CN113758517A

CN113758517A - Geological disaster field monitoring platform

Info

Publication number: CN113758517A
Application number: CN202111050590.5A
Authority: CN
Inventors: 周霞; 陈明
Original assignee: Hubei Xingye Geological Engineering Co ltd
Current assignee: Hubei Xingye Geological Engineering Co ltd
Priority date: 2021-09-08
Filing date: 2021-09-08
Publication date: 2021-12-07

Abstract

The utility model discloses a geological disasters field monitoring platform includes: the device comprises a device body and a control device, wherein the device body comprises a concrete pouring part constructed with a containing groove and a platform installation part which is positioned on the concrete pouring part and constructed with a protection cavity; the concrete pouring part is constructed by concrete blocks poured underground, and the upper end face of the concrete pouring part is provided with a hemispherical groove; the platform mounting part is constructed into a hollow hemisphere, the plane of the platform mounting part is upward, and the platform mounting part can comprise a circular opening arranged on the upper end face of the platform mounting part, a moving disc is arranged in the circular opening, a cylinder corresponding to the circular opening is fixedly arranged in the platform mounting part, the cylinder is communicated with the circular opening, a control assembly for controlling the moving disc to vertically move is arranged in the cylinder, and a hollow mounting column is coaxially and fixedly connected to the upper end face of the moving disc and used for mounting geological monitoring equipment; the platform installation part is also provided with a protection mechanism. The device can be effectual protects geological monitoring equipment.

Description

Geological disaster field monitoring platform

Technical Field

The invention relates to geological disaster monitoring equipment, in particular to a geological disaster field monitoring platform.

Background

Geological disaster monitoring is the work of measuring and monitoring geological disaster activities and dynamic changes of various inducing factors by applying various technologies and methods. The method is an important basis for forecasting geological disasters, and is therefore important content for reducing and preventing disasters. At present, in order to realize the detection of geological disasters, a geological disaster field monitoring platform is often arranged at a position where geological disasters frequently occur, and the place is monitored in real time, so that the harm of the geological disasters is reduced. However, geological disaster monitoring equipment is often installed on a mountain slope and is often damaged due to falling or sliding of stones on the slope. At present, the guard rail is arranged on a platform for mounting the monitoring equipment, which is a common protection technology, and the technology can resist damage of rolling stones and other factors to the monitoring equipment by arranging the guard rail. It is envisaged that this technique has some desirable effect in the monitoring of geological disasters in order to reduce the rate of damage to monitoring equipment. However, the inventor finds that in actual implementation, the technology still has a plurality of problems, for example, the existing guardrail is simple in structure, low in bearing capacity and difficult to deal with complex field environments, and cannot protect monitoring equipment in geological disasters such as landslides or debris flows, so that economic losses are caused.

Disclosure of Invention

In view of the above problems in the prior art, an object of the present invention is to provide a field geological disaster monitoring platform for efficiently protecting monitoring equipment, which can effectively protect the geological monitoring equipment and simultaneously protect the geological monitoring equipment from being damaged when a geological disaster occurs.

In order to achieve the above object, an example of a geological disaster field monitoring platform provided in the present invention is a geological disaster field monitoring platform, on which a geological field monitoring device is fixedly installed, and the geological disaster field monitoring platform includes:

the device comprises a device body and a control device, wherein the device body comprises a concrete pouring part constructed with a containing groove and a platform installation part which is positioned on the concrete pouring part and constructed with a protection cavity;

the concrete pouring part is constructed by concrete blocks poured underground, and the upper end face of the concrete pouring part is provided with a hemispherical groove;

the platform mounting part is constructed into a hollow hemisphere, the plane of the platform mounting part is upward, the platform mounting part can comprise a circular opening arranged on the upper end face of the platform mounting part, a moving disc is arranged in the circular opening, a cylinder corresponding to the circular opening is fixedly arranged in the platform mounting part, the cylinder is communicated with the circular opening, a control assembly for controlling the moving disc to vertically move is arranged in the cylinder, and a hollow mounting column is coaxially and fixedly connected to the upper end face of the moving disc and used for mounting geological monitoring equipment; and the platform mounting part is also provided with a protection mechanism.

As preferred, protection machanism sets up on the platform installation department, and it includes the protection frame that two sets of centrosymmetries set up, every group protection frame includes the arc billet that two symmetries set up, the equal fixedly connected with pivot in arc billet both ends just the arc billet rotates with the platform installation department up end through the pivot at both ends to be connected, the symmetry is provided with two damping shock attenuation posts between arc billet and the platform installation department up end, damping shock attenuation post both ends respectively with arc billet and platform installation department fixed connection, four all sealed fixedly between arc billet and the platform installation department is provided with the wire net.

Preferably, wherein two the radius of arc billet is greater than another two the radius of arc billet is so that four the arc billet all can rotate, the contained angle that is the degree between arc billet and the platform installation department up end.

Preferably, the control assembly comprises a threaded rod vertically arranged in the cylinder, the lower end of the threaded rod is rotatably connected with the bottom wall of the cylinder, a threaded through hole matched with the threaded rod is formed in the movable disc, the upper end of the threaded rod is matched with the hollow part penetrating through the threaded through hole and extending to the mounting column, a plurality of limiting sliding strips are vertically and uniformly fixed on the inner wall of the cylinder, and a plurality of clamping grooves matched with the limiting sliding strips are formed in the movable disc.

Preferably, a servo motor is fixedly installed in the cylinder, a driving bevel gear is coaxially and fixedly connected with the output end of the servo motor, a driven bevel gear is fixedly sleeved on the lower end of the threaded rod, and the driving bevel gear is meshed with the driven bevel gear.

Preferably, still be provided with supplementary protection portion on the platform installation department, supplementary protection subassembly includes a fixed sealed section of thick bamboo that sets up at the platform installation department up end, sealed section of thick bamboo upper end is provided with the opening and is connected with the closing cap through buckle structure, sealed section of thick bamboo embeds there is the gasbag, fixed being provided with gas generator on the diapire in the sealed section of thick bamboo, gas generator's gas outlet and gasbag fixed connection and intercommunication.

Preferably, the air bag is crescent under the state of complete inflation, and the air bag is made of high-strength nylon cloth.

As preferred, the holding tank bottom is provided with the round hole recess, the thick pole of vertical fixed hydraulic pressure that is provided with in the round hole recess, it is provided with a plurality of spacing recesses still to incline on the holding tank inner wall, and is a plurality of all fixed hydraulic pressure pin, a plurality of being provided with in the spacing recess hydraulic pressure pin is all through defeated oil pipe and the thick pole fixed connection of hydraulic pressure and intercommunication, fixedly connected with oil pump on the defeated oil pipe.

Preferably, the oil delivery pipe adopts a bifurcated pipe, and the oil pump is fixedly arranged on the non-bifurcated pipe section of the oil delivery pipe.

Preferably, the oil pump and the servo motor are both electrically connected with an electric controller inside the geological monitoring device.

Compared with the prior art, the geological disaster field monitoring platform provided by the invention has the advantages that through the arranged protection structure, the four arc-shaped steel bars are matched with the steel wire net to play a protection role, and the rotation of the arc-shaped steel bars is limited by the arc-shaped stress surface and the damping shock absorption columns, so that a higher shock absorption protection role is played, and a very high protection role is played for geological monitoring equipment. Meanwhile, when geological disasters occur, the geological monitoring equipment cannot be buried and damaged. Compared with a common geological monitoring platform, the invention has the characteristics of higher protection effect and adaptability to geological disaster conditions.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all features of the disclosed technology.

Drawings

Fig. 1 is a schematic perspective view of a geological disaster field monitoring platform according to the present invention.

Fig. 2 is a schematic perspective view of another perspective view of the field monitoring platform for geological disasters according to the present invention.

Fig. 3 is a schematic perspective view of a geological disaster field monitoring platform according to another aspect of the present invention.

Fig. 4 is a schematic internal three-dimensional structure view of a platform installation part of the geological disaster field monitoring platform.

FIG. 5 is a schematic diagram of an internal three-dimensional structure of a concrete pouring part of the geological disaster field monitoring platform.

Fig. 6 is a schematic structural diagram of an auxiliary protection assembly of the geological disaster field monitoring platform of the present invention.

The main reference numbers:

1 … device body; 11 … concrete pouring part; 12 … platform mounting portion; 13 … protection mechanisms; 111 … accommodating grooves; 121 … protection chamber; 122 … a cylinder; 123 … control components; 124 … mounting posts; 125 … auxiliary protection components; 126 … moving the disc; 131 … protective frame; 132 … an arcuate steel strip; 133 … a rotating shaft; 134 … damping shock-absorbing column; 135 … steel mesh; 1111 … hydraulic thick rod; 1112 … Hydraulic Slim rods; 1113 … oil pipe; 1114 … oil pump; 1231 … threaded rod; 1232 … limit slide; 1233 … servomotor; 1234 … drive bevel gear; 1235 … driven bevel gear; 1251 … sealing the cartridge; 1252 … closure cap; 1253 … balloon; 1254 … gas generator.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings of the embodiments of the present disclosure.

It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present disclosure clear and concise, a detailed description of known functions and known components have been omitted from the present disclosure.

As shown in fig. 1 to 6, a geological disaster field monitoring platform provided in an embodiment of the present invention, on which geological field monitoring equipment is fixedly installed, includes: the device comprises a device body 1, wherein the device body 1 comprises a concrete pouring part 11 with a containing groove 111, and a platform installation part 12 which is positioned on the concrete pouring part 11 and is provided with a protection cavity 121, the platform installation part 12 is a hollow hemisphere, the plane of the platform installation part is upward, and the platform installation part 12 is matched and arranged in the containing groove 111 of the concrete pouring part 11 so that the platform installation part 12 can be fixedly arranged in the field; generally speaking, as geological field monitoring equipment is installed in dangerous areas such as hillsides, slope stones easily fall or slide down, the stones roll along the hillsides and then hit the geological monitoring equipment, which causes damage to the geological monitoring equipment and causes adverse consequences, and at this time, the geological monitoring equipment needs to be protected by the protection mechanism 13, in the invention, the protection mechanism 13 is arranged on the platform installation part 12 and comprises two groups of protection frames 131 which are arranged centrosymmetrically, each group of protection frame 131 comprises two arc steel bars 132 which are arranged symmetrically, two ends of each arc steel bar 132 are fixedly connected with rotating shafts 133, and the arc steel bars 132 are rotatably connected with the upper end face of the platform installation part 13 through the rotating shafts 133 at the two ends, in order to ensure a cross arrangement structure and simultaneously enable the two groups of protection frames 131 not to have interference with each other, further, the radius of two of the arc-shaped steel bars 132 is larger than the radius of the other two arc-shaped steel bars 132 so that the four arc-shaped steel bars 132 can smoothly rotate; in the normal use process, the arc-shaped steel bars 132 and the upper end face of the platform mounting part 12 form an included angle of 60 degrees, but the bearing capacity of the existing monitoring platform guardrail is improved, in order to further improve the protection capacity of the device, in the invention, two damping shock-absorbing columns 134 are symmetrically arranged between the arc-shaped steel bars 132 and the upper end face of the platform mounting part 12, two ends of each damping shock-absorbing column 134 are respectively and fixedly connected with the arc-shaped steel bars 132 and the platform mounting part 12, meanwhile, a protection structure formed by the four arc-shaped steel bars 132 has a larger gap, in order to expand the protection range, steel wire meshes 135 are fixedly arranged between the four arc-shaped steel bars 132 and the platform mounting part 12 in a sealing manner, and the steel wire meshes 135 are arranged along the arc-shaped steel bars 132 to fill the gap between the arc-shaped steel bars 132 and the platform mounting part 12; when arc billet 132 or wire net 135 receive the rock wool collision, at first the curved contact surface can decompose the dispersion with the collision force, meanwhile, arc billet 132 can rotate, and is right damping shock absorber post 134 extrudees or tensile, the further collision force of damping shock absorber post 134 offsets, has higher shock attenuation and resists the effect, four moreover arc billet 132's structural arrangement, every arc billet 132 all receives two other neighbours arc billet 132's supplementary reinforcement effect.

Fig. 4 shows a schematic perspective view of a platform mounting portion 12 of a field monitoring platform for geological disasters, which is suitable for use in the present invention. As shown in fig. 4, in some embodiments, unlike a general installation platform for monitoring devices, since a conventional monitoring box is fixed on a slope of a mountain and is easily buried or damaged when landslide or debris flow occurs, the platform installation portion 12 needs to have a protection function for the geological monitoring device, and the platform installation portion 12 of the present invention may include a circular opening formed on an upper end surface of the platform installation portion 12, the circular opening is provided with a moving plate 126 therein, the platform installation portion 12 is fixedly provided with a cylinder 122 corresponding to the circular opening, the cylinder 122 is communicated with the circular opening, the cylinder 122 is provided with a control assembly 123 for controlling the moving plate 126 to move vertically, an upper end surface of the moving plate 126 is coaxially and fixedly connected with a hollow installation column 124 for installing the geological monitoring device, when geological disasters such as landslide or debris flow occur, the movable disc 126 is retracted towards the inside of the platform installation part 12, the installation column 124 is partially retracted, the platform installation part 12 and the protection mechanism 13 on the platform installation part form a spheroid, rolling can be carried out, and therefore equipment cannot be buried or damaged.

In the present invention, the control assembly 123, which is a main component for implementing the retracting action and is required to ensure a stable working state and a faster action efficiency, should have a suitable movement stroke, but for the special shape of the platform mounting portion 12, the control assembly 123 applicable to the present invention includes a threaded rod 1231 vertically disposed in the cylinder 122, the lower end of the threaded rod 1231 is rotatably connected with the inner bottom wall of the cylinder 122, the movable plate 126 is provided with a threaded through hole matched with the threaded rod 1231, and the upper end of the threaded rod 1231 is matched to extend to the hollow interior of the mounting post 124 through the threaded through hole; the movable disc 126 is driven to move through a threaded structure, so that stability is achieved, but in order to achieve the driving effect of the threaded structure, the movable disc 126 should be limited to be incapable of rotating, a plurality of limiting sliding strips 1232 are vertically and uniformly fixed on the inner wall of the cylinder 122, and a plurality of clamping grooves matched with the limiting sliding strips 1232 are formed in the movable disc 126; in order to realize the rotation of the threaded rod 1231, a driving structure needs to be arranged in the cylinder 122, a servo motor 1233 is fixedly arranged in the cylinder 122, an output end of the servo motor 1233 is coaxially and fixedly connected with a driving bevel gear 1234, a driven bevel gear 1235 is fixedly sleeved on the lower end of the threaded rod 1231, the driving bevel gear 1234 is meshed with the driven bevel gear 1235, the servo motor 1233 can be controlled by a controller to rotate forward and backward, the vertical moving direction of the moving plate 126 is controlled according to requirements, and meanwhile, a limiting protrusion is further arranged on the inner wall of the cylinder 122 to limit the maximum moving stroke of the moving plate 126 to the inside of the cylinder 122.

Furthermore, as mentioned above, in the present invention, the monitoring device is mainly protected by the protection structure, which can ensure the safety during normal use, but when landslide or debris flow occurs, the platform installation part 12 has already triggered the rolling state, which is likely to encounter complex terrain or environment during the rolling process, and the protection effect of the simple protection structure cannot play a complete protection role; preferably, as shown in fig. 1 and 4, an auxiliary protection member is further provided on the platform mounting portion 12. It should be noted that if an auxiliary guardrail structure is added, the top end position of the mounting post 124 cannot be protected better, and the auxiliary guardrail structure overlaps with the function of the protection mechanism, and the protection effect cannot be improved in practical use, therefore, in the present invention, the upper side of the platform mounting portion 12 is further uniformly provided with a plurality of auxiliary protection components 125, in order to ensure the coverage of the protection effect, the plurality of auxiliary protection components 125 are fixedly arranged on the upper end surface of the platform mounting portion 12 around the mounting post 124, the number of the auxiliary protection components should be not less than four, the auxiliary protection component 125 comprises a sealing cylinder 1251 fixedly arranged on the upper end surface of the platform mounting portion 12, the upper end of the sealing cylinder 1251 is provided with an opening and is connected with a sealing cover 1252 through a buckle structure, the air bag 1253 is arranged in the sealing cylinder 1251, and the inner bottom wall of the sealing cylinder 1251 is fixedly provided with an air generator 4, the air outlet of the gas generator 1254 is fixedly connected and communicated with the air bag 1253; in order to realize wrapping performance, the airbag 1253 is crescent under the state of complete inflation and expansion, the specific width is determined according to the installation number, the airbag 1253 mainly plays a role in wrapping the installation column 124, further, the airbag 1253 is made of high-strength nylon cloth, the material with wide application has high resistance, is not easy to damage and can improve the protection effect, and when all the airbags 1253 are completely inflated and roll, when the whole upper end is impacted, the airbag 1253 contracts, the main force bearing parts are also the four arc-shaped steel bars 132, and the airbags 1253 cannot be used as the main force bearing parts; it should be noted that, at this time, the mounting post 124 has already been retracted to a certain length into the platform mounting portion 12, and will not bear a force, and during the ordinary use, the height of the mounting post 124 should be higher than the height of the four arc steel bars 132, so as to ensure the normal operation of the geological monitoring equipment.

As described above, in the present invention, the concrete pouring section 11 is actually a main supporting and fixing structure outside the platform installation section 12, and if the platform installation section 12 is directly placed in the accommodating groove 111 on the concrete pouring section 11, the platform installation section 12 may be unstable in inclination at ordinary times, but in case of landslide or debris flow, it is necessary to remove the platform installation section 12 from the accommodating groove 111 at the first time. Therefore, in a further improvement of the present invention, a circular hole groove is formed at the bottom of the accommodating groove 111, a hydraulic thick rod 1111 is vertically and fixedly arranged in the circular hole groove, a plurality of limiting grooves are also obliquely arranged on the inner wall of the accommodating groove 111, hydraulic thin rods 1112 are fixedly arranged in the plurality of limiting grooves, the plurality of hydraulic thin rods 1112 are fixedly connected and communicated with the hydraulic thick rod 1111 through an oil pipe 1113, an oil pump 1114 is fixedly connected to the oil pipe 1113, the oil pipe 1113 adopts a bifurcated pipe, but the oil pump 1114 is fixedly arranged at the non-bifurcated section of the oil pipe 1113, when the oil pump 1114 works, oil can be selectively conveyed to the hydraulic thick rod 1111 or the plurality of hydraulic thin rods 1112, when the platform mounting portion is used at ordinary times, the oil is conveyed to the plurality of hydraulic thin rods 1112 by the oil pump, the plurality of hydraulic thin rods 1112 extend out of the limiting grooves to limit and fix the platform mounting portion 12, the platform mounting part 12 is provided with a limiting hole matched with the hydraulic thin rods 1112, when the platform mounting part 12 needs to be ejected, oil is conveyed towards the hydraulic thick rods 1111 by the oil pump 1114, the limiting effect on the platform mounting part 12 is relieved by retracting the hydraulic thin rods 1112, the hydraulic thick rods 1111 extend to eject the platform mounting part 12 out of the accommodating groove 111, and the platform mounting part 12 is quickly separated; in the present invention, the oil pump 1114 is controlled by an electric controller provided in the geological monitoring apparatus, and the servo motor 1233 receives a signal monitored in the geological monitoring apparatus in the same manner.

In addition, the present invention has another improvement, in this embodiment, a safety belt structure is further fixedly disposed on the mounting post 124, so that people can tie up their bodies, when people encounter debris flow or landslide on a mountain, if there is a geological monitoring platform around the geological monitoring platform, people run onto the platform mounting portion 12, and when the geological monitoring platform is triggered, people are wrapped and protected by the air bag 1253 and roll down along with the whole device towards the mountain, so that the safety of people encountering geological disasters is increased.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims

1. A geological disaster field monitoring platform is fixedly provided with geological field monitoring equipment, and comprises:

2. The monitoring platform according to claim 1, wherein the protection mechanism is disposed on the platform mounting portion and comprises two sets of protection frames which are arranged in a central symmetry manner, each set of protection frame comprises two arc-shaped steel bars which are symmetrically arranged, two ends of each arc-shaped steel bar are fixedly connected with rotating shafts, the arc-shaped steel bars are rotatably connected with the upper end surface of the platform mounting portion through the rotating shafts at two ends, two damping shock-absorbing columns are symmetrically disposed between the arc-shaped steel bars and the upper end surface of the platform mounting portion, two ends of each damping shock-absorbing column are respectively fixedly connected with the arc-shaped steel bars and the platform mounting portion, and four steel wire meshes are fixedly disposed between the arc-shaped steel bars and the platform mounting portion in a sealing manner.

3. A monitoring platform according to claim 2, wherein the radius of two of said curved bars is greater than the radius of the other two of said curved bars so that four of said curved bars can rotate, said curved bars being at an angle to the upper end surface of the platform mounting portion.

4. The monitoring platform according to claim 1, wherein the control assembly comprises a threaded rod vertically arranged in the cylinder, the lower end of the threaded rod is rotatably connected with the bottom wall of the cylinder, a threaded through hole matched with the threaded rod is formed in the moving plate, the upper end of the threaded rod is matched and penetrates through the threaded through hole to extend to the hollow interior of the mounting column, a plurality of limiting sliding strips are vertically and uniformly and fixedly arranged on the inner wall of the cylinder, and a plurality of clamping grooves matched with the limiting sliding strips are formed in the moving plate.

5. The monitoring platform according to claim 4, wherein a servo motor is fixedly installed in the cylinder, an output end of the servo motor is coaxially and fixedly connected with a driving bevel gear, a driven bevel gear is fixedly sleeved on a lower end of the threaded rod, and the driving bevel gear is in meshed connection with the driven bevel gear.

6. The monitoring platform according to claim 1, wherein the platform mounting portion further comprises an auxiliary protection portion, the auxiliary protection assembly comprises a sealing cylinder fixedly disposed on an upper end surface of the platform mounting portion, an opening is disposed at an upper end of the sealing cylinder and a sealing cover is connected to the sealing cylinder through a buckle structure, an air bag is disposed in the sealing cylinder, a gas generator is fixedly disposed on an inner bottom wall of the sealing cylinder, and a gas outlet of the gas generator is fixedly connected and communicated with the air bag.

7. The monitoring platform of claim 6, wherein the balloon is crescent-shaped when fully inflated, and is made of high-strength nylon cloth.

8. The monitoring platform according to claim 1, wherein a circular hole groove is formed in the bottom of the accommodating groove, a hydraulic thick rod is vertically and fixedly arranged in the circular hole groove, a plurality of limiting grooves are obliquely arranged on the inner wall of the accommodating groove, hydraulic thin rods are fixedly arranged in the limiting grooves, the hydraulic thin rods are fixedly connected and communicated with the hydraulic thick rod through an oil conveying pipe, and an oil pump is fixedly connected to the oil conveying pipe.

9. A monitoring platform according to claim 8, wherein the oil pipeline is a bifurcated pipe, and the oil pump is fixedly arranged in an undivided section of the oil pipeline.

10. The monitoring platform of claim 8, the oil pump and the servo motor each electrically connected to an electrical controller within the geological monitoring apparatus.