CN213302527U - Open-air buried earth wave micro vibration observation platform deeply - Google Patents

Abstract

The utility model provides an open-air ground ripples micro-vibration observation platform of burying deeply relates to ground ripples and surveys technical field, including solar cell panel, solar cell panel's bottom is fixed with PMKD, the bottom plate centre bore has been seted up to PMKD's bottom, and the bottom plate centre bore runs through PMKD, and the central point that the bottom plate centre bore is located PMKD puts, PMKD adopts the aluminum alloy punching to form. The solar energy is absorbed by the solar cell panel to serve as a power supply of the monitoring station during daytime operation by adopting a self-powered system, the design fully supports the normal operation of the outdoor observation trolley for a medium and long term, is suitable for the outdoor observation operation of ground wave micro-vibration monitoring products, has proper size and can also be used for the outdoor observation of other small geophysical instruments.

Description

Open-air buried earth wave micro vibration observation platform deeply

Technical Field

The utility model relates to a technical field is surveyed to the ground wave, especially relates to an open-air formula ground wave micro vibration observation platform of burying deeply.

Background

The existing field monitoring station is generally composed of a floor type support or a fixed type support, a solar power supply system, an equipment mainframe box and other components, and a field observation station can be formed by adding various physical quantity sensors and signal transmission equipment which can be installed and disassembled at any time and any place.

The traditional field observation station has the following problems: the floor type (or mobile type) monitoring station has more defects, and is easy to cause deviation of a preset position and damage of toppling of an instrument under the condition of strong wind and snow or in an area where wild animals are present in a field environment, so that data acquisition and normal operation are influenced; secondly, the traditional field monitoring station is likely to be stolen or damaged by people when working independently for a long time in the field, and effective monitoring measures are lacked; and thirdly, fewer products are specially used for a field monitoring station for monitoring the micro-vibration of the ground waves, and the rainfall and the temperature and humidity are mostly monitored in the market at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an open-air deep buried type ground wave micro-vibration observation platform.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an open-air formula ground ripples micro-vibration observation platform of burying deeply, includes solar cell panel, solar cell panel's bottom is fixed with PMKD, the bottom plate centre bore has been seted up to PMKD's bottom, and the bottom plate centre bore runs through PMKD, and the bottom plate centre bore is located PMKD's central point and puts, PMKD adopts the aluminum alloy punching to form.

Preferably, the bottom of the fixed bottom plate is provided with a support rod, one end of the support rod is fixedly connected with the bottom of the fixed bottom plate, and the support rod and the fixed bottom plate are located on the same central shaft. A central cavity is formed in the support rod and penetrates through two ends of the support rod.

Preferably, the surface of the support rod is fixed with a suspension rod, one end of the suspension rod penetrates through the surface of the support rod, the surface of the suspension rod is provided with a sleeve, the sleeve is movably connected with the suspension rod, and the surface of the sleeve is fixed with a camera.

Preferably, the surface of the support rod is fixed with a mainframe box, a ground wave micro-vibrator detection mainframe is arranged in the mainframe box, and the ground wave micro-vibrator detection mainframe is movably connected with the bottom surface in the mainframe box.

Preferably, the one end welding that PMKD was kept away from to the cradling piece has the detector case, and the cradling piece runs through detector roof portion, the roof round hole has been seted up at the interior top of detector case, and the roof round hole runs through detector roof portion.

Preferably, the ground wave micro-vibration detector is fixed on the bottom surface inside the detector box, and the ground wave micro-vibration detector is electrically connected with the ground wave micro-vibration detection host.

Preferably, a base is fixed at the bottom of the detector box and is formed by pouring stainless steel through a mold.

Advantageous effects

The utility model discloses in, adopt from the power supply system, absorb solar energy as the monitoring station power through solar cell panel when daytime operation, this kind of design is sufficient to support the field observation dolly can well long-term normal operating, is applicable to the field observation operation of the little vibration monitoring product of earth wave, and the size of a dimension is suitable, also can be used to the field observation of other small-size geophysical instruments.

The utility model discloses in, set up panoramic camera device, utilize the camera to provide strong 360 field monitoring, this kind of design is guaranteed the utility model discloses a major structure part all improves the security of this device within the monitoring range of camera.

Drawings

Fig. 1 is an isometric view of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a cross-sectional view of the present invention;

fig. 4 is a bottom enlarged view of the present invention.

Illustration of the drawings:

1. a solar panel; 2. a main chassis; 3. a support rod; 4. a base; 5. sleeving a sleeve; 6. fixing the bottom plate; 7. a detector box; 8. a suspension rod; 9. a ground wave micro-vibration detection host; 10. a central hole of the bottom plate; 11. a camera; 12. a central cavity; 13. a ground wave micro-vibration detector; 14. a round hole at the top of the box.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand, the present invention will be further explained below with reference to the following embodiments and the accompanying drawings, but the following embodiments are only the preferred embodiments of the present invention, and not all embodiments are included. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

The specific embodiment is as follows:

referring to fig. 1-4, an open-air deep buried ground ripples micro-vibration observation platform, including solar cell panel 1, the bottom of solar cell panel 1 is fixed with PMKD 6, and PMKD 6's bottom is seted up bottom plate centre bore 10, and bottom plate centre bore 10 runs through PMKD 6, and the central point of PMKD 10 is located PMKD 6's central point, and PMKD 6 adopts the aluminum alloy punching to form. The bottom of PMKD 6 is equipped with cradling piece 3, and the one end of cradling piece 3 and 6 bottom fixed connection of PMKD, and cradling piece 3 is located same center pin with PMKD 6. A central cavity 12 is arranged inside the support rod 3, and the central cavity 12 penetrates through two ends of the support rod 3. The fixed surface of cradling piece 3 has the suspension rod 8, and the surface of cradling piece 3 is run through to the one end that hangs rod 8, and the surface that hangs rod 8 is equipped with a socket 5, and socket 5 with hang 8 swing joint of rod, the fixed surface of socket 5 has camera 11. The surface of the support rod 3 is fixed with a mainframe box 2, a ground wave micro-vibrator detection host is arranged in the mainframe box 2, and the ground wave micro-vibrator detection host is movably connected with the bottom surface in the mainframe box 2. The one end welding that the fixed baseplate 6 was kept away from to cradling piece 3 has detector case 7, and cradling piece 3 runs through detector case 7 top, and roof round hole 14 has been seted up at the interior top of detector case 7, and roof round hole 14 runs through detector case 7 top. The ground wave micro-vibration detector 13 is fixed on the bottom surface of the inside of the detector box 7, and the ground wave micro-vibration detector 13 is electrically connected with the ground wave micro-vibration detection host machine 9. The bottom of the detector box 7 is fixed with a base 4, the base 4 is formed by pouring stainless steel through a die, the solar cell panel 1 and an aluminum alloy fixing bottom plate 6 are arranged, the center of the bottom of the fixing bottom plate 6 is provided with a round through hole which is tightly connected with the top of the support rod 3 and used for placing cables of the solar cell panel 1. The camera device comprises a camera 11 and a suspension bar 8. The camera 11 is a 360-degree panoramic camera 11, and the top of the panoramic camera is provided with a sleeve 5 connected with the suspension rod 8; the suspension rod 8 is a cylindrical stainless steel through hole rod, a camera 11 is arranged in the suspension rod for transmitting cables, the right side of the rod is closely connected to the outer wall of the support rod 3, and a round hole is formed in the close connection position to guarantee the placement of the cables. The main case 2 is a rectangular empty box with a door, the inside of the main case is used for placing the ground wave micro-vibration detection main machine 9, the center of the back of the main case is closely connected to the support rod 3, and a round hole is formed in the close connection position and used for placing related cables. The support rod 3 is a stainless steel cylinder, is used as a structural support part of the whole device, is connected with a plurality of important devices, is internally provided with a central cavity 12, is of a circular through hole structure and is used for placing a power supply and a signal transmission cable. The detector box 7 is arranged on the base 4 and is of a cylindrical cavity structure, and a ground wave micro-vibration detector 13 is placed in the detector box; the top center of the box body is a box top round hole 14 to ensure that the detection signal is received by the detection host machine through the cable. The base 4 is a stainless steel cylinder, has large mass, plays a role in balance, can be deeply buried underground in practical application, and can also be fixed on the upper surface of a rock-soil layer or metal equipment.

The utility model discloses a theory of operation: the solar energy is absorbed by the solar cell panel 1 to serve as a power supply of the monitoring station during daytime operation, the design fully supports the outdoor observation trolley to run normally for a medium and long time, the outdoor observation trolley is suitable for field observation operation of ground wave micro-vibration monitoring products, the size of the outdoor observation trolley is suitable, the outdoor observation trolley can also be used for field observation of other small-sized geophysical instruments, and buried installation or ground fixation can be selected according to actual monitoring requirements and according to local conditions. For example, a deep buried installation method is adopted for soft rock and soil layers such as grasslands, swamps and sand, a square foundation pit with the size larger than that of the base 4 is dug in advance, and the base 4 or the detector box 7 and part of the support rods 3 are buried under the ground surface and are buried and trampled. In hard places such as marble, cement land, asphalt and the like, a ground fixing and mounting mode is needed. Set up panoramic camera device, utilize camera 11 to provide strong 360 field monitoring, this kind of design is guaranteed the utility model discloses a major structure part all improves the security of this device within camera 11's monitoring range.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an open-air formula ground ripples micro-vibration observation platform of burying deeply, includes solar cell panel (1), its characterized in that: the solar cell panel is characterized in that a fixing base plate (6) is fixed to the bottom of the solar cell panel (1), a base plate center hole (10) is formed in the bottom of the fixing base plate (6), the base plate center hole (10) penetrates through the fixing base plate (6), the base plate center hole (10) is located in the center of the fixing base plate (6), and the fixing base plate (6) is formed by punching aluminum alloy.

2. The field buried underground wave micro-vibration observation platform of claim 1, which is characterized in that: the bottom of PMKD (6) is equipped with cradling piece (3), and the one end and PMKD (6) bottom fixed connection of cradling piece (3), and cradling piece (3) are located same center pin with PMKD (6), cradling piece (3) inside is equipped with central cavity (12), and central cavity (12) run through cradling piece (3) both ends.

3. The field buried underground wave micro-vibration observation platform of claim 2, which is characterized in that: the surface of the support rod (3) is fixed with a suspension rod (8), one end of the suspension rod (8) penetrates through the surface of the support rod (3), a sleeve joint cylinder (5) is arranged on the surface of the suspension rod (8), the sleeve joint cylinder (5) is movably connected with the suspension rod (8), and a camera (11) is fixed on the surface of the sleeve joint cylinder (5).

4. The field buried underground wave micro-vibration observation platform of claim 2, which is characterized in that: the surface of the support rod (3) is fixed with a mainframe box (2), a ground wave micro-vibrator detection host is arranged in the mainframe box (2), and the ground wave micro-vibrator detection host is movably connected with the bottom surface in the mainframe box (2).

5. The field buried underground wave micro-vibration observation platform of claim 2, which is characterized in that: the detector box (7) is welded to one end, away from the fixed bottom plate (6), of the support rod (3), the support rod (3) penetrates through the top of the detector box (7), a box top round hole (14) is formed in the inner top of the detector box (7), and the box top round hole (14) penetrates through the top of the detector box (7).

6. The field buried underground wave micro-vibration observation platform of claim 5, wherein: the ground wave micro-vibration detector (13) is fixed on the bottom surface of the interior of the detector box (7), and the ground wave micro-vibration detector (13) is electrically connected with the ground wave micro-vibration detection host (9).

7. The field buried underground wave micro-vibration observation platform of claim 5, wherein: the bottom of the detector box (7) is fixed with a base (4), and the base (4) is formed by pouring stainless steel through a die.

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