CN219565412U - Intelligent detection sampling ship - Google Patents

Abstract

The utility model discloses an intelligent detection sampling boat, which comprises a boat body, wherein a central processing unit, a rechargeable storage battery, a GPS (global positioning system) positioning instrument, a signal transmission controller, a sonar detector, a flow rate detector, a pH detector and a suction device are arranged on the boat body, the GPS positioning instrument, the signal transmission controller, the sonar detector, the flow rate detector, the pH detector and the suction device are respectively connected with the central processing unit and the rechargeable storage battery, the suction device is connected with a multichannel option valve, the multichannel option valve is connected with a water sample storage box, and the signal transmission controller is connected with a mobile terminal through a mobile network. According to the utility model, through the control of the mobile terminal, the functions of monitoring the underwater topography detection, the flow speed, the water quality pH, the sampling and the like under different water depths on one ship body are realized; and the structure is simple, the acquisition precision is high, and the sampling efficiency is high.

Description

Intelligent detection sampling ship

Technical Field

The utility model relates to the technical field of water environment watershed treatment, in particular to an intelligent detection sampling ship.

Background

With the increasing of the water environment river basin treatment force of China, river and lake water environment treatment is a great task for environmental protection, and due to the fact that the water areas of China are wide and the water conditions of various river channels and lakes are complex, the underwater geology, the water flow speed and the water quality in the river channel and lake treatment process are detected and detected early, and water quality detection is carried out by acquiring underwater information, the water flow speed and the water sample. At present, an underwater topography detector is mainly adopted for detecting an underwater geological structure, and the underwater geological structure can only be used as a topography detector independently; the flow velocity adopts the current meter to detect, and the collection of water sample is mainly that the staff is through the sampler of rope connection taking a sample, and the water sample of collection probably is accurate inadequately, can influence water quality testing result, and can only gather one sample at a time. When multi-point detection and water quality sampling are needed, the detection and sampling efficiency is low.

Disclosure of Invention

Aiming at the problems, the utility model provides an intelligent detection sampling ship, which is controlled by a mobile terminal to realize the functions of monitoring underwater topography detection, flow velocity, water quality pH, sampling and the like under different water depths on one ship body.

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

the utility model provides an intelligent detection sampling ship, includes the hull, is provided with central processing unit, chargeable battery on the hull, and GPS locater, signal transmission controller, sonar detector, flow rate detector, pH detector, the suction device who is connected with central processing unit and chargeable battery respectively, suction device connects multichannel option valve, multichannel option valve connects the water sample bin, signal transmission controller passes through mobile network connection mobile terminal.

Preferably, the multi-channel option valve comprises a water inlet valve and a plurality of water outlet valves, wherein the water inlet valve is positioned in the middle of the multi-channel option valve, and the water outlet valves are uniformly arranged around.

As the optimization of above-mentioned scheme, be provided with a plurality of sample bottles in the water sample bin, the sample bottle is connected the water sample conveyer pipe, and the bottleneck department of sample bottle is provided with an inverted hard film, and hard film comprises a plurality of diaphragms, and a plurality of diaphragms constitute the water channel.

As the preferable mode of the scheme, the suction device is provided with a sampling tube, and the tube head of the sampling tube is provided with a permeable counterweight module.

As the preference of above-mentioned scheme, pH detector and velocity of flow detector all include swivel mount, scalable guide arm, and pH detector still includes pH probe, protection casing, and the velocity of flow detector still includes the velocity of flow detector probe, and pH probe, velocity of flow detector probe set up respectively at scalable guide arm's front end, and the pH probe outside is provided with the protection casing, but the end-to-end connection swivel mount of scalable guide arm.

Preferably, the auxiliary propellers are arranged on two sides of the bottom of the ship body.

Preferably, the bottom of the ship body is provided with holes for the pH probe, the flow meter probe and the sonar detector probe to extend out.

Due to the structure, the utility model has the beneficial effects that:

according to the utility model, the central processor, the GPS positioning instrument, the signal transmission controller, the sonar detector, the flow velocity detector and the PH detector are integrated on the ship body, and the functions of monitoring the underwater topography detection, the flow velocity, the water quality pH value, the sampling and the like under different water depths on one ship body can be realized through the control of the mobile terminal; and the structure is simple, the acquisition precision is high, and the sampling efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic diagram of a multi-channel option valve according to the present utility model;

FIG. 4 is a schematic diagram of the structure of the water sample storage tank of the present utility model;

FIG. 5 is a schematic view of the structure of the suction device of the present utility model;

FIG. 6 is a schematic diagram of the structure of the pH detector of the present utility model;

FIG. 7 is a schematic diagram of the flow rate detector according to the present utility model.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings. 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 and 2, this embodiment provides an intelligent detection sampling boat, which comprises a boat body 1, wherein a central processor 2, a rechargeable storage battery 8, a GPS positioning instrument 3, a signal transmission controller 4, a sonar detector 5, a flow rate detector 6, a pH detector 7 and a suction device 9 are arranged on the boat body 1, the GPS positioning instrument 3, the signal transmission controller 4, the sonar detector 5, the flow rate detector 6, the pH detector 7 and the suction device 9 are respectively connected with the central processor 2 and the rechargeable storage battery 8, the suction device 9 is connected with a multichannel option valve 10, the multichannel option valve 10 is connected with a water sample storage tank 11, the signal transmission controller 4 is connected with a mobile terminal through a mobile network, auxiliary propellers 12 (the left side and the right side of the auxiliary propellers are respectively arranged on two sides of the bottom of the boat body 1, when the boat body 1 needs to be stabilized, and holes for the pH probe 74, the flow rate detector 63 and the sonar detector probe 51 to be respectively stretched out are arranged on the bottom of the boat body 1.

As shown in fig. 3, the multi-channel option valve 10 includes a water inlet valve 101 and a plurality of water outlet valves 102, wherein the water inlet valve 101 is positioned in the middle of the multi-channel option valve 10, and the water outlet valves 102 are uniformly arranged around.

As shown in fig. 4, the water sample storage tank 11 is provided with a plurality of sampling bottles 111, the sampling bottles 111 are connected with a water sample conveying pipe 113, an inverted hard film 112 (only when being pressed, the middle part of the sampling bottles is opened) is arranged at the bottleneck of the sampling bottles 111, the hard film 112 is composed of a plurality of films, and a water passing channel is formed by the plurality of films.

As shown in fig. 5, the suction device 9 is provided with a sampling tube 91, and a water permeable counterweight module 92 is provided at the head of the sampling tube 91.

As shown in fig. 6, the pH detector 7 includes a first rotary support 71, a protective cover 72, a first telescopic guide 73, and a pH probe 74, wherein the pH probe 74 is disposed at the forefront end of the first telescopic guide 73, the end of the first telescopic guide 73 is connected to the first rotary support 71, and the protective cover 72 is disposed outside the pH probe 74.

As shown in fig. 7, the flow rate detector 6 includes a second rotary support 61, a second telescopic guide rod 62, and a flow rate detector probe 63, where the flow rate detector probe 63 is disposed at the forefront end of the second telescopic guide rod 62, and the end of the second telescopic guide rod 62 is connected to the second rotary support 61.

The working principle of the structure is as follows:

when the intelligent underwater geological distance measuring device works, the mobile terminal controls the ship body 1 to reach a designated position, the auxiliary propeller 12 is opened to stabilize the ship body, instructions are respectively sent to the sonar detector 5, the flow rate detector 6, the pH detector 7 and the water sample collecting system according to indexes to be detected, and at the moment, the sonar detector 5 starts to work to respectively measure underwater geological distance conditions within a certain range; the second telescopic guide rod 62 of the flow velocity detector 6 rotates to be perpendicular to the ship body 1 under water, and the flow velocity is measured according to the depth of water to be detected to a certain depth; the first telescopic guide rod 73 of the pH detector 7 rotates to the underwater and is perpendicular to the ship body 1, and the probe extends to a certain depth according to the water depth to be detected to measure the pH of water quality; after the information is acquired, the information is transmitted to the central processing unit 2, and is transmitted to the mobile terminal through the signal transmission controller 4 to read corresponding data. According to the depth to be sampled, the suction device 9 of the water sample collection system stretches the sampling tube 91 to the underwater appointed depth under the action of the permeable counterweight module 92, the suction device 9 samples and pumps the water sample into the corresponding sampling bottle 111 through the multichannel option valve 10, the sampling bottle 111 is positioned in the water sample storage box 11, and the functions of single sampling, mixed sampling and the like can be realized through the multichannel option valve 10.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. An intelligent detection sampling ship which is characterized in that: the intelligent water sample storage device comprises a ship body, wherein a central processor, a rechargeable storage battery, a GPS (global positioning system) positioning device, a signal transmission controller, a sonar detector, a flow rate detector, a pH detector and a suction device are arranged on the ship body, the GPS positioning device, the signal transmission controller, the sonar detector, the flow rate detector, the pH detector and the suction device are respectively connected with the central processor and the rechargeable storage battery, the suction device is connected with a multichannel option valve, the multichannel option valve is connected with a water sample storage box, and the signal transmission controller is connected with a mobile terminal through a mobile network.

2. An intelligent detection sampling vessel according to claim 1, characterized in that: the multichannel option valve comprises a water inlet valve and a plurality of water outlet valves, the water inlet valve is positioned in the middle of the multichannel option valve, and the water outlet valves are uniformly arranged around.

3. An intelligent detection sampling vessel according to claim 1, characterized in that: the water sample storage box is internally provided with a plurality of sampling bottles, the sampling bottles are connected with a water sample conveying pipe, an inverted hard film is arranged at the bottle mouth of each sampling bottle, the hard film is composed of a plurality of films, and a water passing channel is formed by the films.

4. An intelligent detection sampling vessel according to claim 1, characterized in that: the suction device is provided with a sampling tube, and the tube head of the sampling tube is provided with a permeable counterweight module.

5. An intelligent detection sampling vessel according to claim 1, characterized in that: the pH detector and the flow velocity detector comprise a rotary support and a telescopic guide rod, the pH detector further comprises a pH probe and a protective cover, the flow velocity detector further comprises a flow velocity detector probe, the pH probe and the flow velocity detector probe are respectively arranged at the forefront end of the telescopic guide rod, the protective cover is arranged on the outer side of the pH probe, and the tail end of the telescopic guide rod is connected with the rotary support.

6. An intelligent detection sampling vessel according to claim 1, characterized in that: auxiliary propellers are arranged on two sides of the bottom of the ship body.

7. An intelligent detection sampling vessel according to claim 1, characterized in that: the bottom of the ship body is provided with holes for the pH probe, the flow meter probe and the sonar detector probe to extend out respectively.