the port of the impurity storage device 13 connected with the dust suction pipe 16, when the driving device 12 moves towards the right side, the dust suction pipe 16 connected to the right side of the impurity storage device 13 is taken down, and then the end cover 19 is buckled. The design structure is simple, the realization is easy, the manufacturing cost is low, and the occupied space is small. As shown in figure 4, or a blocking sheet 20 is arranged at the joint of the impurity storage device 13 and the dust suction pipe 16, a circular flange groove for inserting the blocking sheet 20 is arranged at the port of the impurity storage device 13 connected with the dust suction pipe 16, and the space communication and blocking between the impurity storage device 13 and the dust suction pipe 16 are realized by inserting or pulling out the blocking sheet 20. The design is simple to operate, can improve the efficiency and can be easily used on a numerical control machine tool.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (9)

1. The utility model provides an engraver with remove bits mechanism which characterized in that: the device comprises a rack, first driving mechanisms arranged on two sides of the rack, and an operating platform connected to the rack in a sliding manner; the operating platform moves back and forth under the action of the first driving mechanism; a second driving mechanism is arranged above the operating platform, and an output end of the second driving mechanism is provided with a carving device; the second driving mechanism comprises a supporting platform fixed on the rack, a sliding rail arranged on the supporting platform and a sliding groove matched with the sliding rail, and the sliding groove is fixedly connected with the driving device; the driving device is provided with a chip removing mechanism which can move along with the second driving mechanism.

2. An engraver having a chip removing mechanism according to claim 1 wherein: the scrap removing mechanism is rotatably fixed on the driving device.

3. An engraver having a chip removing mechanism according to claim 2 wherein: a rotating mechanism is arranged between the chip removing mechanism and the driving device, and the chip removing mechanism is fixed on the rotating mechanism.

4. An engraver having a chip removal mechanism according to claim 3 wherein: the scrap removing mechanism comprises a dust hood, a dust suction pipe, an impurity storage device and an air pump; one end of the dust suction pipe is detachably communicated with the dust hood, the other end of the dust suction pipe is detachably connected with the impurity storage device, the air pump is composed of a motor and an air impeller, and the air pump is arranged at the upper end of the impurity storage device.

5. An engraver having a chip removing mechanism according to claim 1 wherein: the scrap removing mechanism comprises an impurity storage device and an air pump, wherein the two sides of the impurity storage device are symmetrically provided with a dust hood and a dust collection pipe, and a blocking device is arranged at the joint of the dust collection pipe and the impurity storage device and used for realizing the communication and the partition of the space of the impurity storage device and the dust collection pipe.

6. An engraver having a chip removal mechanism according to claim 5 wherein: the blocking device is an end cover and is rotatably arranged at the port of the impurity storage device connected with the dust suction pipe.

7. An engraver having a chip removal mechanism according to claim 5 wherein: the blocking device is a blocking sheet, and a circular flange groove which can be inserted into the blocking sheet is arranged at the port of the impurity storage device connected with the dust suction pipe.

8. An engraver having a chip removing mechanism according to claim 4 or 5, wherein: the front end of the dust hood is hinged with the hairbrush, and the angle of the hairbrush can be adjusted through the hinge.

9. An engraver having a chip removing mechanism according to claim 1 wherein: the first driving mechanism comprises a first transmission shaft, a second transmission shaft, a third transmission shaft, a first conveying belt connected with the first transmission shaft and the second transmission shaft, and a second conveying belt connected with the first transmission shaft and the third transmission shaft, wherein the first transmission shaft penetrates through the left side and the right side of the rack, one ends of the second transmission shaft and the third transmission shaft, which are close to the rack, are respectively provided with a circular gear, and the left side and the right side of the rack are provided with a strip-shaped toothed belt matched with the circular gears on the second transmission shaft and the third transmission shaft.

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