CN216309038U - Wireless transmission device for fixed-point acquisition of natural disaster general survey geology - Google Patents

Abstract

The utility model provides a natural disaster general survey geology fixed point acquisition wireless transmission device, which comprises: the device comprises a pier, a pipe seat, a supporting pipe, an assembling plate, a solar panel bracket, a monitoring ball cover, a flange plate, a large bolt, an access door and a partition plate; a pipe seat is arranged in the middle of the interior of the abutment, and the abutment is connected with the pipe seat in an embedding mode; the supporting tube is arranged at the upper end of the tube seat and is connected with the tube seat in a welding mode; the assembly plate is arranged at the top end of the supporting pipe and is connected with the supporting pipe in a welding mode; the solar panel support sets up the left end in the assembly panel top, and the solar panel support is connected through the welding mode with the assembly panel. Through the improvement to above-mentioned structure, it is firm to have a structure, and the detection process is stable and more accurate, greatly increased its security performance and use value advantage such as to effectual problem and the not enough that appear in having solved current device.

Description

Wireless transmission device for fixed-point acquisition of natural disaster general survey geology

Technical Field

The utility model relates to the technical field of geological census, in particular to a geological fixed-point acquisition wireless transmission device for natural disaster census.

Background

The general survey of the geographical national conditions is an important national condition and national power survey, is an important means for comprehensively acquiring the information of the geographical national conditions, is the basic work for mastering the natural, ecological and humanistic geographical elements of the earth surface, is the requirement of social and economic development and ecological civilized construction, for example, the geological general survey of natural disasters can effectively detect the natural disasters in advance, make prevention in advance and have important significance for protecting the lives and properties of people.

However, the existing natural disaster geological census device has certain disadvantages, such as fixed point census, common fixed point census devices have common structures and poor natural environment resistance functions, and the problems of errors in monitoring and the like caused by the fact that the devices are likely to vibrate left and right when the devices meet the weather of strong wind.

In view of this, research and improvement are carried out to solve the existing problems, and a wireless transmission device for fixed point acquisition of natural disaster general survey geology is provided, aiming at achieving the purposes of solving the problems and improving the practical value through the technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a natural disaster general survey geology fixed point acquisition wireless transmission device to solve the problems and the defects in the background technology.

In order to achieve the purpose, the utility model provides a natural disaster general survey geology fixed point acquisition wireless transmission device, which is achieved by the following specific technical means:

a natural disaster census geology fixed point acquisition wireless transmission device includes: the device comprises a pier, a pipe seat, a supporting pipe, an assembling plate, a solar panel bracket, a monitoring ball cover, a flange plate, a large bolt, an access door and a partition plate; a pipe seat is arranged in the middle of the interior of the abutment, and the abutment is connected with the pipe seat in an embedding mode; the supporting tube is arranged at the upper end of the tube seat and is connected with the tube seat in a welding mode; the assembly plate is arranged at the top end of the supporting pipe and is connected with the supporting pipe in a welding mode; the solar panel bracket is arranged at the left end above the assembling plate and is connected with the assembling plate in a welding mode; the monitoring ball cover is arranged at the left end below the assembling plate, and the monitoring ball cover is screwed with the assembling plate through a bolt; the flange plate is arranged on the outer wall of the bottom end of the supporting tube and is connected with the supporting tube in a welding mode; the large bolts penetrate through the flange plate, and are screwed with the flange plate through threads; the access door is arranged on one side of the upper end of the supporting tube and is connected with the supporting tube in a hinged mode; the baffle sets up in the inside of stay tube upper end, and the baffle is connected through the welding mode with the stay tube.

According to the wireless transmission device for the fixed point acquisition of the natural disaster general survey geology, the abutment is a trapezoidal abutment with a bowl-shaped groove in the middle of the upper end face, four threaded columns which are arranged in a cross shape are poured on four sides of the upper end face of the abutment, and a through hole through which a pipe seat penetrates up and down is formed in the middle of the interior of the abutment.

As a further optimization of the technical scheme, the tube seat of the natural disaster general survey geological fixed-point acquisition wireless transmission device is of a hollow structure with a cylindrical upper part and a conical bottom, and the upper end and the lower end of the tube seat are communicated and are not closed.

As a further optimization of the technical scheme, the supporting tube of the natural disaster general survey geological fixed point acquisition wireless transmission device is a hollow cylinder which is communicated up and down, a square opening is formed in one side of the upper end of the supporting tube, and a partition plate with a circular sheet structure is arranged inside the middle position of the square opening.

According to the wireless transmission device for the fixed-point acquisition of the natural disaster general survey geology, disclosed by the utility model, as a further optimization of the technical scheme, the assembly plate is of a rectangular box body structure, a round hole communicated with the inner space of the supporting tube is formed in the middle of the right end below the assembly plate, and a through hole is formed in the middle of the left end below the assembly plate.

As a further optimization of the technical scheme, the natural disaster general survey geology fixed point acquisition wireless transmission device is characterized in that the left side and the right side of the upper end of the monitoring ball cover are integrally provided with fixing lugs with through holes in the middle, and the fixing lugs are screwed and fixed with the assembling plate through bolts.

As a further optimization of the technical scheme, the flange plate of the natural disaster general survey geological fixed point acquisition wireless transmission device is of a circular sheet structure with a through hole in the middle, threaded holes corresponding to the threaded columns of the abutment in pairs are formed in the periphery of the flange plate, and the threaded holes of the flange plate are connected with the threaded columns of the abutment through large bolts.

According to the technical scheme, the solar panel support is a tripod, and the support at the left end is a hollow structure with the upper end and the lower end not closed and penetrates into the assembly plate.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. according to the wireless transmission device for the fixed-point acquisition of the natural disaster general investigation geology, the pier is arranged at the bottom of the pipe seat, the flange plate is arranged on the outer wall of the bottom end of the supporting pipe and is connected with the supporting pipe through the large bolt, so that the pipe seat and the supporting pipe are more stable and are not easy to vibrate due to weather influences such as strong wind and the like, the detection process is stable and more accurate, and the practical performance is improved.

2. According to the natural disaster general investigation geology fixed point acquisition wireless transmission device, the bottom of the tube seat is arranged to be an open conical structure, and the access door is arranged on the upper portion of the supporting tube, so that an underground geology detector can penetrate into the supporting tube and the tube seat through the access door, the underground detector is protected, and the safety performance and the practical value of the underground detector are greatly increased.

3. According to the natural disaster general investigation geology fixed point acquisition wireless transmission device, the partition plate is arranged inside the upper end of the supporting tube, the assembling plate is arranged on the upper end of the supporting tube, the internal space of the assembling plate is communicated, so that a storage battery, a power line and the like of a solar panel can be placed on the upper portion of the partition plate through the inside of the assembling plate, and the natural disaster general investigation geology fixed point acquisition wireless transmission device has higher practical value.

4. Through the improvement of the structure, the utility model has the advantages of stable structure, stable and more accurate detection process, greatly increased safety performance and use value and the like, thereby effectively solving the problems and the defects of the existing device.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic view of the external structure of the present invention;

FIG. 3 is a schematic top view of the abutment of the present invention;

in the figure: pier 1, tube socket 2, stay tube 3, assembly plate 4, solar panel support 5, control ball cover 6, ring flange 7, big bolt 8, access door 9, baffle 10.

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.

It is to be noted that, 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.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; 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.

Referring to fig. 1 to 3, the present invention provides a specific technical implementation of a natural disaster census geological fixed point acquisition wireless transmission device:

a natural disaster census geology fixed point acquisition wireless transmission device includes: the device comprises a pier 1, a pipe seat 2, a supporting pipe 3, an assembling plate 4, a solar panel bracket 5, a monitoring ball cover 6, a flange 7, a large bolt 8, an access door 9 and a partition plate 10; a pipe seat 2 is arranged at the middle position inside the abutment 1, and the abutment 1 is connected with the pipe seat 2 in an embedding mode; the supporting tube 3 is arranged at the upper end of the tube seat 2, and the supporting tube 3 is connected with the tube seat 2 in a welding mode; the assembly plate 4 is arranged at the top end of the support tube 2, and the assembly plate 4 is connected with the support tube 2 in a welding mode; the solar panel bracket 5 is arranged at the left end above the assembling plate 4, and the solar panel bracket 5 is connected with the assembling plate 4 in a welding mode; the monitoring ball cover 6 is arranged at the left end below the assembling plate 4, and the monitoring ball cover 6 is screwed with the assembling plate 4 through a bolt; the flange 7 is arranged on the outer wall of the bottom end of the support tube 3, and the flange 7 is connected with the support tube 3 in a welding mode; the large bolts 8 penetrate through the flange plate 7, and the large bolts 8 are screwed with the flange plate 7 through threads; the access door 9 is arranged on one side of the upper end of the supporting tube 3, and the access door 9 is connected with the supporting tube 3 in a hinged mode; the partition 10 is disposed inside the upper end of the support tube 3, and the partition 10 is connected to the support tube 3 by welding.

Specifically, the abutment 1 is a trapezoidal abutment with a bowl-shaped groove arranged in the middle of the upper end face, four threaded columns arranged in a cross shape are poured on four sides of the upper end face of the abutment 1, and a through hole for the pipe seat 2 to penetrate through is formed in the middle of the inner portion of the abutment.

Specifically, the tube seat 2 is a hollow structure with a cylindrical upper part and a conical bottom, and the upper end and the lower end of the tube seat 2 are communicated and are not closed.

Specifically, the supporting tube 3 is a hollow cylinder which is through from top to bottom, one side of the upper end of the supporting tube 3 is provided with a square opening, a partition plate 10 of a circular sheet structure is arranged inside the middle position of the square opening, and meanwhile, as shown in a combined view of fig. 2, the tube wall on the right side of the square opening is hinged to the access door 9, and the tube wall on the left side of the square opening is fixedly connected with the access door 9 through bolts.

Specifically, the assembly plate 4 is the rectangle box body structure, and the intermediate position of 4 below right-hand members of assembly plate is equipped with the round hole that link up with 3 inner spaces of stay tube to the intermediate position of 4 below left ends of assembly plate is equipped with the through-hole.

Specifically, the left side and the right side of the upper end of the monitoring ball cover 6 are of an integrated structure and are provided with fixing lugs with through holes in the middle, and the fixing lugs are screwed and fixed with the assembling plate 4 through bolts.

Specifically, the flange 7 is a circular sheet structure with a through hole in the middle, threaded holes corresponding to the threaded columns of the abutments 1 in pairs are formed in the periphery of the flange 7, and the threaded holes of the flange 7 are connected with the threaded columns of the abutments 1 through large bolts 8.

Specifically, the solar panel support 5 is a tripod, and the support at the left end is a hollow structure with two unsealed ends, and penetrates into the assembly plate 4.

The method comprises the following specific implementation steps:

when the device is used, firstly, a hole with the depth of the device is dug on the ground of the installation place for installing the device, the tube seat 2 is vertically placed at the bottom of the pit, the conical structure at the lower part of the tube seat 2 is buried and compacted by soil, then the through hole in the middle of the abutment 1 is aligned with the top end of the tube seat 2 and then embedded, the large bolt 8 is completely screwed into the threaded hole on the flange plate, the support tube 3 with the flange plate 7 welded at the bottom is aligned with the top end of the tube seat 2 and then spliced, the large bolt 8 is fixed on the threaded column on the abutment 1, the threaded column hole on the abutment 1 is exposed, the periphery of the abutment 1 is grouted, after the grout is solidified, the gap below the flange plate 7 is completely filled and compacted by soil, the large bolt 8 is screwed again to complete installation and fixation, then the monitoring camera is installed in the monitoring ball cover 6, the solar panel is installed on the solar panel bracket 5, the circuit can be hidden above the internal clapboard 10 of the support tube 3 through the through hole on the assembly plate 4 and the support at the left end of the solar panel bracket 5, the maintenance is carried out by opening the access door 9.

In summary, the following steps: according to the wireless transmission device for the fixed-point acquisition of the natural disaster general investigation geology, the pier is arranged at the bottom of the tube socket, the flange is arranged on the outer wall of the bottom end of the supporting tube and is connected with the supporting tube through the large bolt, so that the tube socket and the supporting tube are more stable and are not easy to vibrate due to weather influences such as strong wind and the like, the detection process is stable and more accurate, and the practical performance of the wireless transmission device is improved; the bottom of the tube seat is arranged into an open conical structure, and the upper part of the supporting tube is provided with the access door, so that the underground geological detector can penetrate into the supporting tube and the tube seat through the access door, the underground geological detector is protected, and the safety performance and the practical value of the underground geological detector are greatly increased; through setting up the baffle in the inside of stay tube upper end, set up assembly plate and inner space and link up in the stay tube upper end, can make solar panel's battery and power cord etc. place on baffle upper portion through the inside of assembly plate, make it have practical value more to the effectual problem and the not enough that appear in the current device of having solved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. A natural disaster census geology fixed point acquisition wireless transmission device includes: the solar photovoltaic power generation device comprises a pier (1), a pipe seat (2), a supporting pipe (3), an assembling plate (4), a solar panel bracket (5), a monitoring ball cover (6), a flange plate (7), a large bolt (8), an access door (9) and a partition plate (10); the method is characterized in that: a pipe seat (2) is arranged in the middle of the interior of the abutment (1), and the abutment (1) is connected with the pipe seat (2) in an embedding manner; the supporting tube (3) is arranged at the upper end of the tube seat (2), and the supporting tube (3) is connected with the tube seat (2) in a welding mode; the assembly plate (4) is arranged at the top end of the support tube (3), and the assembly plate (4) is connected with the support tube (3) in a welding mode; the solar panel bracket (5) is arranged at the left end above the assembling plate (4), and the solar panel bracket (5) is connected with the assembling plate (4) in a welding mode; the monitoring ball cover (6) is arranged at the left end below the assembling plate (4), and the monitoring ball cover (6) is screwed with the assembling plate (4) through a bolt; the flange (7) is arranged on the outer wall of the bottom end of the supporting tube (3), and the flange (7) is connected with the supporting tube (3) in a welding mode; the large bolts (8) penetrate through the flange plate (7), and the large bolts (8) are screwed with the flange plate (7) through threads; the access door (9) is arranged on one side of the upper end of the supporting tube (3), and the access door (9) is connected with the supporting tube (3) in a hinged mode; the partition plate (10) is arranged inside the upper end of the support pipe (3), and the partition plate (10) is connected with the support pipe (3) in a welding mode; the pier (1) is a trapezoidal pier with a bowl-shaped groove in the middle of the upper end surface, four threaded columns which are arranged in a cross shape are poured on four sides of the upper end surface of the pier (1), and a through hole through which the pipe seat (2) penetrates up and down is formed in the middle of the interior of the pier; the tube seat (2) is of a hollow structure with a cylindrical upper part and a conical bottom, and the upper end and the lower end of the tube seat (2) are communicated and not sealed; the supporting tube (3) is a hollow cylinder which is communicated up and down, a square opening is formed in one side of the upper end of the supporting tube (3), and a partition plate (10) with a circular sheet structure is arranged in the middle of the square opening; the assembly plate (4) is of a rectangular box body structure, a round hole communicated with the inner space of the support tube (3) is formed in the middle of the right end below the assembly plate (4), and a through hole is formed in the middle of the left end below the assembly plate (4); the left side and the right side of the upper end of the monitoring ball cover (6) are integrally provided with fixing lugs with through holes in the middle, and the monitoring ball cover is screwed and fixed with the assembling plate (4) through bolts; the flange plate (7) is of a circular sheet structure with a through hole in the middle, threaded holes corresponding to the threaded columns of the abutments (1) in pairs are formed in the periphery of the flange plate (7), and the threaded holes of the flange plate (7) are connected with the threaded columns of the abutments (1) through large bolts (8); the solar panel support (5) is a tripod, and the support at the left end is of a hollow structure with the upper end and the lower end not closed and penetrates into the assembly plate (4).

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