CN219601044U - Emergency water quality detection vehicle - Google Patents

Abstract

The utility model relates to an emergency water quality detection vehicle, which comprises a cab and a carriage, wherein an instrument detection table is arranged on one side in the carriage, and an artificial experiment table is arranged on the other side; the hand washing pool device is arranged on the artificial experiment table, a generator, a water tank, a water taking pump and a water taking hose are arranged in a cabinet body below the artificial experiment table, the hand washing pool device is communicated with the water tank, and the generator supplies power for electric equipment in a carriage; the instrument detection platform is fixedly provided with an industrial personal computer and a plurality of water quality detectors, a flow cell control cabinet is arranged between the instrument detection platform and a carriage back door, and each water quality monitor and each flow cell control cabinet are connected to the PLC; and the PLC is also in communication connection with the industrial personal computer. The utility model has the advantages that: can carry monitoring instrument and laboratory personnel to the burst scene and expand water quality monitoring rapidly in the first time, and realize that water quality autoinjection is to the flow cell, shorten detection time when improving sampling efficiency.

Description

Emergency water quality detection vehicle

Technical Field

The utility model relates to the field of water quality detection, in particular to an emergency water quality detection vehicle.

Background

With the development of society, the national requirements for water quality monitoring are increasing. At present, the water sample is collected and detected mainly by a detection device fixedly arranged in a water station or an outdoor miniature detection station. However, when the sudden environmental events are handled, the water quality change is mostly sampled manually on site and brought back to a laboratory for detection, and certain hysteresis exists, so that corresponding treatment according to the detection result cannot be performed at the first time, and the pollution is enlarged and serious adverse effects are caused to the environment due to the fact that the water source has high mobility and cannot be timely treated.

The prior art discloses a water quality monitoring vehicle, such as the patent with publication number of CN 218021362U, which is provided with a plurality of detection devices in the vehicle and a fixing device for improving the stability of the devices, but the monitoring vehicle is not provided with an automatic sample feeding device, so that the automatic water quality sampling cannot be realized. In the scene that the monitoring vehicle can not be close to a water source in a short distance, the water quality sampling work is very time-consuming and labor-consuming.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide an emergency water quality detection vehicle, which can enable monitoring instruments and laboratory staff to acquire water samples in an automatic sample injection mode on site and timely carry out detection work in the first time under emergency conditions, so that environmental damage caused by the emergency is reduced.

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

an emergency water quality detection vehicle comprises a cab and a carriage, wherein one side in the carriage is provided with an instrument detection table, and the other side is provided with an artificial experiment table; the hand washing pool device is arranged on the artificial experiment table, a generator, a water tank, a water taking pump and a water taking hose are arranged in a cabinet body below the artificial experiment table, the hand washing pool device is communicated with the water tank, and the generator supplies power for electric equipment in a carriage; the instrument detection table is fixed with an industrial personal computer and a plurality of water quality detectors, a flow cell control cabinet is arranged between the instrument detection table and a carriage back door, the flow cell control cabinet comprises a PLC controller, a flow cell, a sample injection valve, a discharge valve and a water quality detection sensor, the sample injection valve is arranged on a water inlet pipe of the flow cell and is connected with a water taking pump through a pipeline, the discharge valve is arranged on an automatic water outlet pipe of the flow cell, the water quality detection sensor is fixed on an upper cover of the flow cell, and the water quality detector, the water quality detection sensor, the sample injection valve and the discharge valve are all connected to the PLC controller; and the PLC is also in communication connection with the industrial personal computer.

More preferably, the flow cell control cabinet further comprises a manual sampling valve which is arranged on a manual drain pipe of the flow cell.

More preferably, the flow cell control cabinet further comprises a sand discharge valve, and the sand discharge valve are arranged in parallel through a pipeline.

More preferably, the generator side wall is an up-lift door.

More preferably, an external socket for providing power for external equipment is embedded on the outer wall of the upper lifting door, and the external socket is electrically connected with the generator.

More preferably, a gravity water inlet communicated with the water tank is arranged on the side wall of the carriage on the same side of the water tank.

More preferably, a partition plate is arranged between the cab and the carriage, and a sliding window and a hygrothermograph are arranged on the partition plate.

More preferably, a fire extinguisher is arranged between the manual experiment table and the carriage back door.

The utility model has the following beneficial effects:

1. the emergency water quality detection vehicle can load monitoring instruments and laboratory personnel to a sudden scene at the first time and rapidly expand water quality monitoring.

2. According to the emergency water quality detection vehicle, the flow cell control cabinet is carried, the sampling pump is connected with the flow cell, automatic water quality sample injection to the flow cell is achieved, sampling efficiency is improved, and meanwhile detection time is shortened.

3. According to the emergency water quality detection vehicle, the instrument detection and the manual detection are respectively arranged on two sides of the carriage, the areas are divided according to the detection mode, the layout is more reasonable, and the staggered interference of workers during detection is avoided.

Drawings

FIG. 1 is a top view (with roof removed) of an emergency water quality inspection vehicle of the present utility model;

FIG. 2 is a schematic view of an instrument desk of an emergency water quality testing vehicle according to the present utility model;

FIG. 3 is a schematic view of the outer wall of the vehicle cabin on one side of the instrument test stand of the present utility model;

FIG. 4 is a schematic diagram of a flow cell control cabinet of the present utility model;

FIG. 5 is a schematic diagram of a manual laboratory bench of an emergency water quality testing vehicle of the present utility model;

FIG. 6 is a schematic view of the outer wall of the cabin on one side of the artificial experiment table of the utility model;

FIG. 7 is a rear view (with the rear door removed) of an emergency water quality testing vehicle of the present utility model.

Reference numerals illustrate:

1. a cab; 2. a carriage; 3. an instrument detection table; 4. a manual experiment table; 5. an industrial personal computer; 6. a water quality detector; 7. an internal socket; 8. a rear door; 9. a flow cell control cabinet; 91. a PLC controller; 92. a flow cell; 93. a sample injection valve; 94. a discharge valve; 95. a manual sampling valve; 96. a sand discharge valve; 97. a water quality detection sensor; 10. a generator; 11. a water taking pump; 12. a hand sink device; 13. a water tank; 14. fire extinguishers; 15. a seat; 16. air-conditioning; 17. a ventilator; 18. a lighting lamp; 19. a partition plate; 20. sliding window; 21. a hygrothermograph; 22. lifting the door; 23. a gravity water inlet; 24. a water intake hose; 25. an external socket; 26. and (3) a window.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

Referring to fig. 1 to 6, an emergency water quality detection vehicle comprises a cab 1 and a carriage 2, wherein one side in the carriage 2 is provided with an instrument detection table 3, and the other side is provided with a manual experiment table 4; be provided with hand sink device 12 on the manual experiment table 4, be provided with generator 10, water tank 13, water pump 11 and water intake hose 24 in the cabinet body of manual experiment table 4 below, this hand sink device 12 with water tank 13 intercommunication is hand sink device 12 water supply, be equipped with on the carriage lateral wall with water tank 13 homonymy with the gravity water inlet 23 of water tank 13 intercommunication can follow outside access pipeline and carry out the moisturizing to water tank 13, and the operation is more convenient. The generator 10 supplies power to electrical equipment in the cabin 2. The instrument detection table 3 is fixed with an industrial personal computer 5 and a plurality of water quality detectors 6, a plurality of internal sockets 7 are arranged on the side carriage wall, and the internal sockets 7 are electrically connected with the generator.

Referring to fig. 4, a flow cell control cabinet 9 is disposed between the instrument detection table 3 and the carriage back door 8, the flow cell control cabinet 9 includes a PLC controller 91, a flow cell 92, a sample injection valve 93, a discharge valve 94, a manual sampling valve 95, a sand discharge valve 96, and a water quality detection sensor 97, the sample injection valve 93 is disposed on a water inlet pipe of the flow cell 92 and is connected to the water intake pump 11 through a pipeline, the discharge valve 94 is disposed on an automatic water outlet pipe of the flow cell 92, the water quality detection sensor 97 is fixed on an upper cover of the flow cell 92, a probe of the water quality detection sensor 97 extends into the flow cell 92, and each of the water quality detector 6, the water quality detection sensor 97, the sample injection valve 93, and the discharge valve 94 is connected to the PLC controller 91; the PLC controller 91 is also connected to the industrial personal computer 5 in a communication manner. The flow cell 92 is a main water supply and collection unit, and the water pumped by the water pump 11 can enter the flow cell 92 after the sample valve 93 is opened, and the water quality detector 6 can take water from the sample valve to detect. The manual sampling valve 95 is arranged on a manual drain pipe of the flow cell 92, and the manual sampling valve 95 can be manually opened to provide convenience for the manual self-checking of the laboratory staff. The drain valve 94 is opened to drain the water sample from the flow cell 92. The sand discharge valve 96 is arranged in parallel with the discharge valve 94 through a pipeline, the front end of the sand discharge valve 96 can store sludge, sand and the like in a pipeline, and the sand discharge valve can be opened after a period of operation to clean the pipeline. The PLC controller can control the opening and closing of a valve connected with the PLC controller, and the PLC controller receives data from the water quality detector 6 and the water quality detection sensor 97 and transmits the data to the industrial personal computer 5, and the industrial personal computer 5 displays detection data.

Referring to fig. 6, the side wall of the generator 10 is a lift-up door 22, which is convenient for taking and placing the generator 10. An external socket 25 for supplying power to external equipment is further embedded on the outer wall of the upper lifting door 22, and the external socket 25 is electrically connected with the generator 10, so that power can be supplied to the external equipment.

Referring to fig. 7, a partition 19 is disposed between the cab 1 and the carriage 2, a sliding window 20 and a hygrothermograph 21 are disposed on the partition 19, the sliding window 20 is disposed to facilitate communication between an experimenter and a driver, and the hygrothermograph 21 is disposed to facilitate the experimenter to know the temperature and humidity conditions in the carriage.

The water quality detector 6 comprises TP, TN, NH3N, CODcr, CODMn and the like, and can simultaneously test various water quality parameters. The table surface of the instrument detection table 3 is reserved with instrument fixing holes and pipe penetrating holes, so that the water quality detector 6 can be conveniently fixed.

The water quality detection sensor 97 includes one or more of the following sensors: PH sensor, conductivity sensor, dissolved oxygen sensor, turbidity sensor, ammonia nitrogen sensor and UCOD sensor, can measure PH, conductivity, dissolved oxygen, turbidity, ammonia nitrogen, UCOD parameter simultaneously.

In the carriage 2, a fire extinguisher 14 is arranged between the artificial experiment table 4 and the rear door of the carriage 2. A seat 15 may also be provided in the cabin 2. A 360-degree monitoring camera can be installed above the carriage 2, and the experimental process in the carriage 2 is recorded. An air conditioner 16, a ventilator 17, an illuminating lamp 18 and the like can be arranged above the carriage 2, and a telescopic sunshade curtain, a field illuminating lamp and the like can be arranged at the top of the carriage 2.

The working principle of the utility model is as follows:

when an emergency occurs in a certain water area or water sample sampling is needed in the water area, a worker can drive the emergency water quality detection vehicle to the vicinity of the water area, take out the water taking pump 11 from the carriage 2, put one end of the water taking pump into the water body through the water taking hose 24, open the window 26 on the vehicle wall behind the flow cell 92, and lock the other end of the water taking pump 11 in the water inlet of the flow cell 92 through a movable joint. The industrial personal computer 5 is opened, the PLC 91 is controlled to open the sample injection valve 93, the water taking pump 11 is manually started, and the flow cell 92 starts sampling. If the water quality detector 6 is adopted to detect water quality, an experimenter places the reagent in a reagent bottle correspondingly connected with each water quality detector 6, each water quality detector 6 detects water quality parameters, and the detection result is sent to the industrial personal computer 5 through the PLC 91, and the experimenter can obtain the detection result through the industrial personal computer 5. If the water quality detection sensor 97 still needs to work, an instruction is sent out on the industrial personal computer 5, the PLC controller electrifies the water quality detection sensor 97 corresponding to the instruction, and the data collected by the water quality detection sensor 97 are also sent to the industrial personal computer 5 through the PLC controller 91, so that an experimenter can obtain a detection result through the industrial personal computer 5. If manual detection is adopted, an experimenter can also manually operate the manual sampling valve 95 to take out a certain water sample from the flow cell 92 by himself, and the manual detection is performed on the manual experiment table 1. After the water sample treatment is completed, the industrial personal computer 5 sends a sample discharging instruction to the PLC 91, the PLC 91 opens a sample discharging valve 94, the water sample in the flow cell 92 is discharged to the water area, and the water taking pump 11 and the water taking hose 24 are retracted.

According to the emergency water quality detection vehicle, monitoring instruments and laboratory personnel can be carried to a sudden scene at the first time and rapidly unfolded for water quality monitoring, the vehicle is provided with the flow cell control cabinet 9, and the sampling pump 11 is connected with the flow cell 92, so that rapid automatic water quality sample injection to the flow cell 92 can be realized, the sampling efficiency is improved, and meanwhile, the detection time is shortened. Meanwhile, the instrument detection and the manual detection are respectively arranged at two sides of the carriage 2, the areas are divided according to the detection mode, the layout is more reasonable, and the staggered interference of workers during detection is avoided.

The foregoing description is only specific embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the present utility model and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present utility model.

Claims (8)

1. The utility model provides an emergent water quality testing car, includes driver's cabin and carriage, its characterized in that: one side in the carriage is provided with an instrument detection table, and the other side is provided with an artificial experiment table; the hand washing pool device is arranged on the artificial experiment table, a generator, a water tank, a water taking pump and a water taking hose are arranged in a cabinet body below the artificial experiment table, the hand washing pool device is communicated with the water tank, and the generator supplies power for electric equipment in a carriage; the instrument detection table is fixed with an industrial personal computer and a plurality of water quality detectors, a flow cell control cabinet is arranged between the instrument detection table and a carriage back door, the flow cell control cabinet comprises a PLC controller, a flow cell, a sample injection valve, a discharge valve and a water quality detection sensor, the sample injection valve is arranged on a water inlet pipe of the flow cell and is connected with a water taking pump through a pipeline, the discharge valve is arranged on an automatic water outlet pipe of the flow cell, the water quality detection sensor is fixed on an upper cover of the flow cell, and the water quality detector, the water quality detection sensor, the sample injection valve and the discharge valve are all connected to the PLC controller; and the PLC is also in communication connection with the industrial personal computer.

2. An emergency water quality testing vehicle according to claim 1, wherein: the flow cell control cabinet also comprises a manual sampling valve which is arranged on a manual drain pipe of the flow cell.

3. An emergency water quality testing vehicle according to claim 1, wherein: the flow cell control cabinet also comprises a sand discharge valve which is arranged in parallel with the discharge valve through a pipeline.

4. An emergency water quality testing vehicle according to claim 1, wherein: the wall of the generator side is an upward-lifting door.

5. The emergency water quality testing vehicle of claim 4, wherein: an external socket for providing power for external equipment is embedded on the outer wall of the upper lifting door, and the external socket is electrically connected with the generator.

6. An emergency water quality testing vehicle according to claim 1, wherein: and a gravity water inlet communicated with the water tank is arranged on the side wall of the carriage on the same side as the water tank.

7. An emergency water quality testing vehicle according to claim 1, wherein: a partition board is arranged between the cab and the carriage, and a sliding window and a hygrothermograph are arranged on the partition board.

8. An emergency water quality testing vehicle according to claim 1, wherein: and a fire extinguisher is arranged between the manual experiment table and the carriage back door.