CN111284257A - Engraving device is used in ore processing - Google Patents

Abstract

The invention discloses an engraving device for processing ores, which comprises a bracket and a sliding seat, wherein two rotating rollers are rotationally connected in the sliding seat, a conveying belt is connected between the two rotating rollers, the engraving device can drive a threaded column to rotate through a servo motor and drive the bracket to move through a guide rail air cylinder, a movable engraving mechanism can be adjusted in any horizontal direction, an alloy engraving tool is driven to lift up and down through a servo motor arranged in the movable engraving mechanism, the multi-direction engraving of the ores can be realized, the engraving efficiency of the ores is improved, meanwhile, a suction fan is arranged at the bottom of the inner walls at two sides of the bracket and can move along with the bracket under the fixed action of the bracket, so that waste materials generated by the ores can be cleaned and recycled when the ores are engraved, the effect of accurate dust collection is realized, the environmental pollution caused by the raised dust is avoided, and the mechanism adopted by the, high efficiency, greatly improving the operating efficiency of the engraving device for ore processing.

Description

Engraving device is used in ore processing

The technical field is as follows:

the invention belongs to the technical field of ore processing, and particularly relates to an engraving device for ore processing.

Background art:

ore refers to a collection of minerals from which useful components can be extracted or which themselves have some property that can be exploited. Can be divided into metal mineral and nonmetal mineral. The unit content of useful components (elements or minerals) in the ore is called ore grade, precious metal ores such as gold and platinum are expressed by gram/ton, other ores are expressed by common percentage, the carving is drilling and milling combined processing in principle, a plurality of data input modes of an engraving machine have more than necessary, but the waste materials generated by the existing processing and engraving device are troublesome to recycle and clean, most of the existing processing and engraving devices are integral dust collection, accurate dust collection cannot be achieved along with the engraved position, and the working efficiency is influenced to a certain degree.

The invention content is as follows:

the present invention has been made to solve the above problems, and an object of the present invention is to provide an engraving apparatus for ore processing, which solves the conventional problems.

In order to solve the above problems, the present invention provides a technical solution:

an engraving device for ore processing comprises a support and a slide seat, wherein two rotating rollers are rotationally connected in the slide seat, a conveying belt is connected between the two rotating rollers, a belt motor is arranged at one end of the slide seat, one rotating roller is connected with the output end of the belt motor, linear guide rails are fixedly connected with two sides of the slide seat, a guide rail air cylinder is slidably connected on the linear guide rails, the upper end of the guide rail air cylinder is fixedly connected with the support, a control box is arranged on one outer side of the support, a transverse plate is fixedly connected between one ends of the support far away from the linear guide rails, two sides above the slide seat and two side walls in the support are both connected with a dust suction box, one end of the dust suction box far away from the support is connected with a suction fan, a triangular inclined plate is arranged at the bottom of the dust suction box, one end of the dust suction box far away from the suction fan, the diaphragm below and spout fixedly connected with between the wall of both sides in the support, No. one spacing stop of spout one end fixedly connected with, No. two spacing stop of another end fixedly connected with of a spacing stop are kept away from to a spout, sliding connection has a slider between a spacing stop and No. two spacing stop and on a spout, a slider below is connected with the connecting rod, a spout below and be connected with the screw thread post between the wall of both sides in the support, screw thread post one end is connected with the support through the bearing.

As preferred, support outside fixedly connected with servo motor guard box, the bottom is equipped with servo motor vibration damping mount in the servo motor guard box, servo motor vibration damping mount upper end and be equipped with servo motor No. one in the servo motor guard box, servo motor's output passes the leg joint and is connected with the shaft coupling, the one end that the screw thread post was kept away from in the bearing is connected with the shaft coupling, servo motor is connected with the screw thread post through the shaft coupling, the threaded sleeve is equipped with adjusting nut on the screw thread post, the one end that the connecting rod was kept away from in a slider is connected with adjusting nut, one side that adjusting nut kept away from in the connecting rod is equipped with the removal sculpture mechanism, the removal sculpture mechanism includes upper cover plate, lower apron, fixed montant, No. two spouts, No. two sliders, sliding disc, toothed disc, No. two servo motor, motor output shaft, The upper cover plate is arranged above the movable carving mechanism and fixedly connected with the adjusting nut.

Preferably, a lower cover plate is arranged below the movable engraving mechanism, a fixed vertical rod is fixedly connected between the upper cover plate and the lower cover plate, one side of the fixed vertical rod is connected with a vertical rack bar, one side of the fixed vertical rod is fixedly connected with a fixed column between the upper cover plate and the lower cover plate, two sides of the fixed column are provided with a second sliding chute which is connected with a second sliding block in a sliding way, a sliding disc is sleeved on the fixed column and connected with a second sliding chute through a second sliding block, the lower end of the sliding disc is connected with a variable frequency motor, the lower end of the variable frequency motor is connected with an alloy engraving cutter, the sliding disc is far away from one side of the variable frequency motor, the lower end of the sliding disc is fixedly connected with a second servo motor, one end of the second servo motor is connected with a motor output shaft, one end of the motor output shaft is connected with a gear disc, and the gear disc is meshed with the vertical gear strips.

Preferably, both ends of the connecting rod are fixedly connected with the first sliding block and the adjusting nut respectively.

Preferably, the support is slidably connected to the linear guide by a guide cylinder.

Preferably, the first sliding groove and the threaded column are arranged in parallel, and the lengths of the first sliding groove and the threaded column are consistent.

Preferably, the moving engraving member is located directly above the carriage.

Preferably, the dust suction box is positioned above two sides of the sliding seat and is not in contact with the conveyor belt.

The invention has the beneficial effects that: the invention relates to an engraving device for ore processing, which is characterized in that a screw thread column is driven to rotate by a servo motor, a guide rail cylinder drives a support to move, a movable engraving mechanism can be adjusted in any horizontal direction, a second servo motor is arranged in the movable engraving mechanism to drive an alloy engraving cutter to lift up and down, multi-direction engraving of ores can be realized, the engraving efficiency of the ores is improved, meanwhile, suction fans are arranged at the bottoms of the inner walls of the two sides of the support and can move along with the support under the fixing effect of the support, and further, waste materials generated by the ores can be cleaned and recycled when the ores are engraved, the effect of accurate dust collection is realized, and environmental pollution caused by engraving dust is avoided.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the front side of the mobile engraving mechanism of the present invention;

fig. 4 is a schematic view of the back structure of the mobile engraving mechanism of the present invention.

In the figure: 1. a support; 2. a transverse plate; 3. a first chute; 4. a first limit stop block; 5. a second limit stop; 6. a first sliding block; 7. a connecting rod; 8. a threaded post; 9. adjusting the nut; 10. a bearing; 11. a servo motor protection box; 12. a servo motor damping base; 13. a first servo motor; 14. a control box; 15. a coupling; 16. a slide base; 17. a linear guide rail; 18. a guide rail cylinder; 19. a dust collection box; 20. a suction fan; 21. a triangular sloping plate; 22. a slag discharge port; 23. a belt motor; 24. a conveyor belt; 25. an upper cover plate; 26. a lower cover plate; 27. fixing the vertical rod; 28. a vertical rack and pinion; 29. a second chute; 30. a second sliding block; 31. a slide plate; 32. a gear plate; 33. a second servo motor; 34. an output shaft of the motor; 35. moving the engraving mechanism; 36. a variable frequency motor; 37. an alloy engraving cutter; 38. and (5) fixing the column.

The specific implementation mode is as follows:

as shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment: an engraving device for ore processing comprises a support 1 and a slide 16, wherein two rotating rollers are rotatably connected in the slide 16, a conveying belt 24 is connected between the two rotating rollers, one end of the slide 16 is provided with a belt motor 23, one rotating roller is connected with the output end of the belt motor 23, both sides of the slide 16 are fixedly connected with linear guide rails 17, a guide rail cylinder 18 is slidably connected on the linear guide rails 17, the upper end of the guide rail cylinder 18 is fixedly connected with the support 1, one outer side of the support 1 is provided with a control box 14, a transverse plate 2 is fixedly connected between the ends of the support 1 far away from the linear guide rails 17, both sides above the slide 16 are connected with dust suction boxes 19 on both side walls in the support 1, one ends of the dust suction boxes 19 far away from the support 1 are connected with a suction fan 20, the inner bottom of the dust suction boxes 19 is provided with an inclined plate triangle 21, and one ends of the dust suction boxes 19 far away from the, just the scum outlet 22 passes outside support 1 extends to support 1, 2 below of diaphragm and fixedly connected with spout 3 No. one between the both sides wall in support 1, No. 3 one end fixedly connected with limit stop 4 of spout, No. 3 spout keep away from No. two limit stop 5 of another end fixedly connected with of a limit stop 4, between No. 4 and No. 5 limit stop and sliding connection have a slider 6 on spout 3, 6 below of a slider is connected with connecting rod 7, 3 below of spout and be connected with screw thread post 8 between the both sides wall in support 1, 8 one end of screw thread post is connected with support 1 through bearing 10.

Wherein, 1 outside fixedly connected with servo motor guard box 11 of support, the bottom is equipped with servo motor vibration damping mount 12 in the servo motor guard box 11, servo motor vibration damping mount 12 upper end just is equipped with servo motor 13 No. one in servo motor guard box 11, servo motor 13's output passes support 1 and is connected with shaft coupling 15, threaded column 8 is kept away from the one end of bearing 10 and is connected with shaft coupling 15, servo motor 13 is connected with threaded column 8 through shaft coupling 15, threaded sleeve is equipped with adjusting nut 9 on the threaded column 8, connecting rod 7 is kept away from the one end of a slider 6 and is connected with adjusting nut 9, adjusting nut 9 is kept away from one side of connecting rod 7 and is equipped with removal sculpture mechanism 35, removal sculpture mechanism 35 includes upper cover plate 25, lower apron 26, fixed montant 27, No. two spout 29, The second sliding block 30, the sliding disc 31, the gear disc 32, the second servo motor 33, the motor output shaft 34, the variable frequency motor 36, the alloy engraving tool 37 and the fixing column 38, the upper cover plate 25 is arranged above the movable engraving mechanism 35, and the upper cover plate 25 is fixedly connected with the adjusting nut 9.

Wherein, a lower cover plate 26 is arranged below the movable engraving mechanism 35, a fixed vertical rod 27 is fixedly connected between the upper cover plate 25 and the lower cover plate 26, a vertical rack 28 is connected to one side of the fixed vertical rod 27, a fixed column 38 is fixedly connected between the upper cover plate 25 and the lower cover plate 26 to one side of the fixed vertical rod 27, two sliding chutes 29 are arranged on two sides of the fixed column 38, two sliding blocks 30 are slidably connected to the two sliding chutes 29, a sliding tray 31 is sleeved on the fixed column 38, the sliding tray 31 is connected with the two sliding chutes 29 through the two sliding blocks 30, a variable frequency motor 36 is connected to the lower end of the sliding tray 31, an alloy engraving tool 37 is connected to the lower end of the variable frequency motor 36, the sliding tray 31 is far away from one side of the variable frequency motor 36 and is fixedly connected with a two servo motor 33 at the lower end of the sliding tray 31, and one end of, one end of the motor output shaft 34 is connected with a gear disc 32, and the gear disc 32 is meshed with the vertical rack-and-pinion 28.

Wherein, the both ends of connecting rod 7 are equallyd divide and are respectively with slider 6 and adjusting nut 9 fixed connection.

Wherein, the bracket 1 is connected with the linear guide rail 17 in a sliding way through a guide rail cylinder 18.

Wherein, a spout 3 and the mutual parallel arrangement of screw thread post 8, just a spout 3 is all unanimous with screw thread post 8 length.

Wherein said moving engraving means 35 are located directly above the carriage 16.

Wherein the suction box 19 is located above both sides of the slide 16 and does not contact the conveyor belt 24.

Specifically, the method comprises the following steps: when the invention is used, ore to be engraved is firstly placed on the conveyor belt 24 on the sliding seat 16, whether the belt motor 23 needs to be started is determined according to the engraving requirement, the belt motor 23 can drive the conveyor belt 24 to rotate so as to drive the ore above the conveyor belt to move, the first servo motor 13 and the second servo motor 33 are controlled to be started through the control box 14, the first servo motor 13 drives the threaded column 8 to rotate, the threaded column 8 rotates to drive the adjusting nut 9 to move on the threaded column 8 in the horizontal direction perpendicular to the conveyor belt 24, so that the alloy engraving cutter 37 is driven to move horizontally in the direction perpendicular to the conveyor belt 24, the second servo motor 33 is moved to drive the gear plate 32 to rotate, the gear plate 32 rotates to drive the sliding plate 31 to move up and down on the fixed column 38, so that the alloy engraving cutter 37 is driven to move up and down, and then the control guide rail cylinder 18 to move horizontally on the, thereby can drive support 1 and do the horizontal direction removal parallel with conveyer belt 24, consequently the device can realize the multi-direction sculpture to the ore, promote the sculpture efficiency to the ore, open simultaneously through control box 14 and set up suction fan 20 in support 1 both sides inner wall bottom, suction fan 20 can follow support 1 and remove under the fixed effect of support 1, and then can retrieve the garbage cleaning that the ore produced when sculpture ore, realize the effect of accurate dust absorption, avoid the environmental pollution that the sculpture raise dust brought, the mechanism structure simple structure that this design adopted, high efficiency, this engraving device's for ore processing operating efficiency has been promoted greatly.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (8)

1. The engraving device for ore processing comprises a support (1) and a sliding seat (16), and is characterized in that the sliding seat (16) is rotatably connected with two rotary rollers, a conveying belt (24) is connected between the two rotary rollers, one end of the sliding seat (16) is provided with a belt motor (23), one rotary roller is connected with the output end of the belt motor (23), two sides of the sliding seat (16) are fixedly connected with linear guide rails (17), guide rail cylinders (18) are slidably connected on the linear guide rails (17), the upper end of each guide rail cylinder (18) is fixedly connected with the support (1), a control box (14) is arranged on one outer side of the support (1), the support (1) is far away from one end of each linear guide rail (17) and is fixedly connected with a transverse plate (2), two sides above the sliding seat (16) are connected with dust suction boxes (19) on two side walls in the support (1), one end of the dust collection box (19) far away from the support (1) is connected with a suction fan (20), the bottom in the dust collection box (19) is provided with a triangular inclined plate (21), one end of the dust collection box (19) far away from the suction fan (20) is connected with a slag discharge port (22), the slag discharge port (22) penetrates through the support (1) and extends out of the support (1), a first sliding groove (3) is fixedly connected below the transverse plate (2) and between two side walls in the support (1), one end of the first sliding groove (3) is fixedly connected with a first limit stop block (4), the other end of the first sliding groove (3) far away from the first limit stop block (4) is fixedly connected with a second limit stop block (5), a first sliding block (6) is slidably connected between the first limit stop block (4) and the second limit stop block (5) and on the first sliding groove (3), and a connecting rod (7) is connected below the first sliding block (6), a threaded column (8) is connected below the first sliding groove (3) and between two side walls in the support (1), and one end of the threaded column (8) is connected with the support (1) through a bearing (10).

2. The engraving device for ore processing according to claim 1, characterized in that: the support is characterized in that a servo motor protection box (11) is fixedly connected to the outer side of the support (1), a servo motor damping base (12) is arranged at the bottom in the servo motor protection box (11), a servo motor (13) is arranged at the upper end of the servo motor damping base (12) and in the servo motor protection box (11), the output end of the servo motor (13) penetrates through the support (1) to be connected with a coupler (15), one end, far away from a bearing (10), of a threaded column (8) is connected with the coupler (15), the servo motor (13) is connected with the threaded column (8) through the coupler (15), an adjusting nut (9) is sleeved on the threaded column (8), one end, far away from a sliding block (6), of a connecting rod (7) is connected with the adjusting nut (9), a movable carving mechanism (35) is arranged on one side, far away from the connecting rod (7), of the adjusting nut (9), the movable engraving mechanism (35) comprises an upper cover plate (25), a lower cover plate (26), a fixed vertical rod (27), a second sliding groove (29), a second sliding block (30), a sliding disc (31), a gear disc (32), a second servo motor (33), a motor output shaft (34), a variable frequency motor (36), an alloy engraving cutter (37) and a fixed column (38), the upper cover plate (25) is arranged above the movable engraving mechanism (35), and the upper cover plate (25) is fixedly connected with an adjusting nut (9).

3. The engraving device for ore processing according to claim 2, characterized in that: remove sculpture mechanism (35) below and be equipped with down apron (26), fixed montant (27) of fixedly connected with between upper cover plate (25) and lower apron (26), fixed montant (27) one side is connected with vertical rack gear (28), fixed montant (27) one side and fixedly connected with fixed column (38) between upper cover plate (25) and lower apron (26), fixed column (38) both sides are equipped with No. two spout (29), sliding connection has No. two slider (30) on No. two spout (29), the cover is equipped with sliding tray (31) on fixed column (38), sliding tray (31) are connected with No. two spout (29) through No. two slider (30), sliding tray (31) lower extreme is connected with inverter motor (36), inverter motor (36) lower extreme is connected with alloy sculpture cutter (37), sliding tray (31) keep away from one side of inverter motor (36) and at No. two servo motor of sliding tray (31) lower extreme fixedly connected with(s), (a) servo motor (36) 33) One end of the second servo motor (33) is connected with a motor output shaft (34), one end of the motor output shaft (34) is connected with a gear disc (32), and the gear disc (32) is meshed with the vertical gear strip (28).

4. The engraving device for ore processing according to claim 1, characterized in that: the two ends of the connecting rod (7) are fixedly connected with the first sliding block (6) and the adjusting nut (9) respectively.

5. The engraving device for ore processing according to claim 1, characterized in that: the support (1) is connected with the linear guide rail (17) in a sliding mode through a guide rail air cylinder (18).

6. The engraving device for ore processing according to claim 1, characterized in that: the first sliding groove (3) and the threaded column (8) are arranged in parallel, and the lengths of the first sliding groove (3) and the threaded column (8) are identical.

7. The engraving device for ore processing according to claim 2, characterized in that: the movable engraving mechanism (35) is positioned right above the sliding seat (16).

8. The engraving device for ore processing according to claim 1, characterized in that: the dust suction box (19) is positioned above the two sides of the sliding seat (16) and is not contacted with the conveyor belt (24).

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