CN220853578U - Portable ore pressure observation and measurement pile - Google Patents

Abstract

The utility model discloses a portable mine pressure observation measurement pile which comprises a measurement assembly, wherein the measurement assembly comprises an electronic level meter, a controller, a display screen, a switch group, an indicator lamp, an audible and visual alarm, a connecting sleeve, a rotating shaft, a clockwork spring, a hanging rope and a hammer ball; the bottom of the electronic level is provided with a controller, the front surface of the controller is provided with a display screen and a switch group, one side of the controller is provided with an indicator lamp, and one side of the controller far away from the indicator lamp is provided with an audible-visual alarm. According to the utility model, the hammer ball is placed in the connecting sleeve, so that the observation pile is more compact in structure and convenient to carry and use, meanwhile, the spring can drive the rotating shaft to rotate when the hammer ball is retracted, the suspension rope is automatically wound, the rope is prevented from knotting, the levelness is conveniently detected by the electronic level, and after the level is inclined due to the fact that the roadway is subjected to mine pressure, the sound-light alarm is used for alarming, so that the mine pressure is monitored in real time, and the response speed is improved.

Description

Portable ore pressure observation and measurement pile

Technical field:

The utility model relates to a measuring pile, in particular to a portable mine pressure observation measuring pile, and belongs to the technical field of underground theodolite wire measurement.

The background technology is as follows:

The measurement of the underground theodolite lead refers to the arrangement of measuring stations at selected points along a roadway, and the plane positions of the points are determined by measuring the horizontal angle and the measuring side length by using the theodolite. The only way to establish downhole planar control is to lay theodolite wires, as limited by roadway conditions. The method is a foundation for underground plane measurement, and can map out a roadway and a stope plane graph through theodolite wire measurement, calibrate the excavation place and the excavation direction of the roadway and calibrate the position of underground engineering and equipment.

In the underground measurement process, the measurement piles can be arranged according to the needs, in the use process of the existing measurement piles, due to the fact that the size is large, the existing measurement piles are inconvenient to carry and use, and the string for hanging the hammer ball is easy to knot, so that the use is inconvenient, meanwhile, the existing measurement piles are required to be manually checked and observed for mine pressure, the operation is troublesome, the problems of the measurement piles cannot be found in time, the response speed is slow, and the portable mine pressure observation measurement pile is provided.

The utility model comprises the following steps:

the utility model aims to provide a portable mine pressure observation measurement pile, which solves one of the problems in the background technology.

The utility model is implemented by the following technical scheme: the portable mine pressure observation measurement pile comprises a measurement assembly, wherein the measurement assembly comprises an electronic level meter, a controller, a display screen, a switch group, an indicator lamp, an audible and visual alarm, a connecting sleeve, a rotating shaft, a clockwork spring, a suspension rope and a hammer ball;

The controller is installed to the bottom of electron spirit level, the front surface mounting of controller has display screen and switch group, the pilot lamp is installed to one side of controller, the audible-visual annunciator is installed to one side that the pilot lamp was kept away from to the controller, the lower fixed surface of controller is connected with connecting sleeve, connecting sleeve's inside wall rotates and is connected with the pivot, the lateral wall cover of pivot is equipped with the clockwork spring, clockwork spring installs in connecting sleeve's inside wall, the lateral wall cover of pivot is equipped with hangs the rope, the one end fixedly connected with hammer ball of hanging the rope, hammer ball threaded connection is in connecting sleeve's inside wall.

As a further preferred aspect of the present invention: the top of the measuring assembly is provided with a fixing assembly, and the fixing assembly comprises a top block, a chute, a connecting ring, a fixing bolt, an anti-slip pad, a ball seat, a ball body and a connecting rod;

Two sliding grooves are symmetrically formed in the upper surface of the top block.

As a further preferred aspect of the present invention: the top of kicking block symmetry sliding connection has two go-between, go-between sliding connection is in the inside wall of spout.

As a further preferred aspect of the present invention: the two connecting rings are fixedly connected through the fixing bolts.

As a further preferred aspect of the present invention: the bottom of kicking block fixedly connected with slipmat.

As a further preferred aspect of the present invention: and the outer side wall of the top block is in threaded connection with a ball seat.

As a further preferred aspect of the present invention: the inside wall roll of ball seat is connected with the spheroid, slipmat sets up in the spheroidal top.

As a further preferred aspect of the present invention: the outer side wall of the sphere is fixedly connected with a connecting rod, and one end of the connecting rod is fixedly connected with the electronic level.

The utility model has the advantages that: according to the utility model, the hammer ball is placed in the connecting sleeve, so that the observation pile is more compact in structure and convenient to carry and use, meanwhile, the spring can drive the rotating shaft to rotate when the hammer ball is retracted, the suspension rope is automatically wound, the rope is prevented from knotting, the levelness is conveniently detected by the electronic level, and after the level is inclined due to the fact that the roadway is subjected to mine pressure, the sound-light alarm is used for alarming, so that the mine pressure is monitored in real time, and the response speed is improved.

Description of the drawings:

in order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of the utility model at A;

FIG. 3 is a schematic view of the inner structure of the connecting sleeve according to the present utility model;

Fig. 4 is a schematic view of the internal structure of the tee of the present utility model.

In the figure: 10. a measurement assembly; 11. an electronic level; 12. a controller; 13. a display screen; 14. a switch group; 15. an indicator light; 16. an audible and visual alarm; 17. a connecting sleeve; 18. a rotating shaft; 19. a clockwork spring; 110. a hanging rope; 111. a hammer ball; 20. a fixing assembly; 21. a top block; 22. a chute; 23. a connecting ring; 24. a fixing bolt; 25. an anti-slip pad; 26. a ball seat; 27. a sphere; 28. and (5) connecting a rod.

The specific embodiment is as follows:

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1-4, the present utility model provides a technical solution: the portable ore pressure observation measurement pile comprises a measurement assembly 10, wherein the measurement assembly 10 comprises an electronic level 11, a controller 12, a display screen 13, a switch group 14, an indicator lamp 15, an audible and visual alarm 16, a connecting sleeve 17, a rotating shaft 18, a clockwork spring 19, a suspension rope 110 and a hammer ball 111;

The controller 12 is installed to the bottom of electron spirit level 11, the front surface mounting of controller 12 has display screen 13 and switch group 14, pilot lamp 15 is installed to one side of controller 12, audible-visual annunciator 16 is installed to one side that controller 12 kept away from pilot lamp 15, the lower fixed surface of controller 12 is connected with connecting sleeve 17, connecting sleeve 17's inside wall rotates and is connected with pivot 18, the outside wall cover of pivot 18 is equipped with clockwork spring 19, clockwork spring 19 installs in connecting sleeve 17's inside wall, the outside wall cover of pivot 18 is equipped with hangs rope 110, the one end fixedly connected with hammer ball 111 of hanging rope 110, hammer ball 111 threaded connection is in connecting sleeve 17's inside wall, electron spirit level 11 and controller 12 signal connection for receiving the levelness signal, controller 12 and audible-visual annunciator 16 electric connection, be used for in time sending the alarm signal when the ore deposit pressure changes.

In this embodiment, specific: the top of the measuring assembly 10 is provided with a fixing assembly 20, and the fixing assembly 20 comprises a top block 21, a chute 22, a connecting ring 23, a fixing bolt 24, an anti-slip pad 25, a ball seat 26, a ball 27 and a connecting rod 28;

Two sliding grooves 22 are symmetrically formed in the upper surface of the top block 21, and the sliding grooves 22 limit the connecting ring 23 to limit the movement track of the connecting ring 23.

In this embodiment, specific: the top of the top block 21 is symmetrically and slidably connected with two connecting rings 23, the connecting rings 23 are slidably connected with the inner side walls of the sliding grooves 22, and observation piles are fixed on the top of a roadway through the connecting rings 23, such as anchor rods, supports or supports.

In this embodiment, specific: the two connecting rings 23 are fixedly connected through fixing bolts 24, and the two connecting rings 23 are quickly connected through the fixing bolts 24.

In this embodiment, specific: the bottom of the top block 21 is fixedly connected with an anti-slip pad 25, and the anti-slip pad 25 is used for preventing the sphere 27 from rotating randomly.

In this embodiment, specific: the outer side wall of the top block 21 is in threaded connection with a ball seat 26, and the ball seat 26 and a ball 27 are used for adjusting the levelness of the electronic level 11.

In this embodiment, specific: the inside wall roll connection of ball seat 26 has spheroid 27, and slipmat 25 sets up in the top of spheroid 27.

In this embodiment, specific: the outer side wall of the sphere 27 is fixedly connected with a connecting rod 28, and one end of the connecting rod 28 is fixedly connected with the electronic level 11.

Principle of operation or principle of structure: when the intelligent electronic level meter is used, a measuring pile is fixed on the top of a roadway through the fixing bolt 24 and the connecting ring 23, the levelness of the electronic level meter 11 is adjusted through the ball seat 26 and the ball body 27, the levelness of the electronic level meter 11 is observed through the display screen 13 and the indicating lamp 15 until the electronic level meter 11 is level, the jacking block 21 is rotated, the anti-slip pad 25 is tightly contacted with the ball body 27 to prevent the ball body 27 from rotating, after the mine pressure changes, the electronic level meter 11 detects the levelness change and sends a signal to the controller 12, the controller 12 controls the audible-visual alarm 16 to give an alarm to remind a worker of the mine pressure change, after the measuring pile is used, the connecting ring 23 is opened to take down the measuring pile, the hammer ball 111 is pushed into the connecting sleeve 17, and under the action of the spring 19, the hanging rope 110 is wound on the rotating shaft 18 for the next use, and the hammer ball 111 is screwed on the connecting sleeve 17 for carrying and use.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The portable ore pressure observation measurement pile comprises a measurement assembly (10), and is characterized in that the measurement assembly (10) comprises an electronic level meter (11), a controller (12), a display screen (13), a switch group (14), an indicator lamp (15), an audible and visual alarm (16), a connecting sleeve (17), a rotating shaft (18), a clockwork spring (19), a suspension rope (110) and a hammer ball (111);

The bottom of electronic level (11) is installed controller (12), the front surface mounting of controller (12) has display screen (13) and switch group (14), pilot lamp (15) are installed to one side of controller (12), audible-visual annunciator (16) are installed to one side that pilot lamp (15) were kept away from to controller (12), the lower surface fixedly connected with connecting sleeve (17) of controller (12), the inside wall rotation of connecting sleeve (17) is connected with pivot (18), the outside wall cover of pivot (18) is equipped with clockwork spring (19), clockwork spring (19) are installed in the inside wall of connecting sleeve (17), the outside wall cover of pivot (18) is equipped with hangs rope (110), the one end fixedly connected with hammer ball (111) of hanging rope (110), hammer ball (111) threaded connection is in the inside wall of connecting sleeve (17).

2. The portable mine pressure observation measurement stake of claim 1, wherein a fixing component (20) is arranged at the top of the measurement component (10), and the fixing component (20) comprises a top block (21), a sliding chute (22), a connecting ring (23), a fixing bolt (24), an anti-slip pad (25), a ball seat (26), a ball body (27) and a connecting rod (28);

two sliding grooves (22) are symmetrically formed in the upper surface of the top block (21).

3. A portable mine pressure observation and measurement pile according to claim 2, characterized in that the top of the top block (21) is symmetrically and slidingly connected with two connecting rings (23), and the connecting rings (23) are slidingly connected with the inner side walls of the sliding grooves (22).

4. A portable mine pressure observation and measurement stake according to claim 3, characterized in that the two connection rings (23) are fixedly connected by means of fixing bolts (24).

5. A portable mine pressure observation and measurement pile according to claim 3, characterized in that the bottom of the top block (21) is fixedly connected with an anti-slip pad (25).

6. A portable mine pressure observation and measurement pile according to claim 5, characterized in that the outer side wall of the top block (21) is screwed with a ball seat (26).

7. The portable mine pressure observation and measurement pile according to claim 6, wherein a ball body (27) is connected to the inner side wall of the ball seat (26) in a rolling manner, and the anti-slip pad (25) is arranged on the top of the ball body (27).

8. The portable mine pressure observation and measurement pile according to claim 7, wherein a connecting rod (28) is fixedly connected to the outer side wall of the sphere (27), and one end of the connecting rod (28) is fixedly connected with the electronic level (11).