CN208061399U - A kind of surface mine geological disaster monitoring device - Google Patents

Abstract

The utility model discloses a kind of surface mine geological disaster monitoring devices, including pedestal, the top outer wall side of the pedestal offers the first threaded hole being vertically arranged, and first inner thread of threaded hole be connected with standing screw, the top outer wall intermediate thread of the pedestal is connected with fixing bolt, the top outer wall other side of the pedestal is welded with babinet, the top outer wall of the babinet is screwed sound light crossing-signal, the interior welds of the babinet have horizontally disposed support plate, and the top outer wall of support plate is provided with microprocessor, the side outer wall of the pedestal, which is recessed inwardly, is formed with mounting hole.The utility model is simple in structure, crushing block pushes, so that spring deforms upon, spring pedestal forms pressure sensor and squeezes, when pressure is more than setting value, pass through the control of microprocessor so that alarm occurs for audible-visual annunciator, worker is reminded to withdraw rapidly, so that the accuracy of the novel monitoring is high.

Description

A kind of surface mine geological disaster monitoring device

Technical field

The utility model is related to geological disaster monitoring technology field more particularly to a kind of surface mine geological disaster monitoring dresses It sets.

Background technology

Surface mine refers to the production-operation unit using strip mining transformation mode exploit mineral resources.It is buried by landform and mineral deposit Tibetan condition, surface mine can be divided into hillside open pit and deep trough open pit；By production practice, machine instruction statement mining and waterpower punching can be divided into Adopt two classes.Jetting is only used for exploiting soft mineral deposit, using being widely machine instruction statement mining.The opencut of machine instruction statement mining, mine Rock is divided into certain thickness horizontal slice, is successively removed and is dug up mine from top to bottom.Exploitation be formed by adopt hole, step and The general name of outdoor raceway groove is open pit quarry.Since surface mine is dangerous larger during mining, need to mine into Row monitoring, existing surface mine geological disaster monitoring device is complicated, inconvenient to use, can not accurately matter disaster over the ground It is monitored, causes to constitute great security risk to worker.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of opencut mountainous region proposed Matter disaster monitoring device.

To achieve the goals above, the utility model uses following technical solution：

A kind of surface mine geological disaster monitoring device, including pedestal, the top outer wall side of the pedestal offer perpendicular The first threaded hole being directly arranged, and the inner thread of the first threaded hole is connected with standing screw, in the top outer wall of the pedestal Between be threaded with fixing bolt, the top outer wall other side of the pedestal is welded with babinet, and the top outer wall of the babinet is logical It crosses screw and is fixed with audible-visual annunciator, the interior welds of the babinet have horizontally disposed support plate, and outside the top of support plate Wall is provided with microprocessor, and the side outer wall of the pedestal, which is recessed inwardly, is formed with mounting hole, and the bottom end of the fixing bolt is prolonged The inside of mounting hole is extended to, the inner wall of the mounting hole is connected with horizontally disposed mounting plate, the installation by fixing bolt The outer portion part that plate is located at pedestal is provided with the link block equidistantly distributed, and the top of the link block offers wearing of being vertically arranged The inside in hole, the perforation is interspersed with inserted link, and the bottom end of inserted link is hinged with bottom plate, and the top both ends of the link block lead to respectively It crosses screw and is fixed with pressure sensor, the outer circumferential walls top of the inserted link is welded with top plate, and the bottom both ends of the top plate are equal It is welded with crushing block, the bottom end of the crushing block is welded with the spring being vertically arranged, and the bottom end of spring is welded with spring pedestal, The spring pedestal is connected by bolt with the top of pressure sensor, and top outer wall side of the mounting plate far from pedestal is set It is equipped with air velocity transducer.

Preferably, the hole depth of the mounting hole is 2/3rds of base length, and mounting hole is rectangular parallelepiped structure.

Preferably, the link block is cylindrical structure, and the quantity of link block is two to six.

Preferably, the signal output end of the pressure sensor and air velocity transducer passes through signal wire and microprocessor Signal input part connects.

Preferably, the audible-visual annunciator is connected with switch by conducting wire, and switch is connected with microprocessor.

Preferably, the top outer wall of the mounting plate offers the second threaded hole being vertically arranged, and the second threaded hole and Fixing bolt is adapted.

The beneficial effects of the utility model are：

1. the utility model proposes surface mine geological disaster monitoring device, by being provided with pedestal, when installation, by base Seat lies in a horizontal plane in the tip edges in mine, and by standing screw by itself and ground lock, by the inserted link bottom of different length The bottom plate in portion is buried, and whole installation process is simple on mine versant, and the novel structure is simple.

2. the utility model proposes surface mine geological disaster monitoring device work as mine by being provided with pressure sensor When versant sinks, inserted link is moved down in the drive of bottom plate, and top plate is moved down also with inserted link, and crushing block pushes, and makes It obtains spring to deform upon, spring pedestal forms pressure sensor and squeezes, and when pressure is more than setting value, passes through microprocessor Control so that alarm occurs for audible-visual annunciator, and worker is reminded to withdraw rapidly, so that the accuracy of the novel monitoring is high.

3. the utility model proposes surface mine geological disaster monitoring device can be with by being provided with air velocity transducer Monitor that the wind speed of mine ambient enviroment, applicability are high in time.

Description of the drawings

Fig. 1 be the utility model proposes a kind of surface mine geological disaster monitoring device structural schematic diagram；

Fig. 2 be the utility model proposes a kind of surface mine geological disaster monitoring device local overlooking structural representation Figure；

Fig. 3 be the utility model proposes a kind of surface mine geological disaster monitoring device pedestal and structure of mounting hole show It is intended to.

In figure：1 bottom plate, 2 perforation, 3 mounting plates, 4 pedestals, 5 standing screws, 6 mounting holes, 7 fixing bolts, 8 babinets, 9 sound Light crossing-signal, 10 support plates, 11 microprocessors, 12 top plates, 13 crushing blocks, 14 springs, 15 pressure sensors, 16 spring pedestals, 17 link blocks, 18 air velocity transducers.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-3, a kind of surface mine geological disaster monitoring device, including pedestal 4, the top outer wall side of pedestal 4 The first threaded hole being vertically arranged is offered, and the inner thread of the first threaded hole is connected with standing screw 5, the top of pedestal 4 Outer wall intermediate thread is connected with fixing bolt 7, and the top outer wall other side of pedestal 4 is welded with babinet 8, the top outer wall of babinet 8 It is screwed sound light crossing-signal 9, the interior welds of babinet 8 have horizontally disposed support plate 10, and the top of support plate 10 End outer wall is provided with microprocessor 11, and the side outer wall of pedestal 4, which is recessed inwardly, is formed with mounting hole 6, and the bottom end of fixing bolt 7 is prolonged The inside of mounting hole 6 is extended to, the inner wall of mounting hole 6 is connected with horizontally disposed mounting plate 3, mounting plate 3 by fixing bolt 7 The link block 17 equidistantly distributed is provided in the outer portion part of pedestal 4, the top of link block 17 offers the perforation being vertically arranged 2,2 inside of perforating is interspersed with inserted link, and the bottom end of inserted link is hinged with bottom plate 1, and the top both ends of link block 17 pass through spiral shell respectively Silk is fixed with pressure sensor 15, and the outer circumferential walls top of inserted link is welded with top plate 12, and the bottom both ends of top plate 12 are welded with Crushing block 13, the bottom end of crushing block 13 is welded with the spring 14 being vertically arranged, and the bottom end of spring 14 is welded with spring pedestal 16, Spring pedestal 16 is connected by bolt with the top of pressure sensor 15, top outer wall side setting of the mounting plate 3 far from pedestal 4 There is air velocity transducer 18.

The hole depth of mounting hole 6 is 2/3rds of 4 length of pedestal in the utility model, and mounting hole 6 is cuboid knot Structure, link block 17 is cylindrical structure, and the quantity of link block 17 is two to six, pressure sensor 15 and air velocity transducer 18 Signal output end connected with the signal input part of microprocessor 11 by signal wire, audible-visual annunciator 9 is connected by conducting wire There is switch, and switchs and connected with microprocessor 11, the top outer wall of mounting plate 3 offers the second threaded hole being vertically arranged, and Second threaded hole and fixing bolt 7 are adapted.

Operation principle：When installation, pedestal 4 lies in a horizontal plane in the tip edges in mine, and by standing screw 5 by its And ground lock, the bottom plate 1 of the inserted link bottom of different length is buried on mine versant, by being provided with pressure sensor 15, when mine versant sinks, inserted link is moved down in the drive of bottom plate 1, and top plate 12 is moved down also with inserted link, is squeezed Block 13 pushes so that spring 14 deforms upon, and spring pedestal 16 forms pressure sensor 15 and squeezes, when pressure is more than setting value When, pass through the control of microprocessor 11 so that alarm occurs for audible-visual annunciator 9.

The preferable specific implementation mode of the above, only the utility model, but the scope of protection of the utility model is not Be confined to this, any one skilled in the art within the technical scope disclosed by the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of surface mine geological disaster monitoring device, including pedestal (4), which is characterized in that outside the top of the pedestal (4) Wall side offers the first threaded hole being vertically arranged, and the inner thread of the first threaded hole is connected with standing screw (5), described The top outer wall intermediate thread of pedestal (4) is connected with fixing bolt (7), and the top outer wall other side of the pedestal (4) is welded with The top outer wall of babinet (8), the babinet (8) is screwed sound light crossing-signal (9), the inside weldering of the babinet (8) It is connected to horizontally disposed support plate (10), and the top outer wall of support plate (10) is provided with microprocessor (11), the pedestal (4) Side outer wall be recessed inwardly and be formed with mounting hole (6), the bottom end of the fixing bolt (7) extends to the inside of mounting hole (6), The inner wall of the mounting hole (6) is connected with horizontally disposed mounting plate (3) by fixing bolt (7), and the mounting plate (3) is located at The outer portion part of pedestal (4) is provided with the link block (17) equidistantly distributed, and the top of the link block (17) offers to be set vertically The inside of the perforation (2) set, the perforation (2) is interspersed with inserted link, and the bottom end of inserted link is hinged with bottom plate (1), the link block (17) top both ends have been screwed pressure sensor (15) respectively, and the outer circumferential walls top of the inserted link is welded with top Plate (12), the bottom both ends of the top plate (12) are welded with crushing block (13), and the bottom end of the crushing block (13) is welded with perpendicular The spring (14) being directly arranged, and the bottom end of spring (14) is welded with spring pedestal (16), the spring pedestal (16) passes through bolt It is connected with the top of pressure sensor (15), top outer wall side of the mounting plate (3) far from pedestal (4) is provided with wind speed biography Sensor (18).

2. a kind of surface mine geological disaster monitoring device according to claim 1, which is characterized in that the mounting hole (6) hole depth is 2/3rds of pedestal (4) length, and mounting hole (6) is rectangular parallelepiped structure.

3. a kind of surface mine geological disaster monitoring device according to claim 1, which is characterized in that the link block (17) it is cylindrical structure, and the quantity of link block (17) is two to six.

4. a kind of surface mine geological disaster monitoring device according to claim 1, which is characterized in that the pressure sensing Device (15) is connected by signal wire with the signal input part of microprocessor (11) with the signal output end of air velocity transducer (18).

5. a kind of surface mine geological disaster monitoring device according to claim 1, which is characterized in that the sound-light alarm Device (9) is connected with switch by conducting wire, and switchs and microprocessor (11) connection.

6. a kind of surface mine geological disaster monitoring device according to claim 1, which is characterized in that the mounting plate (3) top outer wall offers the second threaded hole being vertically arranged, and the second threaded hole and fixing bolt (7) are adapted.