CN215728775U - Device for monitoring mine geological environment - Google Patents

Abstract

The utility model discloses a device for monitoring mine geological environment, which comprises an installation seat, wherein the bottom of the installation seat is provided with two loop bars, the two loop bars are symmetrically distributed at the bottom of the installation seat by taking a vertical central line of the installation seat as a symmetry axis, the bottom of each loop bar is provided with a first spring, and the bottom of each first spring is provided with a sleeve. The device can be used on a bumpy road surface by arranging the first spring and the second spring, the device is prevented from being damaged due to vibration caused by uneven road surface, the monitoring effect of the device on uneven road surface is improved, a limiting plate is arranged, so that a worker can conveniently install the monitoring device body, the subsequent maintenance of the monitoring device body is facilitated, the maintenance efficiency of the worker is improved, the monitoring work is prevented from being delayed, the device is convenient for a user to move by hinging the push rod, and the angle of the push rod can be adjusted by the user according to personal requirements in a hinging mode.

Description

Device for monitoring mine geological environment

Technical Field

The utility model relates to the technical field of geological environment monitoring, in particular to a device for monitoring mine geological environment.

Background

The ground penetrating radar is an effective means for detecting underground targets developed in recent decades, is a nondestructive detection technology, has the advantages of high detection speed, continuous detection process, high resolution, convenient and flexible operation, low detection cost and the like compared with other conventional underground detection methods, and is increasingly widely applied to the field of engineering exploration.

However, some ground penetrating radars used for monitoring the geological environment of the mine still have the defects that:

1. some ground penetrating radars that are used for mine geological environment monitoring who uses now should not use on comparatively jolting road surface, because produce great vibrations to the device, easily lead to the device impaired, influence the monitoring effect of device.

2. Some ground penetrating radars used for monitoring the mine geological environment are inconvenient to install, and when the radars need to be maintained, the maintenance efficiency of workers is reduced, and the monitoring work is delayed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a device for monitoring the geological environment of a mine, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a device for mine geological environment monitoring, includes the mount pad, the loop bar is installed to the bottom of mount pad, the quantity of loop bar is two and uses the vertical central line of mount pad as the bottom of symmetry axis symmetric distribution at the mount pad, first spring is installed to the bottom of loop bar, the sleeve is installed to the bottom of first spring, the backup pad is installed to telescopic bottom, the auto-lock wheel is installed to the bottom of backup pad, first fixed plate is installed at the top of backup pad, the inside slidable mounting of first fixed plate has the slider, the quantity of slider is two and sets up in the inside of first fixed plate relatively, the inside fixed mounting of slider has first pivot, the quantity of first pivot is two and sets up in the inside of slider relatively, the outside of first pivot is rotated and is connected with the connecting rod, the quantity of connecting rod is two and rotates respectively and connects in the outside of first pivot, the utility model discloses a monitoring device, including mount pad, connecting rod, monitoring device body, mounting box, swivel mount, gear swing joint, limiting rod, inserted bar, fixed case, the inside swing joint of fixed case has the cardboard, the third spring is installed on the right side of fixed incasement wall, the second fixed plate is installed to the relative one side of connecting rod, the monitoring device body is installed at the top of mount pad, the install bin is installed at the top of mount pad, the swivel mount is installed to the inner wall of install bin, the swivel mount of swivel mount, the pivoted joint has the rack, gear and rack toothing, the limiting plate is installed on the right side of rack, the inserted bar is installed in the left side of monitoring device body, fixed case is installed on the right side of install bin, the inside swing joint of fixed case has the cardboard, the third spring is installed on the right side of fixed incasement wall.

Preferably, the baffle is installed at the top of mount pad, the left side of mount pad articulates there is the push rod.

Preferably, a sliding groove matched with the sliding block is formed in the first fixing plate.

Preferably, the second fixing plate is internally provided with two second rotating shafts, and the two second rotating shafts are symmetrically distributed in the second fixing plate by taking the vertical central line of the second fixing plate as a symmetry axis.

Preferably, the limiting plate is internally provided with a groove matched with the inserted rod.

Preferably, the clamping plate is meshed with the gear, the pulling plate is installed on the right side of the clamping plate, the limiting ring is installed on the outer portion of the clamping plate, and the right side of the limiting ring is installed at the left end of the third spring.

Compared with the prior art, the utility model provides a device for monitoring the geological environment of a mine, which has the following beneficial effects:

1. according to the utility model, the first spring and the second spring are arranged, so that the device can be used on bumpy roads, the device is prevented from being damaged due to vibration generated by uneven roads, and the monitoring effect of the device on uneven roads is improved.

2. According to the utility model, the limiting plate is arranged, so that the monitoring device body can be conveniently installed by a worker, the subsequent maintenance of the monitoring device body is facilitated, the maintenance efficiency of the worker is improved, the monitoring work is prevented from being delayed, the device is convenient for a user to move by hinging the push rod, and the angle of the push rod can be adjusted by the user according to personal requirements in a hinging mode.

Drawings

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

FIG. 2 is an enlarged view taken at A in FIG. 1 according to the present invention;

fig. 3 is a left side view of the first fixing plate and the slider assembly of the present invention.

In the figure: 1. a mounting seat; 2. a loop bar; 3. a first spring; 4. a sleeve; 5. a support plate; 6. a first fixing plate; 7. a slider; 8. a first rotating shaft; 9. a connecting rod; 10. a second fixing plate; 11. a second spring; 12. a monitoring device body; 13. installing a box; 14. rotating; 15. a gear; 16. a limiting rod; 17. a rack; 18. a limiting plate; 19. inserting a rod; 20. a fixed box; 21. clamping a plate; 22. and a third spring.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an embodiment of the present invention is shown: a device for monitoring mine geological environment comprises a mounting seat 1, wherein sleeve rods 2 are mounted at the bottom of the mounting seat 1, the number of the sleeve rods 2 is two, the sleeve rods are symmetrically distributed at the bottom of the mounting seat 1 by taking a vertical central line of the mounting seat 1 as a symmetry axis, first springs 3 are mounted at the bottom of the sleeve rods 2, sleeves 4 are mounted at the bottoms of the first springs 3, supporting plates 5 are mounted at the bottoms of the sleeves 4, self-locking wheels are mounted at the bottoms of the supporting plates 5, first fixing plates 6 are mounted at the tops of the supporting plates 5, sliders 7 are slidably mounted inside the first fixing plates 6, the number of the sliders 7 is two and are oppositely arranged inside the first fixing plates 6, first rotating shafts 8 are fixedly mounted inside the sliders 7, connecting rods 9 are rotatably connected to the outside of the first rotating shafts 8 respectively, second fixed plate 10 is installed to the bottom of mount pad 1, second spring 11 is installed to the relative one side of connecting rod 9, monitoring devices body 12 is installed at the top of mount pad 1, install bin 13 is installed at the top of mount pad 1, swivel mount 14 is installed to the inner wall of install bin 13, swivel mount 14's externally mounted has gear 15, the hand (hold) is installed in gear 15's front, gag lever post 16 is installed in the left side of install bin 13 inner wall, gag lever post 16's outside swing joint has rack 17, gear 15 and rack 17 mesh, limiting plate 18 is installed on rack 17's right side, inserted bar 19 is installed in monitoring devices body 12's left side, fixed case 20 is installed on install bin 13's right side, the inside swing joint of fixed case 20 has cardboard 21, third spring 22 is installed on the right side of fixed case 20 inner wall.

In this implementation, the baffle is installed at the top of mount pad 1, and the left side of mount pad 1 articulates there is the push rod, and the baffle can be spacing to monitoring devices body 12, and the push rod person of facilitating the use mobile device.

In this embodiment, a sliding groove adapted to the sliding block 7 is formed in the first fixing plate 6, so that the sliding block 7 can slide in the first fixing plate 6.

In this implementation, the internally mounted of second fixed plate 10 has the second pivot, and the quantity of second pivot is two and uses the vertical central line of second fixed plate 10 as the inside of symmetry axisymmetric distribution at second fixed plate 10, makes connecting rod 9 can rotate, and connecting rod 9 drives that second spring 11 is flexible to play the bradyseism effect to monitoring devices body 12.

In this implementation, the limiting plate 18 is provided with a groove adapted to the insertion rod 19, so that the monitoring device body 12 can be conveniently installed, subsequent maintenance of the monitoring device body 12 is facilitated, and the maintenance efficiency is improved.

In this implementation, cardboard 21 and gear 15 mesh, and the arm-tie is installed to the right side of cardboard 21, and the externally mounted of cardboard 21 has spacing ring and the right side of spacing ring and the left end installation of third spring 22, and cardboard 21 is spacing to gear 15, prevents that gear 15 from taking place to rotate, and third spring 22 is spacing to cardboard 21.

The working principle is as follows: when the monitoring device body 12 needs to be maintained, the pulling plate is pulled outwards, the pulling plate drives the clamping plate 21 to move outwards, the limiting ring compresses the third spring 22 rightwards, the handle is rotated anticlockwise, the handle drives the gear 15 to rotate anticlockwise, the rack 17 meshed with the gear 15 drives the limiting plate 18 to move leftwards, when the inserted link 19 is not positioned inside the limiting plate 18, the monitoring device body 12 can be taken down for maintenance, the push rod is pushed to enable the device to move to a place needing to be monitored through the self-locking wheel, the first spring 3 stretches during the moving process, the first spring 3 drives the loop bar 2 to slide inside the sleeve 4, the second spring 11 stretches, the second spring 11 drives the connecting rod 9 to rotate outside the first rotating shaft 8 and the second rotating shaft, the connecting rod 9 drives the sliding block 7 to slide inside the first fixing plate 6, and the stretching of the first spring 3 and the second spring 11 plays a role in cushioning for the monitoring device body 12, the monitoring device body 12 is prevented from being damaged by vibration.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (6)

1. A device for mine geological environment monitoring, includes mount pad (1), its characterized in that: the bottom of the mounting seat (1) is provided with two loop bars (2), the loop bars (2) are symmetrically distributed at the bottom of the mounting seat (1) by taking a vertical central line of the mounting seat (1) as a symmetry axis, the bottom of the loop bars (2) is provided with a first spring (3), the bottom of the first spring (3) is provided with a sleeve (4), the bottom of the sleeve (4) is provided with a support plate (5), the bottom of the support plate (5) is provided with a self-locking wheel, the top of the support plate (5) is provided with a first fixed plate (6), the inside of the first fixed plate (6) is provided with two sliding blocks (7), the number of the sliding blocks (7) is two and is relatively arranged inside the first fixed plate (6), the inside of the sliding blocks (7) is fixedly provided with a first rotating shaft (8), the number of the first rotating shaft (8) is two and is relatively arranged inside the sliding blocks (7), the outside of first pivot (8) is rotated and is connected with connecting rod (9), the quantity of connecting rod (9) is two and rotates respectively and connect in the outside of first pivot (8), second fixed plate (10) are installed to the bottom of mount pad (1), second spring (11) are installed to the relative one side of connecting rod (9), monitoring device body (12) are installed at the top of mount pad (1), install box (13) are installed to the top of mount pad (1), swivel mount (14) are installed to the inner wall of install box (13), the externally mounted of swivel mount (14) has gear (15), the hand (hold) is installed in the front of gear (15), gag lever post (16) is installed in the left side of install box (13) inner wall, the outside swing joint of gag lever post (16) has rack (17), gear (15) and rack (17) meshing, limiting plate (18) are installed on the right side of rack (17), inserted bar (19) are installed in the left side of monitoring devices body (12), fixed case (20) are installed on the right side of install bin (13), the inside swing joint of fixed case (20) has cardboard (21), third spring (22) are installed on the right side of fixed case (20) inner wall.

2. The apparatus for mine geological environment monitoring of claim 1, characterized in that: the baffle is installed at the top of mount pad (1), the left side of mount pad (1) articulates there is the push rod.

3. The apparatus for mine geological environment monitoring of claim 1, characterized in that: and a sliding groove matched with the sliding block (7) is formed in the first fixing plate (6).

4. The apparatus for mine geological environment monitoring of claim 1, characterized in that: the inside of second fixed plate (10) is installed the second pivot, and the quantity of second pivot is two and uses the vertical central line of second fixed plate (10) as the inside of symmetry distribution in second fixed plate (10).

5. The apparatus for mine geological environment monitoring of claim 1, characterized in that: the limiting plate (18) is internally provided with a groove matched with the inserted rod (19).

6. The apparatus for mine geological environment monitoring of claim 1, characterized in that: the clamping plate (21) is meshed with the gear (15), the pulling plate is installed on the right side of the clamping plate (21), the limiting ring is installed on the outer portion of the clamping plate (21), and the right side of the limiting ring is installed at the left end of the third spring (22).

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