CN209746156U - Movable marine environment monitoring system - Google Patents

Abstract

The utility model discloses a movable marine environment monitoring system, which comprises a container box body, a pretreatment area, a test analysis area, a central control area and an air supply area are arranged in the container box body, a sliding door is arranged between the test analysis area and the pretreatment area, a first clapboard for isolation is arranged between the test analysis area and the central control area, a second clapboard for isolation is arranged between the central control area and the air supply area, and watertight doors are arranged on the pretreatment area, the central control area and the air supply area; the utility model discloses a take out the eye ware, including pretreatment district, be provided with sample delivery window, be provided with first shockproof storing wall cabinet, first shockproof laboratory bench, fume hood, refrigerator and refrigerator-freezer in the pretreatment district, install experimental water system, sea water suction filtration system, experiment basin, water pump, tap and emergency eye washer for the experiment on the first shockproof laboratory bench, the experimental water system includes domestic bucket, pollution box, sewage case and distillation cask.

Description

Movable marine environment monitoring system

Technical Field

The utility model relates to a marine environment monitoring system especially relates to a mobilizable marine environment monitoring system.

Background

With the development and utilization of marine resources by human beings, a series of pollution problems are generated in the marine environment. The marine environment monitoring can comprehensively, timely and accurately master the change rule of the marine environment and the influence of human activities on the marine environment, and provides scientific basis and technical support for the development, management and protection of the sea. At present, the early warning monitoring of marine ecological environment in China is mainly near shore monitoring, and offshore monitoring, particularly deep and distant sea monitoring, is weak.

At present, scientific investigation ships in China have multiple voyage tasks, wide scientific investigation range and strong specialization, but laboratory arrangement and equipment fixing on the ships are difficult to replace, and professional requirements cannot be met. Most monitoring project samples are transported to a land laboratory for detection after being properly stored on site, the monitoring method is time-consuming and labor-consuming, is greatly influenced by sea conditions and weather, and the samples are possibly polluted and deteriorated in the transportation process to influence the quality of monitoring data.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art's not enough, the utility model aims to provide a mobilizable marine environment monitoring system, this system both can use on marine vessel, also can use on land, provide convenience for the staff, it is through being provided with the sample presentation window in the front on the treatment area, the influence of external people and environment can be reduced as far as to the sample presentation window, reduces laboratory cross contamination's possibility, has improved the fidelity of sample and the accuracy of monitoring data effectively.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A movable marine environment monitoring system comprises a container box body, wherein a pretreatment area, a test analysis area, a central control area and an air supply area are arranged in the container box body, the test analysis area is positioned in the middle of the container box body, the pretreatment area is positioned on one side of the test analysis area, the central control area and the air supply area are positioned on the other side of the test analysis area, a sliding door is arranged between the test analysis area and the pretreatment area, a first partition plate for isolation is arranged between the test analysis area and the central control area, a second partition plate for isolation is arranged between the central control area and the air supply area, and watertight doors are arranged on the pretreatment area, the central control area and the air supply area; the system comprises a pretreatment area, a pretreatment area and a control area, wherein a sample sending window is arranged on the pretreatment area, a first shockproof storage hanging cabinet, a first shockproof experiment table, a fume hood, a refrigerator and a freezer are arranged in the pretreatment area, an experiment water system, a seawater suction filtration system, an experiment water tank, an experiment water pump, a faucet and an emergency eye washer are arranged on the first shockproof experiment table, and the experiment water system comprises a domestic bucket, a pollution box, a sewage box and a distilled water bucket; the domestic bucket and the distilled water bucket are respectively connected with the water pump for the experiment.

Furthermore, a second shockproof storage hanging cabinet and a second shockproof experiment table are arranged in the test analysis area.

Furthermore, an analysis and detection instrument is arranged on the second shockproof experiment table and comprises a standard modularized marine environment analysis and monitoring instrument and an individual modularized marine environment analysis and monitoring instrument.

Furthermore, the standard modularized marine environment analysis and monitoring instrument comprises a meteorological observation system, a positioning system, a multi-parameter water quality analyzer, an acoustic Doppler flow velocity meter, an atmospheric sampling device, a gas chromatograph, an ultraviolet spectrophotometer, a multifunctional heavy metal analyzer, a rapid toxicity tester, a continuous radiation dose rate measurement system, a multifunctional radiation inspection instrument, a surface contamination instrument, a data processing and transmission system, an information transmission module and a mobile graphic workstation.

Further, a land laboratory is arranged on land, and the data processing and transmission system is in wireless connection with the land laboratory through a satellite communication system.

Furthermore, a video monitoring system, a safety alarm system, a power supply system and a heating and ventilation control system are arranged in the central control area, visual black boxes are arranged in the video monitoring system and the safety alarm system, and the pretreatment area, the test analysis area and the air supply area are respectively connected with the heating and ventilation control system.

Further, be provided with external water entry and sewage discharge port on the first shockproof laboratory bench.

Compared with the prior art, the utility model has the advantages that the central control area and the gas supply area are positioned at the other side of the test analysis area, a sliding door is arranged between the test analysis area and the pretreatment area, a first clapboard for isolation is arranged between the test analysis area and the central control area, a second clapboard for isolation is arranged between the central control area and the gas supply area, so that the monitoring analysis work can be better ensured to be carried out in a relatively stable space, the interference is avoided, the instrument operation is more stable, and the data is more accurate and effective; the utility model discloses a be provided with the window of sending a kind on preceding processing area, send a kind window can reduce the influence of external people and environment as far as possible, reduce laboratory cross contamination's possibility, improved the fidelity of sample and monitoring data's accuracy effectively, data processing and transmission system pass through satellite communication system with land laboratory wireless connection has ensured monitoring data's promptness, has improved the efficiency of marine environment monitoring and early warning, the utility model discloses can make full use of space, both can use on marine vessel, can transport back to land and make land laboratory after the voyage finishes and continue to use.

Drawings

The following detailed description of embodiments of the invention is provided with reference to the accompanying drawings, in which:

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the present invention.

In the figure: 1-watertight door, 2-pretreatment area, 3-first shockproof storage wall cabinet, 4-first shockproof experiment table, 5-faucet, 6-emergency eye washer, 7-experiment water tank, 8-second shockproof storage wall cabinet, 9-analysis and detection instrument, 10-second shockproof experiment table, 11-video monitoring system, 12-safety alarm system, 13-power supply system, 14-central control area, 15-heating and ventilation control system, 16-test and analysis area, 17-experiment water pump, 18-experiment water system, 19-seawater suction filtration system, 20-air supply area, 21-ventilation cabinet, 22-refrigerator, 23-freezer, 24-sample delivery window, 25-sliding door and 26-first partition board.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-2, a movable marine environment monitoring system comprises a container body, wherein a pretreatment area 2, a test analysis area 16, a central control area 14 and an air supply area 20 are arranged in the container body, the test analysis area 16 is located in the middle of the container body, the pretreatment area 2 is located on one side of the test analysis area 16, and the central control area 14 and the air supply area 20 are located on the other side of the test analysis area 16.

Specifically, a sliding door 25 is arranged between the test analysis area 16 and the pretreatment area 2, a first partition plate 26 for isolation is arranged between the test analysis area 16 and the central control area 14, a second partition plate for isolation is arranged between the central control area 14 and the air supply area 20, the test analysis area 16 and the central control area 14 are separated by the first partition plate 26, and the central control area 14 and the air supply area 20 are separated by the second partition plate, so that the monitoring and analysis work can be better ensured to be carried out in a relatively stable space, interference is avoided, the instrument operation is more stable, and the data is more accurate and effective. In particular, the independent gas supply area 20 provides for easier handling and management of the gas cylinders, and the independent central control area 14 provides for increased utilization of the area space.

Specifically, watertight doors 1 are arranged on the pretreatment area 2, the central control area 14 and the air supply area 20, the watertight doors 1 can bear certain pressure and keep watertight requirements, and the watertight doors 1 are used for allowing people and articles to enter and exit and preventing water, fire and toxic gas from spreading in a ship.

Specifically, the sample sending window 24 is arranged on the pretreatment area 2, and in the embodiment, the sample sending window 24 is arranged on the pretreatment area 2, so that the influence of outside people and the environment can be reduced as much as possible by the sample sending window 24, the possibility of cross contamination in a laboratory is reduced, and the fidelity of the sample and the accuracy of the monitoring data are effectively improved.

Specifically, be provided with first shockproof storing wall cabinet 3, first shockproof laboratory bench 4, fume hood 21, refrigerator 22 and refrigerator-freezer 23 in the preceding processing district 2, install experiment water system 18, sea water suction filtration system 19, experiment basin 7, experiment water pump 17, tap 5 and emergency eye washer 6 on the first shockproof laboratory bench 4, preferably, when field operation person's eyes or health contact poisonous and harmful and have other aggressive chemical substance, emergency eye washer 6 can carry out urgent washing or drenching to eyes and health, can avoid chemical substance to cause further injury to the human body effectively.

Specifically, an external water inlet and a sewage discharge port are arranged on the first shockproof experiment table 4.

Specifically, the experimental water system 18 comprises a domestic bucket, a pollution box, a sewage box and a distilled water bucket; the water barrel for life and the distilled water barrel are respectively connected with the water pump 17 for experiment, and the water pump 17 for experiment is used for driving the water barrel for life and the distilled water barrel.

Specifically, a second shockproof storage hanging cabinet 8 and a second shockproof experiment table 10 are arranged in the test analysis area 16, an analysis and detection instrument 9 is arranged on the second shockproof experiment table 10, and the analysis and detection instrument 9 comprises a standard modularized marine environment analysis and monitoring instrument and an individual modularized marine environment analysis and monitoring instrument. Preferably, the standard modular marine environment analysis monitoring instrument and the individual modular marine environment analysis monitoring instrument can be installed and replaced according to specific tasks.

Specifically, the standard modularized marine environment analysis and monitoring instrument comprises a meteorological observation system, a positioning system, a multi-parameter water quality analyzer, an acoustic Doppler flow velocity flowmeter, an atmospheric sampling device, a gas chromatograph, an ultraviolet spectrophotometer, a multifunctional heavy metal analyzer, a rapid toxicity tester, a continuous radiation dose rate measurement system, a multifunctional radiation inspection instrument, a surface contamination instrument, a data processing and transmission system, an information transmission module and a mobile graphic workstation.

specifically, the multi-parameter water quality analyzer is a novel instrument capable of rapidly detecting water quality, can be used together with a matched reagent, can rapidly obtain a result without preparing a standard solution and drawing a standard curve, and is convenient for field sampling and current detection. The gas chromatograph can be used for separating the components by introducing the components into the chromatographic column with different retention performances to the components in the pre-detection mixture after the analysis sample is gasified in the sample inlet, and sequentially introducing the components into the detector to obtain detection signals of the components. The ultraviolet spectrophotometer can judge or determine the content of the substance according to the absorbance at certain characteristic wavelengths on the absorption spectrum. The multifunctional heavy metal analyzer adopts a modular design, can realize simultaneous on-line analysis of a plurality of heavy metal elements, the modular design can ensure long-term stable operation of equipment, and the uniquely designed double-beam optical detection technology is equipped with the digestion module and can accurately measure the heavy metal elements in various water qualities. The rapid toxicity tester utilizes luminescent bacteria as a biological detector, determines the toxicity of pollutants in water by measuring light loss, can generate sensitive reaction on more than 2000 chemical substances (heavy metals, pesticides and the like) with different types, rapidly detects the sum of acute toxicants in water within 30 minutes, and immediately performs early warning of sudden water pollution accidents.

Specifically, be provided with video monitor system 11, safety alarm system 12, power supply system 13 and warm logical control system 15 in the central control district 14, all be provided with visual black box in video monitor system 11 and the safety alarm system 12, video monitor system 11 and safety alarm system 12 can carry out air feed monitoring, disappear accuse monitoring and instrument operating mode monitoring to this embodiment to can report to the police in real time as required. Preferably, the power supply system 13 may be connected to mains electricity, emergency generator and vessel power supply system.

Specifically, pretreatment district 2, test analysis district 16 and air feed district 20 respectively with warm logical control system 15 is connected, and warm logical control system 15 can be according to the humiture of test analysis district 16, air feed district 20 and pretreatment district 2 and the needs of ventilation provide intelligent amount of wind and suitable humiture for test analysis district 16, air feed district 20 and pretreatment district 2.

Particularly, a land laboratory is arranged on land, the data processing and transmitting system is in wireless connection with the land laboratory through a satellite communication system or a wireless signal, data can be transmitted to the land laboratory in real time, the timeliness of monitoring data is guaranteed, and the marine environment monitoring and early warning efficiency is improved.

specifically, the embodiment can be moved and transported by a transport vehicle, and different ships are carried to carry out moving work.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (7)

1. A mobile marine environmental monitoring system, comprising: the container comprises a container body, wherein a pretreatment area, a test analysis area, a central control area and an air supply area are arranged in the container body, the test analysis area is positioned in the middle of the container body, the pretreatment area is positioned on one side of the test analysis area, the central control area and the air supply area are positioned on the other side of the test analysis area, a sliding door is arranged between the test analysis area and the pretreatment area, a first partition plate for isolation is arranged between the test analysis area and the central control area, a second partition plate for isolation is arranged between the central control area and the air supply area, and watertight doors are arranged on the pretreatment area, the central control area and the air supply area; the system comprises a pretreatment area, a pretreatment area and a control area, wherein a sample sending window is arranged on the pretreatment area, a first shockproof storage hanging cabinet, a first shockproof experiment table, a fume hood, a refrigerator and a freezer are arranged in the pretreatment area, an experiment water system, a seawater suction filtration system, an experiment water tank, an experiment water pump, a faucet and an emergency eye washer are arranged on the first shockproof experiment table, and the experiment water system comprises a domestic bucket, a pollution box, a sewage box and a distilled water bucket; the domestic bucket and the distilled water bucket are respectively connected with the water pump for the experiment.

2. A mobile marine environment monitoring system according to claim 1, wherein: and a second shockproof storage hanging cabinet and a second shockproof experiment table are arranged in the test analysis area.

3. A mobile marine environment monitoring system according to claim 2, wherein: and an analysis and detection instrument is arranged on the second shockproof experiment table and comprises a standard modularized marine environment analysis and monitoring instrument and an individual modularized marine environment analysis and monitoring instrument.

4. A mobile marine environment monitoring system according to claim 3, wherein: the standard modularized marine environment analysis and monitoring instrument comprises a meteorological observation system, a positioning system, a multi-parameter water quality analyzer, an acoustic Doppler flow velocity meter, an atmospheric sampling device, a gas chromatograph, an ultraviolet spectrophotometer, a multifunctional heavy metal analyzer, a rapid toxicity tester, a continuous radiation dose rate measurement system, a multifunctional radiation inspection tester, a surface contamination instrument, a data processing and transmission system, an information transmission module and a mobile graphic workstation.

5. Mobile marine environmental monitoring system according to claim 4, wherein: and a land laboratory is arranged on land, and the data processing and transmitting system is in wireless connection with the land laboratory through a satellite communication system.

6. A mobile marine environment monitoring system according to claim 1, wherein: the central control area is internally provided with a video monitoring system, a safety alarm system, a power supply system and a heating and ventilation control system, the video monitoring system and the safety alarm system are internally provided with visual black boxes, and the pretreatment area, the test analysis area and the air supply area are respectively connected with the heating and ventilation control system.

7. A mobile marine environment monitoring system according to claim 1, wherein: and the first shockproof experiment table is provided with an external water inlet and a sewage discharge port.