CN115184574A

CN115184574A - Sampling test integration water quality testing equipment

Info

Publication number: CN115184574A
Application number: CN202211100073.9A
Authority: CN
Inventors: 刘林; 许丹丹; 陈梦鸥; 蒋方媛; 张桂香; 周超
Original assignee: Shenzhen Investigation and Research Institute Co ltd
Current assignee: Shenzhen Investigation and Research Institute Co ltd
Priority date: 2022-09-09
Filing date: 2022-09-09
Publication date: 2022-10-14

Abstract

The application provides a sampling test integration water quality testing equipment, belong to water quality testing technical field, this water quality testing equipment includes the remote control ship, the drainage subassembly, the determine module, the sample collection subassembly, the coiling motor can be put into suitable position with the coiling pipe, pump body three can be extracted the water sample, make in the water sample suction liquid storage tank, the opening and shutting of solenoid valve on the steerable liquid pipe of operator, come to save in the water sample suction reagent bottle, store the water sample in the liquid storage tank after, pump body one work is with in the water sample suction detect the frame in the liquid storage tank, and control reagent tank specific solenoid valve open and shut, can test the water source in the reagent injection detect the frame in the reagent tank, and the sensing module in the detect frame, can detect the water sample in the detect frame under the cooperation of reagent, detect and accomplish the water sample in the detect frame and discharge through pump body two, and the water purification in the clear water passes through pump body one suction detect the frame, wash the detect and realize the detection and the sample work to the water sample to the detect frame.

Description

Sampling test integration water quality testing equipment

Technical Field

The application relates to the technical field of water quality detection, in particular to sampling detection integrated water quality detection equipment.

Background

The water quality detection comprises detection of sewage, pure water, seawater, fishery water, water for swimming pools, reclaimed water, bottled pure water, drinking natural mineral water, cooling water, farmland irrigation water, landscape water, drinking water, underground water, boiler water, surface water, industrial water, test water and the like.

However, with the development of society, various sampling and detecting integrated water quality detection devices are very brilliant in the field of water quality detection, and have achieved basic requirements for water quality detection, but the existing sampling and detecting integrated water quality detection devices still have some defects, and for testing water quality in water source places such as outdoor mountain areas and wilderness areas with complex road conditions, the larger sampling and detecting integrated water quality detection devices are difficult to enter due to bumpiness and gentle road conditions, and an operator can only collect water quality samples in a certain area through an original means to meet the water quality detection requirements of the water source.

Disclosure of Invention

The present application is directed to solving at least one of the problems in the prior art. For this reason, this application provides a sample detection integration water quality testing equipment, through designing out small-size simple and convenient sample detection integration water quality testing equipment and applying to the complicated water source place that is difficult to get into, can carry out the sample detection to the quality of water of different positions simultaneously for the staff can simply learn the quality of water at this water source the very first time, can take a sample to quality of water simultaneously, makes things convenient for staff's sample back secondary detection, has improved accurate nature and convenience to this water source water quality testing.

The application is realized as follows:

the application provides a sample detection integration water quality testing equipment, including remote control ship, drainage subassembly, determine module, sample collection subassembly.

The drainage component comprises a partition plate, a rolling motor, a drainage tube and a winding tube respectively, the partition plate is arranged on the right side of the cabin inner cavity, the rolling motor is arranged on the right side of the partition plate, the drainage tube is arranged on the front side of the rolling motor, the winding tube is arranged on the surface of the drainage tube, the detection component comprises a liquid storage tank, a clean water tank, a first pump body, a reagent tank, a detection frame and a collection box respectively, the liquid storage tank is arranged in the inner cavity of the cabin, the clean water tank is arranged on the left side of the liquid storage tank, the first pump body is arranged on the front side of the liquid storage tank, the reagent tank is arranged on the top of the rear side of the cabin inner cavity, the detection frame is arranged at the bottom of the reagent tank, the collection box is arranged at the bottom of the detection frame, a second pump body is arranged on the front side of the collection box, the sample collection component comprises a third pump body, a reagent bottle, a liquid through pipe and a rotating motor respectively, the third pump body is arranged on the front side of the left side of the cabin inner cavity, the reagent bottle is arranged at the top of the third pump body, and the rotating motor is arranged at the bottom of the reagent bottle.

In an embodiment of the application, the cabin is inlayed and is installed in the top of hull, the treater is installed in the left side at hull top, the camera is installed in the left side of hull inlaying, the photovoltaic mechanism is erect in the left side at treater top.

In one embodiment of the present application, a baffle is disposed on the right side of the partition, and a partition is connected to the rear side of the opposite side of the baffle and the partition.

In an embodiment of this application, the front side of a drainage section of thick bamboo is provided with even a section of thick bamboo, the front side of even a section of thick bamboo has the backup pad through bearing swing joint, the fixed cover of one end of receipts reelpipe is equipped with the balancing weight.

In an embodiment of this application, the equal fixed cover in surface of liquid storage pot and clean water jar is equipped with the support body, the input intercommunication of pump body one has the connecting pipe, the both ends of connecting pipe all communicate there is the shunt tubes, the output intercommunication of pump body one has the aqueduct.

In an embodiment of this application, the quantity of reagent jar is a plurality of, the surface cover of reagent jar is equipped with the support, the top of reagent jar is provided with the tube cap, the bottom intercommunication of reagent jar has the fluid-discharge tube.

In an embodiment of this application, the bottom that detects the frame is provided with the fixing base, the bottom intercommunication that detects the frame positive surface has the drain, the front side intercommunication that detects the frame top has the inlet tube, the other end intercommunication of inlet tube has well siphunculus.

In an embodiment of the present application, an output end of the second pump body is communicated with a second liquid guide tube, and an input end of the second pump body is communicated with a first liquid guide tube.

In an embodiment of this application, the output intercommunication of pump body three has the water injection pipe, the quantity of reagent bottle is a plurality of, the bottom of reagent bottle is provided with a support section of thick bamboo.

In one embodiment of the application, the bottom of reagent bottle is provided with the rolling disc, the top of rolling disc is run through to inlay has places the jar.

In an embodiment of the application, the sampling and detection integrated water quality detection equipment further comprises a storage assembly.

The storage assemblies respectively comprise a storage box, a ship trough and a remote controller, the ship trough is arranged at the top of the storage box, and the remote controller is arranged on the rear side of the top of the storage box.

In an embodiment of this application, there is the connecting shell at the top of containing box through hinge swing joint, the equal fixed mounting in front surface and the right side of connecting shell has the handle.

In an embodiment of the application, the shape of ship groove is the same with the shape of hull, the right side at containing box top is run through and is provided with the test-tube rack.

In an embodiment of the application, the left side of containing box top is run through and is provided with spare battery, the inner chamber of containing box adopts the foam filling to make.

The beneficial effect of this application is: this application obtains through above-mentioned design a sampling test integration water quality testing equipment, in using, when examining the quality of water in the specific area, can remove the hull to a department at water source, then through the rolling motor, come to pay off the rolling pipe, make the one end of rolling pipe insert the suitable position in the water source, pump body three can extract the water sample in the water source, make the water sample enter into the drainage section of thick bamboo through the rolling pipe, finally in the suction liquid storage tank, simultaneously, the opening and shutting of solenoid valve on the staff's steerable liquid pipe, come to save in the suction reagent bottle, when saving other water samples, the user only needs control to rotate motor work, change the position of a plurality of reagent bottles, can come to save in the reagent bottle that different suctions correspond through the liquid pipe, after the storage has the water sample in the liquid storage tank, pump body one work and open and shut through the specific solenoid valve on the liquid storage tank, can be with in the suction water sample detection frame in the liquid storage tank, and control the water sample in the water sample detection tank to carry out the water sample detection frame, and the water sample detection tank is realized through the water sample detection in the water detection tank, the water sample detection tank, the water sample detection tank is opened and the water detection is gone up the water detection frame, the water detection of the water detection tank, the water detection of the water sample detection of the water detection system.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a perspective view of a remote control boat according to an embodiment of the present disclosure;

FIG. 2 is a schematic perspective view of a sampling and testing integrated water quality testing apparatus provided in an embodiment of the present application;

FIG. 3 is a schematic right view of the structure of the sampling and testing integrated water quality testing apparatus provided in the embodiment of the present application;

FIG. 4 is a schematic perspective sectional view of a cabin structure provided in an embodiment of the present application;

FIG. 5 is a schematic left sectional perspective view of a cabin structure provided in an embodiment of the present application;

FIG. 6 is a schematic perspective view of a detection assembly according to an embodiment of the present disclosure;

FIG. 7 is a perspective view of a portion of a detection assembly according to an embodiment of the present disclosure;

FIG. 8 is a schematic perspective view of a fluid reservoir configuration provided in accordance with an embodiment of the present application;

FIG. 9 is a schematic left perspective view of a drainage assembly according to an embodiment of the present disclosure;

FIG. 10 is a schematic perspective view of a drainage assembly according to an embodiment of the present application;

FIG. 11 is a schematic perspective view of a sample collection assembly according to an embodiment of the present disclosure;

fig. 12 is a perspective view illustrating a structure of a receiving assembly according to an embodiment of the present application.

In the figure: 100 remote control ship, 110 ship hull, 111 processor, 112 camera, 113 photovoltaic mechanism, 120 cabin, 300 drainage component, 310 baffle, 311 baffle, 312 baffle, 320 rolling motor, 330 drainage tube, 331 connecting tube, 332 drainage tube, 340 rolling tube, 341 balancing weight, 500 detection component, 510 liquid storage tank, 511 frame body, 520 clean water tank, 530 pump body one, 531 connecting tube, 532 shunt tube, 533 water conduit, 540 reagent tank, 541 tube cover, 542 support, 543 drainage tube, 550 detection frame, 551 fixing seat, 552 drainage tube, 553 water inlet tube, 554 middle through tube, 555 sensing module, 560 collection box, 570 pump body two, 571 catheter tube one, catheter tube two, 700 sample collection component, 710 three, 711 water injection tube, 720 reagent bottle, 721 supporting tube, 722 rotating disk, 723 placing tank, 730 liquid through tube, 740 rotating motor, 900

collection component

913, 910 collection box, 911 connecting shell, 912, 920, test tank for spare battery, 930 remote controller.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Examples

As shown in fig. 1-12, integrated water quality testing equipment of sampling test according to this application embodiment, including remote control ship 100, drainage component 300, determine module 500, sample collection component 700 and storage component 900, remote control ship 100 sets up in storage component 900's inner chamber, drainage component 300, determine module 500 and sample collection component 700 all set up in remote control ship 100's inner chamber, storage component 900 can save remote control ship 100, make things convenient for the staff to go out to carry remote control ship 100, drainage component 300 can extract the water of the different degree of depth in the water, make things convenient for subsequent detection achievement, determine module 500 can carry out preliminary detection to the water sample, make the staff learn water sample quality of water in the very first time, sample collection component 700 can extract the storage to the water sample, make things convenient for the staff follow-up to carry out precision measurement to the water sample.

As shown in fig. 4-11, in the case of testing the water quality in the water source areas such as the outdoor mountain area and the wilderness area with complex road conditions, the rugged and graceful road conditions are difficult for pedestrians, so that the large-sized integrated water quality detection equipment for sampling and detection is not easy to enter, and the operator can only collect the water quality samples in a certain area by the original means to meet the water quality detection requirement of the water source.

Remote control ship 100 includes hull 110 and cabin 120 respectively, and treater 111 is installed on the left side at hull 110 top, and camera 112 is installed to inlaying on the left side of hull 110, and photovoltaic mechanism 113 is erect on the left side at treater 111 top, through setting up photovoltaic mechanism 113, can carry out supplementary power supply to hull 110 and handle, and cabin 120 sets up in the right side at hull 110 top, and cabin 120 inlays and installs in the top of hull 110.

The drainage component 300 comprises a partition plate 310, a rolling motor 320, a drainage tube 330 and a rolling tube 340, the partition plate 310 is arranged on the right side of the inner cavity of the cabin 120, a baffle 311 is arranged on the right side of the partition plate 310, a partition plate 312 is connected to the rear side of one side, opposite to the baffle 311 and the partition plate 310, of the partition plate 310 and the partition plate 312, the surfaces of the partition plate 310 and the partition plate 312 are fixedly welded to the inner wall of the cabin 120, the rolling motor 320 is arranged on the right side of the partition plate 310, the front side of the rolling motor 320 is connected with the rear side of the partition plate 312 through a bolt, the rolling motor 320 can be supported and sealed, the drainage tube 330 is arranged on the front side of the drainage tube 330, a connecting tube 331 is fixedly welded to the connecting part of the connecting tube 331 and the drainage tube 330, the front side of the connecting tube 331 is movably connected with a supporting plate through a bearing, the left side of the supporting plate is fixedly connected with the right side of the partition plate 310, the connecting tube 331 can be supported by the connecting tube 331, so as to support the auxiliary supporting plate, the drainage tube 330, the rolling tube 340 is arranged on the surface of the rolling tube 340, and the other end of the drainage tube 311, and the other end of the drainage tube 340, the other end of the drainage tube 340 is communicated with the ship body 311, the ship body, and the ship body, the drainage tube 340.

The detection assembly 500 comprises a liquid storage tank 510, a clean water tank 520, a pump body I530, a reagent tank 540, a detection frame 550 and a collection box 560 respectively, the liquid storage tank 510 is arranged in the inner cavity of the cabin 120, the clean water tank 520 is arranged on the left side of the liquid storage tank 510, the opposite sides of the liquid storage tank 510 and the clean water tank 520 are connected with each other, frame bodies 511 are fixedly sleeved on the surfaces of the liquid storage tank 510 and the clean water tank 520, the bottoms of the frame bodies 511 are connected with the bottom of the inner cavity of the cabin 120 through bolts, the liquid storage tank 510 and the clean water tank 520 can be supported in an auxiliary mode by arranging the frame body 511, the first pump body 530 is arranged on the front side of the liquid storage tank 510, the bottom of the first pump body 530 is in bolted connection with the bottom of the inner cavity of the cabin 120, the input end of the first pump body 530 is communicated with the connecting pipe 531, two ends of the connecting pipe 531 are communicated with the shunt pipes 532, one ends of the shunt pipes 532, far away from the connecting pipe 531, are respectively communicated with the bottoms of the liquid storage tank 510 and the clean water tank 520, the output end of the first pump body 530 is communicated with the water guide pipe 533, the reagent tanks 540 are arranged on the top of the rear side of the inner cavity of the cabin 120, the number of the reagent tanks 540 is a plurality, the surface of the reagent tanks 540 is sleeved with the support 542, the back surfaces of the support 542 are in bolted connection with the rear side of the inner cavity of the cabin 120, the reagent tank 540 can be supported in an auxiliary manner by arranging the support 542, the top of the reagent tank 540 is provided with the tube cover 541, the joint of the tube cover 541 and the reagent tank 540 is movably connected through threads, the bottom of the reagent tank 540 is communicated with the liquid discharge tube 543, the detection frame 550 is arranged at the bottom of the reagent tank 540, the bottom of the liquid discharge tube 543 penetrates into the inner cavity of the detection frame 550, the bottom of the detection frame 550 is provided with the fixed seat 551, the back surface of the fixed seat 551 is connected with the rear side bolt of the inner cavity of the cabin 120, the bottom of the detection frame 550 is movably clamped with the top of the fixed seat 551, and the bottom of the front surface of the detection frame 550 is communicated with the water discharge tube 552;

the collecting box 560 is arranged at the bottom of the detecting frame 550, the other end of the water discharging pipe 552 is communicated with the top of the surface of the collecting box 560, the front side of the top of the detecting frame 550 is communicated with a water inlet pipe 553, the other end of the water inlet pipe 553 is communicated with a middle through pipe 554, the pump body two 570 is arranged at the front side of the collecting box 560, one end of the water guide pipe 533 away from the pump body one 530 is communicated with the middle through pipe 554, the bottom of the collecting box 560 is connected with a rear side bolt at the bottom of the inner cavity of the cabin 120, the bottom of the pump body two 570 is connected with a bottom bolt of the inner cavity of the cabin 120, the output end of the pump body two 570 is communicated with a liquid guide pipe 572, the input end of the pump body two 570 is communicated with a liquid guide pipe 571, the other end of the liquid guide pipe one 571 is communicated with the surface of the collecting box 560, and the other end of the liquid guide pipe 572 penetrates to one side of the top of the ship body 110.

The sample collecting assembly 700 comprises a pump body three 710, reagent bottles 720, a liquid through pipe 730 and a rotating motor 740 respectively, the pump body three 710 is arranged on the front side of the left side of the inner cavity of the cabin 120, the bottom of the pump body three 710 is in bolted connection with the bottom of the inner cavity of the cabin 120, the other end of the drainage pipe 332 is communicated with the input end of the pump body three 710, the output end of the pump body three 710 is communicated with a water injection pipe 711, the reagent bottles 720 are arranged on the left side of the pump body three 710, the number of the reagent bottles 720 is a plurality, the bottom of the reagent bottles 720 is provided with a support barrel 721, the bottom of the reagent bottles 720 is provided with a rotating disc 722, the bottom of the rotating disc 722 is in sliding connection with the top of the support barrel 721, a placing tank 723 is embedded in the top of the rotating disc 722 in a penetrating manner, and the liquid through pipe 730 is arranged on the top of the pump body three 710, one end of a liquid through pipe 730 is communicated with the surface of a water injection pipe 711, a rotating motor 740 is arranged at the bottom of a reagent bottle 720, the reagent bottle 720 is arranged in an inner cavity of a placing tank 723, one end of the liquid through pipe 730 is positioned at the same vertical line with the top of the reagent bottle 720, the bottom of the rotating motor 740 is in bolted connection with the bottom of the inner cavity of the cabin 120, the output end of the rotating motor 740 penetrates through a supporting barrel 721 and is in bolted connection with the surface of a rotating disc 722, the positions of a plurality of reagent bottles 720 can be adjusted by arranging the rotating motor 740 and the rotating disc 722, the other end of the water injection pipe 711 is communicated with the top of a partition plate 310, and electromagnetic valves are arranged on the surfaces of a connecting pipe 531, a shunt pipe 532, a liquid discharge pipe 543, a water inlet pipe 553, a water discharge pipe 552, a first liquid guide pipe 571, a water injection pipe 711 and the liquid through pipe 730.

When detecting water quality in a specific area, the ship body 110 can be moved to one position of a water source, then the rolling pipe 340 is paid off through the rolling motor 320, one end of the rolling pipe 340 is inserted into a proper position in the water source, the pump body III 710 can extract a water sample in the water source, the water sample enters the drainage cylinder 330 through the rolling pipe 340 and is finally pumped into the liquid storage tank 510, meanwhile, a worker can control the opening and closing of the electromagnetic valve on the liquid through pipe 730 to pump the water sample into the reagent bottle 720 for storage, when storing other water samples, a user only needs to control the rotation motor 740 to work, change the positions of the plurality of reagent bottles 720, different water samples can be pumped into the corresponding reagent bottles 720 through the liquid through pipe 730 for storage, after the water sample is stored in the liquid storage tank 510, the pump body I530 works and controls the opening and closing of the specific electromagnetic valve on the liquid storage tank 510 to pump the water sample in the liquid storage tank 510 into the detection frame 550, the specific electromagnetic valve in the reagent tank 540 is controlled, the reagent tank 540 can inject the reagent in the detection frame 550 into the detection tank 550, the water sampling tank 550 and the water sampling tank 550 controls the water sampling tank 550 to detect water sample in the water sampling tank 550, and the sampling tank 550, the sampling tank 550 can detect water sampling tank 550, and the sampling tank.

The storage assemblies 900 respectively comprise storage boxes 910, a boat groove 920 and a remote controller 930, the top of each storage box 910 is movably connected with a connecting shell 911 through a hinge, handles are fixedly mounted on the front surface and the right side of each connecting shell 911, a user can conveniently move the connecting shell 911 and the storage boxes 910 through the handles, the connecting shell 911 and the storage boxes 910 are movably connected in a front-side movable clamping mode on one side opposite to each other, the boat groove 920 is formed in the top of each storage box 910, the shape of the boat groove 920 is the same as that of the ship body 110, the ship body 110 is arranged in an inner cavity of the boat groove 920, the ship body 110 can be stored and protected through the boat groove 920, a test tube rack 912 is arranged on the right side of the top of each storage box 910 in a penetrating mode, the remote controller 930 is arranged on the rear side of the top of each storage box 910, a standby battery 913 is arranged on the left side of the top of each storage box 910 in a penetrating mode, power supply processing can be carried out on the ship body 110 through the standby battery 913 by arranging the standby battery 913, and therefore the power shortage of the ship body 110 is avoided, and the inner cavity of each storage box 910 is made of foam filling.

As shown in fig. 12, after sampling and detecting the water sample, the sample and the detecting device are exposed outside, which is very inconvenient for the working personnel to carry and protect the detecting device and the detecting sample, and then the detecting device and the detecting sample are easily damaged, and the labor intensity of the working personnel is increased.

Through setting up containing box 910 and ship groove 920, can place storage and protection to remote control ship 100 and remote control ware 930, containing box 910 can save each water sample check out test set and sampling device and sample for the sample detection integration water quality testing equipment forms a whole, makes things convenient for operating personnel to carry and accomodates then effectively to check out test set and sample protection.

Specifically, this sampling test integration water quality testing equipment's theory of operation: when detecting water quality in a specific area, the ship body 110 can be moved to one position of a water source, then the rolling pipe 340 is paid off through the rolling motor 320, one end of the rolling pipe 340 is inserted into a proper position in the water source, the pump body III 710 can extract a water sample in the water source, the water sample enters the drainage cylinder 330 through the rolling pipe 340 and is finally pumped into the liquid storage tank 510, meanwhile, a worker can control the opening and closing of the electromagnetic valve on the liquid through pipe 730 to pump the water sample into the reagent bottle 720 for storage, when storing other water samples, a user only needs to control the rotation motor 740 to work, change the positions of the plurality of reagent bottles 720, different water samples can be pumped into the corresponding reagent bottles 720 through the liquid through pipe 730 for storage, after the water sample is stored in the liquid storage tank 510, the pump body I530 works and controls the opening and closing of the specific electromagnetic valve on the liquid storage tank 510 to pump the water sample in the liquid storage tank 510 into the detection frame 550, the specific electromagnetic valve in the reagent tank 540 is controlled, the reagent tank 540 can inject the reagent in the detection frame 550 into the detection tank 550, the water sampling tank 550 and the water sampling tank 550 controls the water sampling tank 550 to detect water sample in the water sampling tank 550, and the sampling tank 550, the sampling tank 550 can detect water sampling tank 550, and the sampling tank.

Further, after sampling and detecting the water sample, the sample and the detection equipment are exposed outside, so that the working personnel are inconvenient to carry and protect the detection equipment and the detection sample, and then the detection equipment and the detection sample are easy to damage, and the labor intensity of the working personnel is increased.

It should be noted that the specific model specifications of the remote control boat 100, the processor 111, the camera 112, the photovoltaic mechanism 113, the winding motor 320, the first pump body 530, the sensing module 555, the second pump body 570, the third pump body 710, the rotating motor 740, the backup battery 913, and the remote controller 930 need to be determined according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, and therefore, detailed description is omitted.

The power supply and the principle of the remote control boat 100, the processor 111, the camera 112, the photovoltaic mechanism 113, the winding motor 320, the first pump body 530, the sensing module 555, the second pump body 570, the third pump body 710, the rotating motor 740, the backup battery 913, and the remote controller 930 will be clear to those skilled in the art, and will not be described in detail herein.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made to the present application by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Claims

1. A sampling detection integrated water quality detection device is characterized by comprising

The remote control ship (100), the remote control ship (100) respectively comprises a ship body (110) and a cabin (120), and the cabin (120) is arranged on the right side of the top of the ship body (110); the drainage assembly (300) comprises a partition plate (310), a winding motor (320), a drainage cylinder (330) and a winding pipe (340), the partition plate (310) is arranged on the right side of an inner cavity of the cabin (120), the winding motor (320) is arranged on the right side of the partition plate (310), the drainage cylinder (330) is arranged on the front side of the winding motor (320), and the winding pipe (340) is arranged on the surface of the drainage cylinder (330); the detection assembly (500) comprises a liquid storage tank (510), a clean water tank (520), a first pump body (530), a reagent tank (540), a detection frame (550) and a collection box (560), the liquid storage tank (510) is arranged in the inner cavity of the cabin (120), the clean water tank (520) is arranged on the left side of the liquid storage tank (510), the first pump body (530) is arranged on the front side of the liquid storage tank (510), the reagent tank (540) is arranged on the top of the rear side of the inner cavity of the cabin (120), the detection frame (550) is arranged at the bottom of the reagent tank (540), the collection box (560) is arranged at the bottom of the detection frame (550), and the second pump body (570) is arranged on the front side of the collection box (560); sample collection subassembly (700), sample collection subassembly (700) includes pump body three (710), reagent bottle (720), leads to liquid pipe (730) and rotates motor (740) respectively, pump body three (710) set up in the left front side of cabin (120) inner chamber, reagent bottle (720) set up in the left side of pump body three (710), it sets up in the top of pump body three (710) to lead to liquid pipe (730), it sets up in the bottom of reagent bottle (720) to rotate motor (740).

2. The integrated water quality detection device for sampling and detecting of claim 1, wherein the cabin (120) is mounted on the top of the ship body (110) in an embedded mode, the processor (111) is mounted on the left side of the top of the ship body (110), the camera (112) is mounted on the left side of the ship body (110) in an embedded mode, and the photovoltaic mechanism (113) is erected on the left side of the top of the processor (111).

3. The sampling and detecting integrated water quality detecting device according to claim 1, wherein a baffle (311) is arranged at the right side of the partition plate (310), and a partition plate (312) is connected to the rear side of the opposite side of the baffle (311) and the partition plate (310).

4. The sampling and detecting integrated water quality detecting device as claimed in claim 1, wherein a connecting cylinder (331) is arranged at the front side of the drainage cylinder (330), a supporting plate is movably connected to the front side of the connecting cylinder (331) through a bearing, and a balancing weight (341) is fixedly sleeved at one end of the winding pipe (340).

5. A sampling and testing integrated water quality testing device according to claim 1, characterized in that the surfaces of the liquid storage tank (510) and the clean water tank (520) are fixedly sleeved with a frame body (511), the input end of the first pump body (530) is communicated with a connecting pipe (531), the two ends of the connecting pipe (531) are communicated with a shunt pipe (532), and the output end of the first pump body (530) is communicated with a water guide pipe (533).

6. The integrated water quality testing device for sampling and detecting of claim 1, wherein the number of the reagent tanks (540) is several, a support (542) is sleeved on the surface of the reagent tank (540), a pipe cover (541) is arranged at the top of the reagent tank (540), and a liquid discharge pipe (543) is communicated with the bottom of the reagent tank (540).

7. A sampling and detection integrated water quality detection device as claimed in claim 1, wherein a fixed seat (551) is arranged at the bottom of the detection frame (550), a water discharge pipe (552) is communicated with the bottom of the front surface of the detection frame (550), a water inlet pipe (553) is communicated with the front side of the top of the detection frame (550), and a middle through pipe (554) is communicated with the other end of the water inlet pipe (553).

8. The sampling and detection integrated water quality detection device according to claim 1, wherein the output end of the second pump body (570) is communicated with a second liquid guide pipe (572), and the input end of the second pump body (570) is communicated with a first liquid guide pipe (571).

9. The sampling and detection integrated water quality detection device according to claim 1, wherein the output end of the pump body three (710) is communicated with a water injection pipe (711), the number of the reagent bottles (720) is several, and the bottom of each reagent bottle (720) is provided with a support barrel (721).

10. The sampling and detecting integrated water quality detecting device according to claim 1, characterized in that a rotating disc (722) is arranged at the bottom of the reagent bottle (720), and a placing tank (723) is embedded in the top of the rotating disc (722) in a penetrating manner.