CN215807749U - Mining radar sensor convenient to installation - Google Patents

Abstract

The utility model discloses a mine radar sensor convenient to mount, relates to the technical field of sensors, and aims to solve the problems that after a general mine radar sensor body is mounted, the position is fixed, the action angle of the sensor body is inconvenient to adjust, and the mounting and dismounting are time-consuming and labor-consuming. The sensor body angle and level adjusting device is novel in structure, angle and level adjustment of the sensor body can be conveniently carried out after installation is completed, practicability is improved, and the sensor body angle and level adjusting device is suitable for popularization.

Description

Mining radar sensor convenient to installation

Technical Field

The utility model relates to the technical field of sensors, in particular to a mine radar sensor convenient to install.

Background

Mineral resources are products of earth crust in the long-term forming, developing and evolving processes, and are formed by gathering natural minerals under certain geological conditions through certain geological actions, and different types of mineral products can be formed by different geological actions. The mining industry is one of the ancient fields of human production and labor, the development of the mining industry and the development and the utilization of expanded mineral resources have great and irreplaceable promotion effects on the development and the progress of human social civilization. In mineral exploitation, mined ore needs to be transferred out of a tunnel, and during the process of transferring the ore, a radar sensor needs to be used for sensing the ore flow.

General radar sensor body is after the installation, and the position is all fixed, is not convenient for adjust the effect angle of sensor body, and the dismouting is wasted time and energy again. Therefore, in order to solve such problems, we propose a mining radar sensor that is easy to install.

SUMMERY OF THE UTILITY MODEL

The mine radar sensor convenient to install solves the problems that after an ordinary mine radar sensor body is installed, the position of the general mine radar sensor body is fixed, the acting angle of the sensor body is inconvenient to adjust, and the sensor body is time-consuming and labor-consuming to disassemble and assemble again.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a mine radar sensor convenient to mount comprises a mounting plate and a sensor body, wherein a plurality of mounting bolts distributed in an array form are arranged on the mounting plate in a penetrating mode through threads, a base plate is arranged on one side of the mounting plate in a sliding mode, a horizontal adjusting assembly is arranged between the base plate and the mounting plate, a cushion block is fixedly arranged on one side, away from the mounting plate, of the base plate, the sensor body is arranged on the cushion block through two connecting rods with the same structure, and an angle adjusting assembly is arranged between the sensor body and the cushion block;

the angle adjusting component comprises a limiting pipe, an axle column, a positioning rod, a positioning protrusion, a limiting protrusion, a double-screw bolt and a limiting disc, wherein the limiting pipe is arranged inside the cushion block in a penetrating mode, the axle column is arranged on the inner wall, close to the two ends, of the limiting pipe in a rotating mode, the axle column is fixedly connected with a plurality of positioning rods distributed in an annular array mode, the outer side wall of the end portion of each positioning rod is provided with the positioning protrusion, the inner side wall of the end portion of each positioning rod is provided with the limiting protrusion, the axle column is provided with the double-screw bolt in a penetrating mode along the axial threads of the axle column, the end, close to the positioning rod, of the double-screw bolt extends to the inside of the limiting pipe and the limiting disc in a fixedly connected mode, the limiting disc is located on the inner side of the positioning rod and is matched with the limiting protrusion in a corresponding mode.

Preferably, two the jack-post all extends to spacing outside of the pipe and is fixed with the connecting rod of homonymy, and two the one end that the jack-post was kept away from to the connecting rod links to each other with the sensor body is fixed.

Preferably, two groups of grooves matched with the positioning bulges are formed in the inner wall of the limiting pipe.

Preferably, one end of the stud, which is far away from the limiting disc, extends to the outside of the shaft post and is fixedly connected with an adjusting torsion piece.

Preferably, the horizontal adjustment subassembly includes slider, slide bar and screw rod, the mounting panel is close to one side of backing plate and sets up the three spout that is the array distribution, and three all slide in the spout and be provided with the slider, it is three the slider all links to each other with the backing plate is fixed, is located both sides all fixedly along length direction in the spout is provided with the slide bar, just the slide bar slides and runs through the slider setting, is located the middle part rotate along length direction in the spout and be provided with the screw rod, just the screw rod screw thread runs through the slider setting.

Preferably, the side wall of the mounting plate is rotatably provided with an adjusting knob, and a rotating shaft of the adjusting knob penetrates through and extends into the sliding groove to be fixedly connected with the screw rod.

Preferably, the two sliding rods are sleeved with compression springs in a sliding mode, and the two compression springs on the same side are respectively arranged on two sides of the sliding block.

The utility model has the beneficial effects that:

1. through the setting of angle adjustment subassembly, utilize to adjust the turn-round piece and rotate the double-screw bolt, the double-screw bolt drives spacing dish and removes, and when spacing dish breaks away from spacing protruding, the pivot post is rotated, and the locating lever drives the protruding adaptability of location and breaks away from the recess of spacing inside pipe wall, and the sensor body follows the pivot post through the connecting rod and rotates, realizes angle regulation, and when spacing dish supported tight spacing protruding for the locating lever drives the recess closure of location arch and spacing inside pipe wall, accomplishes the fixed of sensor body.

2. Through the setting of horizontal adjustment subassembly, utilize adjust knob to rotate the screw rod, the screw rod drives the slider along spout horizontal migration, and compression spring plays the cushioning effect for the horizontal migration of slider, and then drives backing plate, cushion and sensor body and wholly removes, realizes the horizontal adjustment.

In conclusion, the angle and horizontal adjustment of the sensor body is conveniently carried out after the installation is finished, the practicability is improved, the problems that the position of a general mine radar sensor body is fixed after the installation, the adjustment of the action angle of the sensor body is inconvenient, and the re-assembly are time-consuming and labor-consuming are solved, and the radar sensor is suitable for popularization.

Drawings

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

FIG. 2 is an exploded view of the present invention;

fig. 3 is a view showing an installation structure of the angle adjusting assembly of the present invention.

Reference numbers in the figures: 1. mounting a plate; 2. a sensor body; 3. installing a bolt; 4. a base plate; 5. cushion blocks; 6. a connecting rod; 7. a slider; 8. a slide bar; 9. a screw; 10. adjusting a knob; 11. a compression spring; 12. a limiting pipe; 13. a column shaft; 14. positioning a rod; 15. positioning the projection; 16. a limiting bulge; 17. a stud; 18. a limiting disc; 19. adjusting the torsion sheet; 20. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, a mining radar sensor convenient to installation, including mounting panel 1 and sensor body 2, the screw thread runs through on mounting panel 1 and is provided with a plurality of and is array distribution's mounting bolt 3, fix mounting panel 1 through mounting bolt 3, one side of mounting panel 1 slides and is provided with backing plate 4, backing plate 4 keeps away from one side of mounting panel 1 and fixedly is provided with cushion 5, and be provided with sensor body 2 through two connecting rods 6 that the structure is the same on cushion 5, be provided with angle adjusting part between sensor body 2 and the cushion 5.

Referring to fig. 1-3, the angle adjusting assembly comprises a limiting tube 12, an axle post 13, a positioning rod 14, a positioning protrusion 15, a limiting protrusion 16, a stud 17 and a limiting disc 18, the limiting tube 12 is arranged inside the cushion block 5 in a penetrating manner, the axle posts 13 are rotatably arranged on the inner walls of the limiting tube 12 close to the two ends, the two axle posts 13 extend to the outside of the limiting tube 12 and are fixed with connecting rods 6 on the same side, one ends of the two connecting rods 6 far away from the axle post 13 are fixedly connected with a sensor body 2, one end of the axle post 13 in the limiting tube 12 is fixedly connected with a plurality of positioning rods 14 distributed in an annular array, the outer side wall of the end part of the positioning rod 14 is provided with the positioning protrusion 15, two groups of grooves matched with the positioning protrusions 15 are arranged on the inner wall of the limiting tube 12, the inner side wall of the end part of the positioning rod 14 is provided with the limiting protrusion 16, the axle post 13 is provided with the stud 17 along the axial thread thereof in a penetrating manner, and one end of the stud 17 close to the positioning rod 14 extends to the inside of the limiting tube 12 and is fixedly connected with a limiting disc 18, the limiting disc 18 is positioned at the inner side of the positioning rod 14 and is correspondingly matched with the limiting bulge 16, and one end of the stud 17 far away from the limiting disc 18 extends to the outside of the shaft column 13 and is fixedly connected with an adjusting torsion piece 19. The stud 17 is rotated through the adjusting torsion piece 19, the stud 17 drives the limiting disc 18 to move, when the limiting disc 18 is separated from the limiting bulge 16, the shaft post 13 is rotated, the positioning rod 14 drives the positioning bulge 15 to adaptively separate from a groove in the inner wall of the limiting pipe 12, the sensor body 2 rotates along with the shaft post 13 through the connecting rod 6, the angle is adjusted, when the limiting disc 18 abuts against the limiting bulge 16, the positioning rod 14 drives the positioning bulge 15 to be locked with the groove in the inner wall of the limiting pipe 12, and the sensor body 2 is fixed.

Referring to fig. 1 and 2, a horizontal adjusting assembly is arranged between a backing plate 4 and a mounting plate 1, the horizontal adjusting assembly comprises a sliding block 7, sliding rods 8 and a screw rod 9, one side of the mounting plate 1, which is close to the backing plate 4, is provided with three sliding grooves 20 distributed in an array, the three sliding grooves 20 are respectively provided with the sliding block 7 in a sliding manner, the three sliding blocks 7 are respectively fixedly connected with the backing plate 4, the sliding grooves 20 on the two sides are respectively fixedly provided with the sliding rods 8 along the length direction, the sliding rods 8 are arranged by penetrating through the sliding block 7 in a sliding manner, the two sliding rods 8 are respectively sleeved with compression springs 11 in a sliding manner, the two compression springs 11 on the same side are respectively arranged on the two sides of the sliding block 7, the compression springs 11 play a role in buffering role in horizontal movement of the sliding block 7, the sliding grooves 20 in the middle are rotatably provided with the screw rod 9 along the length direction, the screw rod 9 is arranged by penetrating through the sliding block 7 in a threaded manner, and an adjusting knob 10 is rotatably arranged on the side wall of the mounting plate 1, and the pivot of adjust knob 10 runs through and extends to in the spout 20 and screw rod 9 is fixed continuous, rotates screw rod 9 through adjust knob 10, and screw rod 9 drives slider 7 along spout 20 horizontal migration, and then drives backing plate 4, cushion 5 and sensor body 2 and wholly remove.

The working principle is as follows: when the sensor body 2 is used, the mounting plate 1 is fixed through the mounting bolt 3, when the angle of the sensor body 2 is adjusted, the stud 17 is rotated through the adjusting torsion piece 19, the stud 17 drives the limiting disc 18 to move, when the limiting disc 18 is separated from the limiting bulge 16, the pivot column 13 is rotated, the positioning rod 14 drives the positioning bulge 15 to be adaptively separated from the groove in the inner wall of the limiting pipe 12, the sensor body 2 rotates along with the pivot column 13 through the connecting rod 6, the angle is adjusted, and when the limiting disc 18 tightly supports against the limiting bulge 16, the positioning rod 14 drives the positioning bulge 15 to be locked with the groove in the inner wall of the limiting pipe 12, so that the sensor body 2 is fixed; when the horizontal adjustment of the sensor body 2 is performed, the screw rod 9 is rotated through the adjusting knob 10, the screw rod 9 drives the sliding block 7 to horizontally move along the sliding groove 20, and then the base plate 4, the cushion block 5 and the sensor body 2 are driven to integrally move.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The mine radar sensor convenient to mount comprises a mounting plate (1) and a sensor body (2), and is characterized in that a plurality of mounting bolts (3) distributed in an array form are arranged on the mounting plate (1) in a penetrating mode through threads, a base plate (4) is arranged on one side of the mounting plate (1) in a sliding mode, a horizontal adjusting assembly is arranged between the base plate (4) and the mounting plate (1), a cushion block (5) is fixedly arranged on one side, away from the mounting plate (1), of the base plate (4), the sensor body (2) is arranged on the cushion block (5) through two connecting rods (6) with the same structure, and an angle adjusting assembly is arranged between the sensor body (2) and the cushion block (5);

the angle adjusting assembly comprises a limiting pipe (12), an axle column (13), a positioning rod (14), a positioning bulge (15), a limiting bulge (16), a stud (17) and a limiting disc (18), wherein the limiting pipe (12) penetrates through the inside of the cushion block (5), the axle columns (13) are rotatably arranged on the inner walls of the limiting pipe (12) close to the two ends, the end, located inside the limiting pipe (12), of the axle column (13) is fixedly connected with the positioning rods (14) distributed in an annular array, the positioning bulge (15) is arranged on the outer side wall of the end part of each positioning rod (14), the limiting bulge (16) is arranged on the inner side wall of the end part of each positioning rod (14), the axle column (13) penetrates through the stud (17) along the axial thread of the axle column, and the end, close to the positioning rod (14), of the stud (17) extends to the inside of the limiting pipe (12) and is fixedly connected with the limiting disc (18), the limiting disc (18) is positioned on the inner side of the positioning rod (14) and correspondingly matched with the limiting bulge (16).

2. The mining radar sensor convenient to mount according to claim 1, characterized in that the two shaft columns (13) extend to the outside of the limiting pipe (12) and are fixed with the connecting rods (6) on the same side, and one ends of the two connecting rods (6) far away from the shaft columns (13) are fixedly connected with the sensor body (2).

3. The mining radar sensor convenient to mount according to claim 1, wherein the inner wall of the limiting pipe (12) is provided with two groups of grooves matched with the positioning protrusions (15).

4. The mining radar sensor convenient to mount according to claim 1, characterized in that one end of the stud (17) far away from the limiting disc (18) extends to the outside of the shaft column (13) and is fixedly connected with an adjusting torsion piece (19).

5. The mining radar sensor convenient to mount according to claim 1, wherein the horizontal adjusting assembly comprises a sliding block (7), a sliding rod (8) and a screw rod (9), one side, close to the backing plate (4), of the mounting plate (1) is provided with three sliding grooves (20) distributed in an array mode, the three sliding grooves (20) are internally provided with the sliding block (7) in a sliding mode, the three sliding blocks (7) are fixedly connected with the backing plate (4), the sliding grooves (20) on the two sides are internally provided with the sliding rod (8) in a fixed mode along the length direction, the sliding rod (8) penetrates through the sliding block (7) in a sliding mode, the sliding groove (20) in the middle is provided with the screw rod (9) in a rotating mode along the length direction, and the screw rod (9) is arranged in a threaded mode and penetrates through the sliding block (7).

6. The mining radar sensor convenient to mount according to claim 5, characterized in that an adjusting knob (10) is rotatably arranged on the side wall of the mounting plate (1), and a rotating shaft of the adjusting knob (10) penetrates through and extends into the sliding groove (20) to be fixedly connected with the screw rod (9).

7. The mining radar sensor convenient to mount according to claim 5, wherein compression springs (11) are slidably sleeved on the two sliding rods (8), and the two compression springs (11) on the same side are respectively arranged on two sides of the sliding block (7).

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