CN219319384U - Automatic deformation monitoring device under extreme weather - Google Patents
Automatic deformation monitoring device under extreme weather Download PDFInfo
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- CN219319384U CN219319384U CN202320142722.5U CN202320142722U CN219319384U CN 219319384 U CN219319384 U CN 219319384U CN 202320142722 U CN202320142722 U CN 202320142722U CN 219319384 U CN219319384 U CN 219319384U
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- observation room
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- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A90/00—Technologies having an indirect contribution to adaptation to climate change
- Y02A90/10—Information and communication technologies [ICT] supporting adaptation to climate change, e.g. for weather forecasting or climate simulation
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Abstract
The utility model relates to the technical field of monitoring equipment, in particular to an automatic deformation monitoring device under extreme weather, which comprises weather station monitoring equipment, a measuring robot and an observation room; the weather station monitoring equipment is arranged outside the observation room and is used for monitoring environmental parameters; the measuring robot is arranged in the observation room and is used for monitoring deformation after windowing; the observation room is provided with a window and a window pushing device for opening and closing the window, and the position of the observation room corresponding to the window is provided with an air curtain machine. According to the utility model, the measuring robot is protected by the observation room, the proper measuring time is determined by using the monitoring equipment of the weather station, the measuring environment is ensured by the window pushing device, the air curtain machine and the window, the service life and the data accuracy of the measuring robot are prevented from being influenced by the environment, and the problems of damage to the monitoring equipment, equipment loss and poor monitoring data accuracy of the existing automatic deformation monitoring system are solved.
Description
Technical Field
The utility model relates to the technical field of monitoring equipment, in particular to an automatic deformation monitoring device under extreme weather.
Background
How to ensure the normal operation of the monitoring equipment in extreme weather, the normal acquisition of the monitoring data and the accurate output of the monitoring result become a great difficulty in the current monitoring industry.
In order to solve the problem of automatic deformation monitoring in extreme weather, many schemes of an automatic deformation monitoring system, such as CN201520253443.1, an automatic deformation monitoring system, have been designed; CN201720607022.3, an automated deformation monitoring system for subway foundation pit; CN20201102097887. X, an automated deformation monitoring system for foundation pit, these schemes are used for some automated deformation monitoring systems in the field of field deformation monitoring. However, these monitoring devices generally have the following drawbacks:
professional monitoring equipment is arranged in the open air state for a long time in the field, and equipment loses the damage condition frequently, causes unable automation monitoring or data loss to and measuring error is big, can't guarantee data accuracy. For this purpose, we propose an automated deformation monitoring device in extreme weather.
Disclosure of Invention
The utility model aims to provide an automatic deformation monitoring device under extreme weather, which plays a role in protecting a measuring robot through an observation room, utilizes a weather station monitoring device to determine proper measuring time, ensures a measuring environment through a window pushing device, an air curtain machine and a window, avoids the influence of the environment on the service life and the data accuracy of the measuring robot, and solves the problems of damage of the monitoring device, equipment loss and poor monitoring data accuracy of the existing automatic deformation monitoring system.
In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic deformation monitoring device under extreme weather comprises weather station monitoring equipment, a measuring robot and an observation room;
the weather station monitoring equipment is arranged outside the observation room and is used for monitoring environmental parameters;
the measuring robot is arranged in the observation room and is used for monitoring deformation after windowing;
the observation room is provided with a window and a window pushing device for opening and closing the window, and the position of the observation room corresponding to the window is provided with an air curtain machine.
Preferably, a solar power supply system is arranged on the observation room and comprises a photovoltaic panel, a waterproof cabinet, a storage battery pack and a power supply cable.
Preferably, a lightning rod is arranged on the observation room.
Preferably, the observation room is fixed by an observation room anchoring device.
Preferably, the measuring robot is disposed on the measuring robot observation pier, and the measuring robot measures through the opened window outwards.
Preferably, the weather station monitoring equipment comprises an anemometer, a rain gauge, a thermometer and a barometer.
Compared with the prior art, the utility model has the following beneficial effects:
according to the utility model, the observation room is arranged, so that the measuring robot can damage components and parts when working for a long time in extreme weather, the measuring robot is used for protecting the measuring robot, errors caused by external influences are reduced, and the purpose of realizing sustainable monitoring in extreme weather is achieved. The window pushing device pushes open a window of the observation room during automatic measurement, and the window is used for isolating the temperature; the indoor and outdoor air is isolated to a certain extent when the measuring robot measures, so that the temperature in an observation room is prevented from being too low; the monitoring equipment checks wind speed, rainfall, air pressure and temperature parameters, if the parameters are qualified (suitable for measurement), the window pushing device opens a window and the air curtain machine blows air (not suitable for opening the window and blowing air), after waiting for a plurality of times, the internal and external temperatures are checked, and if the parameters are at the temperature suitable for measurement, the measurement is started. And further solves the problems of damage to monitoring equipment, equipment loss and poor accuracy of monitoring data existing in the existing automatic deformation monitoring system.
Drawings
FIG. 1 is a schematic diagram of the front structure of the present utility model;
fig. 2 is a schematic view of the back structure of the present utility model.
In the figure: 1. a lightning rod; 2. a solar power supply system; 3. weather station monitoring equipment; 4. a measuring robot; 5. measuring a robot observation pier; 6. an observation room; 7. observing a house anchoring device; 8. a window pushing device; 9. an air curtain machine; 10. a waterproof cabinet; 11. and (3) a window.
Detailed Description
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.
As shown in fig. 1, an automatic deformation monitoring device in extreme weather comprises a weather station monitoring device 3, a measuring robot 4 and an observation room 6;
the main body of the observation room 6 is made of aluminum alloy, the glass of the window 11 is made of double-layer heat-insulating glass, the observation room 6 is installed on a hardened and completed field, the observation room is installed at a viewing position of a region, the bottom of the observation room 6 is fixed by steel bars and concrete, extreme weather such as strong storm and the like exists in field automatic monitoring operation, a steel pipe net rack, a drawknot device and a ground anchoring device are arranged on the top of the observation room 6, and the drawknot device is connected with the steel pipe net rack and the ground anchoring device on the roof of the observation room 6.
The weather station monitoring equipment 3 is arranged outside the observation room 6 and is used for monitoring environmental parameters; the weather station monitoring facilities 3 are installed to the 6 tops of observing the room, and the welding of weather station monitoring facilities 3 base and 6 tops of observing the room, equipment power supply cable and data transmission cable are at 6 tops of observing the room, along 6 lateral wall planes of observing the room lay to the integrated inside of waterproof rack 10, observe 6 hole sites in the room and adopt structural adhesive to fill the protection, prevent the infiltration.
The measuring robot 4 is arranged in the observation room 6 and is used for monitoring deformation after windowing; the measuring robot 4 is erected in the observation room 6, the measuring robot observation pier 5 is erected in the observation room 6, the metal steel plate with the thick bottom of 2 cm is adopted as the fixing base of the observation pier, holes are reserved around the fixing base, the fixing base is fixed on a hardening field by using expansion bolts, meanwhile, the bottom is reinforced by casting concrete, and errors of the measuring robot 4 in the monitoring process are reduced.
The observation room 6 is provided with a window 11, and a window pusher 8 for opening and closing the window 11, and the observation room 6 is provided with an air curtain 9 at a position corresponding to the window 11. As shown in fig. 2, the air curtain machine 9 is mounted on the inner top of the observation room 6, the positioning screw below the front side of the air curtain machine 9 body is loosened, the machine body is separated from the bottom plate, the bottom plate is fixed by using color steel screws or blind rivets, and then the air curtain machine 9 body is fixed with the bottom plate by using the positioning screw. The air curtain machine 9 drives strong air flow generated by a through-flow or centrifugal wind wheel through a high-speed motor, so that outdoor dust and flying insects can be effectively prevented from invading, and the air circulation system function of the air curtain machine 9 enables the temperature in the observation room 6 to be balanced. One wall and door are omitted from fig. 2, and the observation room 6 is seen in fig. 1 to be closed on four sides with doors and windows.
The window pushing device 8 is made of stainless steel materials, a motor of the window pushing device 8 is used for controlling the window 11 to be opened and closed, the base of the window pushing device 8 is fixed to the bottom of the observation room 6 through expansion bolts, the top of the window pushing device 8 is fixed to two sides of the bottom of the window 11 through nylon locknuts, and sealant is smeared on the frame edges of the window 11 to prevent rainwater from penetrating. The window-pushing device 8 pushes open the window 11 of the observation room 6 during the automatic measurement, and the window 11 is used for isolating the temperature.
The observation room 6 is provided with a solar power supply system 2, and the solar power supply system 2 comprises a photovoltaic panel, a waterproof cabinet 10, a storage battery pack and a power supply cable. The photovoltaic module directly converts solar light energy into electric energy, a transformer is installed in the waterproof cabinet 10, and the deformation monitoring terminal is automated. The solar power supply system 2 can carry out the angle adjustment of photovoltaic board according to mounted position, installs towards south, and photovoltaic board bottom support welds with observing room 6 top, prevents because of extreme weather damage, and storage battery installs in waterproof rack 10, and power supply cable and observing 6 top weather station monitoring facilities 3 drilling of room, along observing 6 lateral wall planes of room and lay to inside the integration of waterproof rack 10.
The observation room 6 is provided with a lightning rod 1. The lightning rod 1 is metal stainless steel galvanized material, and lightning rod 1 bottom support welds with observing room 6 top, observes the pre-buried rag bolt in room 6 bottom, and 5 square millimeter cable connection rag bolt is used to lightning rod 1 support bottom, and lightning rod 1 ground connection has good lightning protection effect. The use safety of the automatic deformation monitoring equipment is ensured, and the equipment is prevented from being damaged by lightning stroke.
The measuring robot 4 is disposed on the measuring robot observation block 5, and the measuring robot 4 measures outwardly through the opened window 11. The weather station monitoring equipment 3 comprises an anemometer, a rain gauge, a thermometer and a barometer, can monitor weather in a measurement area, and stops monitoring when weather data reach a set early warning threshold value. The observation housing 6 is fixed by an observation housing anchoring means 7.
The installation process comprises the following steps: on the selected working position of the measuring robot 4, the field is hardened by concrete, the observation room 6 is placed horizontally after the treatment is completed, steel bars are used for firmly pouring concrete, after the observation room 6 is firmly fixed, in order to prevent the interference of extremely bad weather, the observation room anchoring devices 7 are required to be arranged around the observation room 6, and the steel pipe net frame on the roof of the observation room 6 is connected with the ground observation room anchoring devices 7 by adopting a drawknot device. After the observation room 6 is fixed, the expansion bolts are used for installing the bottom supports of the observation piers 5 and the window pushing devices 8 of the measuring robot in the observation room 6, and nylon locknuts are used for fixing the other ends of the supports to the bottom of the window 11, so that the window pushing devices 8 play a role in timing window pushing. After the waterproof cabinet 10 is erected, a storage battery pack of the solar power supply system 2 is installed, dampproof measures are taken, the photovoltaic panel support is well adjusted in position and welded with the top of the observation room 6, holes are drilled in the top of the observation room 6, and solar photovoltaic panel cables and weather station monitoring equipment 3 cables are laid through reserved hole sites and are laid to the inside of the waterproof cabinet 10 integration along the side wall plane of the observation room 6. Meanwhile, the weather station monitoring equipment 3 and the lightning rod 1 support are welded to the top of the observation room 6, and the lightning rod 1 is connected to the foundation bolts through the ground wire to achieve the grounding effect. And then installing the air curtain machine 9, paving cables of the air curtain machine 9 and cables of the window pushing device 8 into the waterproof cabinet 10, protecting the cables in the observation room 6 by adopting galvanized wire grooves, reserving holes to take waterproof measures, installing the measuring robot 4, and starting automatic deformation monitoring after equipment debugging is finished. The observation room 6, the window pushing device 8, the measuring robot 4, the solar power supply system 2 and the weather station monitoring equipment 3 are integrated into the same system, so that the construction work of an automatic deformation monitoring system under extreme weather is realized, and the stability of the monitoring system of the measuring robot 4 is effectively ensured.
The working process comprises the following steps: when the automatic monitoring system reaches the set monitoring time, the monitoring equipment checks wind speed, rainfall, air pressure and temperature parameters, if the monitoring equipment is qualified (suitable for measurement), the window 11 is opened by the window pushing device 8, meanwhile, the air curtain machine 9 blows (unsuitable for not opening the window) and does not blow, after waiting for a plurality of times, the internal and external temperatures are checked, if the monitoring equipment is at the temperature suitable for measurement, the measurement is started, and after the measurement is completed, the window 11 and the air curtain machine 9 are closed. The electric window pushing device 8 is provided with an annular keel for wrapping at a folding position, and in a fully unfolded state, the measuring robot 4 can be protected from sunburn and rain, can resist the invasion of common sundries, and has an anti-theft function. The normal operation of the measuring robot 4 is ensured in all directions.
The technical problems of intellectualization, specialization, high integration of hardware and strong applicability of deformation monitoring work by using the measuring robot 4 in extreme weather are solved, the weather station monitoring equipment 3 is integrated with the window pushing device 8 of the observation room 6, strong wind, rain and theft prevention effects are realized on the monitoring work, and meanwhile, the error of external environment factors on measurement precision is reduced. Compared with the current general automatic deformation monitoring system, the system has a more stable fixing mode, and ensures the implementation, continuity and integrity of monitoring data. In addition, the utility model has the advantages of simple and clear structure, convenient assembly, reasonable overall structure, rapid emergency adjustment and improvement of the safety of equipment while ensuring the accuracy of monitoring data in extreme weather.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 (6)
1. An automatic deformation monitoring device under extreme weather, its characterized in that: the system comprises weather station monitoring equipment (3), a measuring robot (4) and an observation room (6);
the weather station monitoring equipment (3) is arranged outside the observation room (6) and is used for monitoring environmental parameters;
the measuring robot (4) is arranged in the observation room (6) and is used for monitoring deformation after windowing;
the observation room (6) is provided with a window (11) and a window pushing device (8) for opening and closing the window (11), and the position, corresponding to the window (11), of the observation room (6) is provided with an air curtain machine (9).
2. An automated deformation monitoring apparatus in extreme weather according to claim 1, wherein: the solar energy observation room (6) is provided with a solar energy power supply system (2), and the solar energy power supply system (2) comprises a photovoltaic panel, a waterproof cabinet (10), a storage battery pack and a power supply cable.
3. An automated deformation monitoring apparatus in extreme weather according to claim 1, wherein: and a lightning rod (1) is arranged on the observation room (6).
4. An automated deformation monitoring apparatus in extreme weather according to claim 1, wherein: the observation room (6) is fixed through an observation room anchoring device (7).
5. An automated deformation monitoring apparatus in extreme weather according to claim 1, wherein: the measuring robot (4) is arranged on the measuring robot observation pier (5), and the measuring robot (4) measures outwards through the opened window (11).
6. An automated deformation monitoring apparatus in extreme weather according to claim 1, wherein: the weather station monitoring equipment (3) comprises an anemometer, a rain gauge, a thermometer and a barometer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320142722.5U CN219319384U (en) | 2023-02-07 | 2023-02-07 | Automatic deformation monitoring device under extreme weather |
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CN202320142722.5U CN219319384U (en) | 2023-02-07 | 2023-02-07 | Automatic deformation monitoring device under extreme weather |
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CN219319384U true CN219319384U (en) | 2023-07-07 |
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CN202320142722.5U Active CN219319384U (en) | 2023-02-07 | 2023-02-07 | Automatic deformation monitoring device under extreme weather |
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2023
- 2023-02-07 CN CN202320142722.5U patent/CN219319384U/en active Active
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