CN113176388A

CN113176388A - Reservoir water source detects with water source detection device of being convenient for sampling

Info

Publication number: CN113176388A
Application number: CN202110462023.4A
Authority: CN
Inventors: 赵洁
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-07-27

Abstract

The invention discloses a water source detection device convenient for sampling for reservoir water source detection, which comprises a supporting plate, a supporting box and a closed box, wherein a bearing seat is arranged on one side of the supporting plate, the supporting plate is movably connected with a telescopic pull rod through the bearing seat, the top of the supporting plate is provided with the supporting box, a through hole is arranged on the inner side of the supporting plate in a penetrating manner, a supporting frame is arranged on the top of the supporting plate and positioned on two sides of the through hole, a rotating rod is arranged on the top of the supporting frame in a penetrating manner, two groups of winding wheels are arranged on the outer surface of the rotating rod, ropes are wound on the outer surface of the winding wheels, and the bottom ends of the ropes penetrate through the inner side of the through hole. According to the invention, a user takes the closed box out of water, then the water sealing plate is detached from the closed box by detaching the bolt, and then the user separates the sewer pipe from the external thread bayonet by rotating the threaded connecting port, so that the user can take out the sample storage bottle with the sample conveniently.

Description

Reservoir water source detects with water source detection device of being convenient for sampling

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a water source detection device convenient for sampling for reservoir water source detection.

Background

The reservoir refers to an artificial lake, and the smaller size is called a pond, a small dam and a water storage tank. The general forming method is to build a dam in the middle and upstream of a river, and a reservoir is formed after river water submerges a river valley. The reservoir is one of the engineering measures widely adopted in flood control in China. A comprehensive utilization reservoir capable of regulating and storing flood is built at a proper position of an upstream river channel in a flood prevention area, the flood is blocked by utilizing the reservoir capacity of the reservoir, the peak flow entering the downstream river channel is reduced, and the aim of flood disaster relief is fulfilled.

The existing water source detection device has the defects that:

1. the reference CN208313964U discloses a drinking water source detection device, which includes a detection water storage tank provided with a detection structure, and a first water pump assembly connected to the detection water storage tank; the water diversion tank is connected to the first water pump assembly; a partition plate is arranged in the middle of the diversion basin; the water diversion tank is divided into two parts by the partition plate, and the two parts comprise a water inlet tank and a secondary treatment water tank; the water inlet pool is communicated with the secondary treatment water pool through a first valve on the partition plate; the water inlet pool is provided with a second valve and a second water pump assembly communicated with the second valve; the secondary treatment water tank is provided with a third valve, a third water pump assembly communicated with the third valve and a purification device communicated with the third water pump assembly and connected with an outlet pipeline on the second water pump assembly; the device is provided with a plurality of water outlet channels, so that the water quality can meet the requirement, the safety is better, the efficiency is higher, and the device is lack of a sampling device, so that a user can not conveniently acquire a water sample and can not know the water quality of a position to be detected in detail;

2. reference CN212433144U discloses a portable environment water source detection device, "includes main part, solar cell panel, battery case and moving mechanism, the stand is installed to the main part upper end, solar cell panel is installed to the stand upper end, solar cell panel is two, and the symmetry installation, the main part lower extreme is provided with the battery case, battery case internally mounted has the lithium cell, lithium cell and solar cell panel electric connection, the main part passes through the hose and is connected with moving mechanism. The utility model discloses, can take the hose in the place that needs adopted the water source through installation moving mechanism, remove the water sample of gathering each place, change into the mode of traditional artifical collection, the people only need operate through the remote controller in a position, and it is more convenient simple to use, can guarantee through installation hasp and catch that moving mechanism and hose tightly connected to together. The device lacks a sampling device, so that a user is inconvenient to collect a water sample, and the user cannot know the water quality of a position to be detected in detail;

3. the reference document CN210514281U discloses a water quality detection device for detecting water sources at different depths, the structure of which comprises a casing, a bracket, a detection tube, a floating device, an air tube, a data transmission line, a filter plate, a water inlet, a water quality detector, a partition plate, a circuit board and a single chip microcomputer, wherein the floating device is arranged at the upper end of the casing, when the floating or sinking of the water quality detection device is required to be controlled, only a water pump in the floating device is required to pump water and discharge water in a floating ball, the buoyancy of the floating ball is controlled, the water quality detection device is driven by the floating ball to rise or sink, the rising and sinking of the water quality detection device are conveniently controlled, a filter is arranged at the water pumping end of the floating device, the pumped water is filtered by the filter, the blockage of the water pump and the inner part of a guide tube caused by impurities in the water is avoided, and the filter is locked by threads, the filter screen in the filter is convenient to clean. "the device lacks sampling device, and inconvenient user gathers the water sample, and the unable detailed quality of water that knows the required measuring position of user.

Disclosure of Invention

The invention aims to provide a water source detection device for reservoir water source detection, which is convenient for sampling and aims to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a water source detection device convenient for sampling for reservoir water source detection comprises a supporting plate, a supporting box and a closed box, wherein a bearing seat is installed on one side of the supporting plate, the supporting plate is movably connected with a telescopic pull rod through the bearing seat, the supporting box is installed on the top of the supporting plate, a through hole is formed in the inner side of the supporting plate in a penetrating mode, a supporting frame is installed on the top of the supporting plate and located on two sides of the through hole, a rotating rod is installed on the top of the supporting frame in a penetrating mode, two groups of winding wheels are installed on the outer surface of the rotating rod in a penetrating mode, a rope is wound on the outer surface of each winding wheel, the bottom end of the rope penetrates through the inner side of the through hole, a connecting seat is connected to the bottom end of the rope and installed on the top of the closed box through bolts, water pipes are installed on the inner walls of two sides of the closed box in a penetrating mode, and two groups of embedded seats are installed on the inner wall of the bottom of the closed box in a symmetrical distribution mode, the top of gomphosis seat is installed the sample storage bottle, install water quality detector on the bottom inner wall of seal box, and water quality detector is located the rear of gomphosis seat.

Preferably, the bottom of backup pad evenly distributed installs the spliced pole, and the buoyancy ball is installed to the bottom of spliced pole, and the gas injection mouth is installed on the front of buoyancy ball.

Preferably, the outer surface of the telescopic pull rod is provided with a lantern ring, and the top of the lantern ring is connected with a display screen through a bolt.

Preferably, waterproof block terminal is installed at the top of supporting box, and waterproof block terminal's internally mounted has storage battery, and waterproof block terminal's surface mounting has the heating panel, and supporting box internally mounted has the motor, and one side inner wall that the output of motor runs through supporting box is connected with the dwang, and the front of waterproof block terminal is passed through the screw and is installed the equipment board.

Preferably, the front and the back of the closed box are provided with water sealing plates through bolts, and the water sealing plates are provided with observation windows. The water sealing plate is detached from the closed box, and then a user rotates the water sealing plate

Preferably, the two ends of the water pipe are provided with control valves, the bottom of the water pipe is provided with a metering electromagnetic valve, the bottom end of the metering electromagnetic valve is provided with a sewer pipe, and the bottom end of the sewer pipe is embedded with a threaded connector.

Preferably, the top of the sample storage bottle is provided with a sealing cover, the top of the sealing cover is provided with an external thread bayonet, and the external thread bayonet is in threaded connection with the inner side of the threaded connection port.

Preferably, the bottom of the water quality detector penetrates through the bottom of the closed box and is provided with a water quality detection probe.

Preferably, the working steps of the device are as follows:

s1, firstly, a user places a support plate on the water surface of a reservoir, buoyancy balls provide floating force for the device in water, when insufficient buoyancy occurs, the user connects an inflation device with an air injection port to provide the buoyancy balls with upper buoyancy of an air increasing device, then the user adjusts a sleeve in a telescopic pull rod to lengthen the length of the telescopic pull rod, the user pushes the support plate to move by operating the telescopic pull rod, the buoyancy balls increase the support plate to support the support plate, the support plate can be guaranteed to stably float on the water surface, and then the user controls the device to operate through a display screen;

s2, storing electric power by a storage battery pack, providing electric power for the device when the device is operated, ensuring that the device can still normally operate when the device floats on the water surface, driving a rotating rod to rotate by the operation of a motor, driving a winding wheel at the outer side to rotate by the rotation of the rotating rod, unfolding a rope by the rotation of the winding wheel, enabling a connecting seat to move downwards by the unfolding of the rope, supporting a closed box by the connecting seat, and ensuring the stability of the closed box;

s3, the closed box is sunk to the water bottom, then the closed box supports the water quality detector and the sample storage bottle inside, when the device is used for detecting water, the device still keeps stability, after the water quality detecting probe is moved to a water area needing to be detected, the surrounding water quality is detected, the detected result is transmitted to the water quality detector, the detected result is transmitted to the display screen by the water quality detector, a user knows the detected result through the display screen, then the user controls the display screen to open the control valves at the two ends of the water service pipe, so that the control valves are communicated with the inside of the water service pipe, water conveniently passes through the control valves and then enters the inside of the water service pipe, one of the metering electromagnetic valves on the water service pipe of the user is controlled to be opened, so that the sewer pipe is communicated with the water service pipe, and the sewer pipe guides water downwards and conveys the water to the interior of the sample storage bottle;

s4, the user pulls back the supporting plate to the bank side through recycling the telescopic pull rod after completing the operation, then the user takes out the closed box from the water, then the water sealing plate is detached from the closed box through detaching the bolt, then the user separates the sewer pipe from the external thread bayonet by rotating the threaded connection port, the convenience user takes out the sample storage bottle with the sample, and the convenience user collects the sample.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, after the device is sunk to a specified position, the control valves at two ends of the water service pipe are opened, so that the control valves are communicated with the interior of the water service pipe, water conveniently passes through the control valves and then enters the interior of the water service pipe, one metering electromagnetic valve on the water service pipe of a control user is opened, so that a sewer pipe is communicated with the water service pipe, the sewer pipe guides the water downwards and conveys the water to the interior of a sample storage bottle, the device is convenient to convey the water, the metering electromagnetic valve meters the conveyed water, and after the quantity is known, the metering electromagnetic valve is automatically closed, so that the situation that the water is excessively large and the leakage is caused is avoided.

2. According to the invention, the supporting plate is placed on the water surface of the reservoir, the buoyancy ball provides a force for the device to float in water, when insufficient buoyancy occurs, a user connects the inflation device with the gas injection port to provide gas for the buoyancy ball to increase the floating force of the device, the user adjusts the length of the telescopic pull rod, the user can conveniently control the displacement of the supporting plate, the supporting plate is used for adjusting the position of the device, the lantern ring supports the display screen, the stability of the display screen is ensured, and the user can conveniently operate and control the equipment by operating the display screen control device.

3. According to the invention, a user takes the closed box out of water, then the water sealing plate is detached from the closed box by detaching the bolt, and then the user separates the sewer pipe from the external thread bayonet by rotating the threaded connecting port, so that the user can take out a sample storage bottle containing a sample conveniently, and the user can collect the sample conveniently.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic view of the water tube configuration of the present invention;

FIG. 5 is a schematic view of the construction of the enclosure of the present invention;

FIG. 6 is a schematic view of a sample storage bottle according to the present invention;

FIG. 7 is a schematic view of the telescopic rod structure of the present invention;

fig. 8 is a schematic structural diagram of the support box and the support frame of the present invention.

In the figure: 1. a support plate; 101. connecting columns; 102. a buoyant ball; 103. a through hole; 104. a gas injection port; 2. a telescopic pull rod; 201. a collar; 202. a display screen; 203. a bearing seat; 3. a support box; 301. a waterproof distribution box; 302. a battery pack; 303. an electric motor; 304. a heat dissipation plate; 305. assembling a plate; 4. a support frame; 401. rotating the rod; 402. a winding wheel; 403. a rope; 5. closing the box; 501. a connecting seat; 502. a water sealing plate; 503. an observation window; 504. a tabling seat; 6. a water pipe; 601. a control valve; 602. a metering solenoid valve; 603. a sewer pipe; 604. a threaded connector; 7. a sample storage bottle; 701. a closure cap; 702. an external thread bayonet; 8. a water quality detector; 801. a water quality detecting probe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention: a water source detection device convenient for sampling for reservoir water source detection comprises a support plate 1, a support box 3 and a closed box 5, wherein a bearing seat 203 is installed on one side of the support plate 1, the support plate 1 is movably connected with a telescopic pull rod 2 through the bearing seat 203, the support plate 1 is used for supporting a device above, the stability of the device is guaranteed, meanwhile, one side of the support plate 1 is connected with the telescopic pull rod 2 through the bearing seat 203, a user adjusts a sleeve in the telescopic pull rod 2 to lengthen the length of the telescopic pull rod 2, the user pushes the support plate 1 to move by controlling the telescopic pull rod 2, the position of the detection device is convenient to adjust, the water quality is conveniently detected on different positions by the device, the support box 3 is installed at the top of the support plate 1, the support box 3 is supported by the support plate 1, the stability of the support box 3 is guaranteed, and a waterproof distribution box 301 above is supported by the support box 3, fixing motor 303 simultaneously for with motor 303 with external water isolated, guarantee that motor 303 can even running, the inboard of backup pad 1 is run through and is provided with through hole 103, support frame 4 is installed at the top of backup pad 1, and support frame 4 is located the both sides of through hole 103, the top of support frame 4 is run through and is installed dwang 401, the surface mounting of dwang 401 has two sets of rolling wheels 402, the surface winding of rolling wheel 402 has rope 403, support frame 4 is supported by backup pad 1, guarantees the stability of support frame 4, makes things convenient for support frame 4 to support dwang 401, guarantees that dwang 401 can keep steady when rotating, supports rolling wheel 402 by dwang 401, guarantees the stability of rolling wheel 402, drives rolling wheel 402 in the pivoted process of dwang 401 and rotates, rolling wheel 402 rotates and expandes rope 403, the rope 403 is unfolded to enable the connecting seat 501 to move downwards, so that a user can adjust the sinking depth of the detection device conveniently, the user can adjust the device conveniently, the bottom end of the rope 403 penetrates through the inner side of the through hole 103, the bottom end of the rope 403 is connected with the connecting seat 501, the connecting seat 501 is installed at the top of the closed box 5 through a bolt, the rope 403 is connected with the closed box 5 through the connecting seat 501 to ensure the tightness of the connection between the closed box 5 and the rope 403 and ensure the stability of the closed box 5, the inner walls of two sides of the closed box 5 are provided with the water pipes 6 in a penetrating mode, the water pipes 6 are used for guiding the movement of water flow and guiding water to the inside of the device, so that the user can collect samples conveniently, two groups of embedded seats 504 are symmetrically distributed on the inner wall of the bottom of the closed box 5, the sample storage bottles 7 are installed at the tops of, guarantee the stability of gomphosis seat 504, carry on spacingly to sample storage bottle 7 through gomphosis seat 504, guarantee the stability of sample storage bottle 7, the person of facilitating the use carries out dismounting device, and sample storage bottle 7 is used for collecting the water sample, and a plurality of sample storage bottles 7 can be gathered the water sample in different places, improves the precision of sample, install water quality detector 8 on the bottom inner wall of seal box 5, water quality detector 8 is used for carrying out the analysis to quality of water, and water quality detector 8 carries out electric connection with display screen 202 simultaneously, and the person of facilitating the use carries out controlling means, and water quality detector 8 is located the rear of gomphosis seat 504.

Further, the spliced pole 101 is installed to the bottom evenly distributed of backup pad 1, buoyancy ball 102 is installed to the bottom of spliced pole 101, gas injection mouth 104 is installed on buoyancy ball 102's the front, buoyancy ball 102 is connected through spliced pole 101 in the bottom of backup pad 1, guarantee buoyancy ball 102's stability, avoid buoyancy ball 102 to take place not hard up condition when the surface of water floats, when the unable strutting arrangement of buoyancy that takes place buoyancy ball 102 floats, the user injects the gas through gas injection mouth 104, increase device's buoyancy, make the device can be steady float on the surface of water.

Further, the surface mounting of flexible pull rod 2 has lantern ring 201, and there is display screen 202 at the top of lantern ring 201 through bolted connection, and the user adjusts length to flexible pull rod 2, and the convenience device carries out controlgear, supports display screen 202 by lantern ring 201, guarantees display screen 202's stability, and the user passes through display screen 202 controlling means and moves, and the convenience user controls equipment.

Further, waterproof distribution box 301 is installed at the top of supporting box 3, and waterproof distribution box 301's internally mounted has storage battery 302, and waterproof distribution box 301's externally mounted surface has heating panel 304, and supporting box 3 internally mounted has motor 303, and one side inner wall that the output of motor 303 runs through supporting box 3 is connected with dwang 401, and the front of waterproof distribution box 301 is passed through the screw and is installed equipment board 305.

Further, seal water board 502 is installed through the bolt in the front and the back of seal box 5, installs observation window 503 on the seal water board 502, and seal water board 502 is installed on seal box 5 for seal box 5, guarantee the closure of device, avoid external water to enter into the inside of device, avoid seal box 5 inside equipment and water contact, take place the condition of electric leakage, observation window 503 comprises transparent material, and the person of facilitating the use observes the inside condition of device.

Furthermore, control valves 601 are installed at two ends of the water service pipe 6, a metering electromagnetic valve 602 is installed at the bottom of the water service pipe 6, a sewer pipe 603 is installed at the bottom end of the metering electromagnetic valve 602, a threaded connection port 604 is installed at the bottom end of the sewer pipe 603 in an embedded mode, the control valves 601 at two ends of the water service pipe 6 are opened, the control valves 601 are communicated with the interior of the water service pipe 6, water can conveniently pass through the control valves 601 and then enter the interior of the water service pipe 6, one metering electromagnetic valve 602 on the water service pipe 6 of a control user is opened, the sewer pipe 603 is communicated with the water service pipe 6, water delivery is facilitated, the delivered water is metered by the metering electromagnetic valve 602, and after the water volume is known, the metering electromagnetic valve 602 is automatically closed, so that the phenomenon that the water volume is too large and leakage is caused is avoided.

Further, closing cap 701 is installed at the top of sample storage bottle 7, and external screw thread bayonet 702 is installed at the top of closing cap 701, and the inboard threaded connection of external screw thread bayonet 702 and threaded connection mouth 604, and closing cap 701 is installed at the top of sample storage bottle 7, guarantees the closure between the device, carries out butt joint threaded connection mouth 604 through external screw thread bayonet 702, guarantees the closure between the device, and the person of facilitating the use carries the sample.

Further, the bottom of the water quality detector 8 penetrates through the bottom of the closed box 5 and is provided with a water quality detection probe 801, after the water quality detection probe 801 moves to a water area needing to be detected, the surrounding water quality is detected, then a detection result is transmitted to the water quality detector 8, and then the water quality detector 8 transmits the detection result to the display screen 202.

The working steps of the device are as follows:

s1, firstly, a user places the support plate 1 on the water surface of a reservoir, buoyancy balls 102 provide floating force for the device in water, when insufficient buoyancy occurs, the user connects the inflation device with the air injection port 104 to provide the buoyancy balls 102 with the upper buoyancy of the air increasing device, then the user adjusts the sleeve in the telescopic pull rod 2 to lengthen the length of the telescopic pull rod 2, the user pushes the support plate 1 to move by operating the telescopic pull rod 2, the buoyancy balls 102 increase the buoyancy to support the support plate 1 to ensure that the support plate 1 can float on the water surface stably, and then the user controls the device to operate through the display screen 202;

s2, storing electric power by the storage battery pack 302, providing electric power for the device when the device is operated, ensuring that the device can still normally operate when the device floats on the water surface, driving the rotating rod 401 to rotate by the operation of the motor 303, driving the winding wheel 402 at the outer side to rotate by the rotation of the rotating rod 401, unwinding the rope 403 by the rotation of the winding wheel 402, unwinding the rope 403 to enable the connecting seat 501 to move downwards, supporting the closed box 5 by the connecting seat 501, and ensuring the stability of the closed box 5;

s3, the closed box 5 sinks to the water bottom, then the closed box 5 supports the water quality detector 8 and the sample storage bottle 7 inside, the stability of the device is kept when the device is detecting water, after the water quality detection probe 801 moves to the water area to be detected, the surrounding water quality is detected, then the detection result is transmitted to the water quality detector 8, then the water quality detector 8 transmits the detection result to the display screen 202, the user knows the detection result through the display screen 202, then the user controls the display screen 202 to control, the control valves 601 at the two ends of the water service pipe 6 are opened, the control valves 601 are communicated with the inside of the water service pipe 6, so that water conveniently passes through the control valves 601 and then enters the inside of the water service pipe 6, one of the metering electromagnetic valves 602 on the water service pipe 6 of the control user is opened, and the sewer pipe 603 is communicated with the water service pipe 6, the down-flow pipe 603 guides the water downward to deliver the water to the inside of the sample storage bottle 7;

s4, after the operation, the user pulls the supporting plate 1 back to the shore through recovering the telescopic pull rod 2, then the user takes the closed box 5 out of the water, then the water sealing plate 502 is detached from the closed box 5 through detaching the bolt, then the user separates the sewer pipe 603 from the external thread bayonet 702 by rotating the threaded connection port 604, the convenience is brought to the user to take out the sample storage bottle 7 with the sample, and the convenience is brought to the user to collect the sample.

The working principle is as follows: firstly, a user places a support plate 1 on the water surface of a reservoir, the buoyancy ball 102 provides floating force for the device in water, when insufficient buoyancy occurs, the user connects an inflating device with an air injection port 104, the buoyancy ball 102 provides gas to increase the buoyancy of the device, then the user adjusts a sleeve in a telescopic pull rod 2 to lengthen the length of the telescopic pull rod 2, the user pushes the support plate 1 to move by operating the telescopic pull rod 2, the buoyancy ball 102 increases the buoyancy to support the support plate 1, the support plate 1 can stably float on the water surface, then the user controls the device to operate through a display screen 202, the storage battery pack 302 stores electric power, when the device operates, the electric power is provided for the device, when the device floats on the water surface, the device can still normally operate, and the electric motor 303 operates to drive a rotating rod 401 to rotate, the rotating rod 401 rotates to drive the winding wheel 402 on the outer side to rotate, the winding wheel 402 rotates to unfold the rope 403, the rope 403 unfolds to enable the connecting seat 501 to move downwards, the connecting seat 501 supports the closed box 5 to ensure the stability of the closed box 5, the closed box 5 sinks to the bottom, then the closed box 5 supports the water quality detector 8 and the sample storage bottle 7 inside, the device is ensured to still keep the stability when detecting water, after the water quality detection probe 801 moves to a water area needing to be detected, the surrounding water quality is detected, then the detected result is transmitted to the water quality detector 8, then the water quality detector 8 transmits the detected result to the display screen 202, a user knows the detected result through the display screen 202, then the user controls the display screen 202 by controlling, the control valves 601 at the two ends of the water pipe 6 are opened to enable the control valve 601 to be communicated with the inside of the water pipe 6, the water conveniently passes through the control valve 601 and then enters the water service pipe 6, one of the metering electromagnetic valves 602 on the water service pipe 6 of a control user is opened, so that the sewer pipe 603 is communicated with the water service pipe 6, the sewer pipe 603 guides the water downwards and conveys the water to the inside of the sample storage bottle 7, after the operation is completed, the user pulls the support plate 1 back to the shore by recovering the telescopic pull rod 2, then the user takes the closed box 5 out of the water, then the water sealing plate 502 is detached from the closed box 5 by detaching the bolts, then the user separates the sewer pipe 603 from the external thread bayonet 702 by rotating the threaded connecting port 604, the user can take the sample storage bottle 7 with the sample out conveniently, and the user can collect the sample conveniently.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a reservoir water source detects with water source detection device of being convenient for sample, includes backup pad (1), supporting box (3) and seal box (5), its characterized in that: bearing frame (203) is installed to one side of backup pad (1), backup pad (1) has flexible pull rod (2) through bearing frame (203) swing joint, supporting box (3) is installed at the top of backup pad (1), the inboard of backup pad (1) is run through and is provided with through hole (103), support frame (4) are installed at the top of backup pad (1), and support frame (4) are located the both sides of through hole (103), dwang (401) is installed in the top of support frame (4) through-going, the surface mounting of dwang (401) has two sets of rolling wheels (402), the surface winding of rolling wheel (402) has rope (403), the inboard of through hole (103) is run through to rope (403) bottom, the bottom of rope (403) is connected with connecting seat (501), connecting seat (501) pass through the bolt and install the top at closed case (5), the water pipe (6) penetrates through and is installed on the inner walls of two sides of the closed box (5), two groups of embedded seats (504) are symmetrically distributed and installed on the inner wall of the bottom of the closed box (5), the sample storage bottle (7) is installed at the top of each embedded seat (504), the water quality detector (8) is installed on the inner wall of the bottom of the closed box (5), and the water quality detector (8) is located behind the embedded seats (504).

2. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: the bottom of backup pad (1) evenly distributed installs spliced pole (101), and buoyancy ball (102) are installed to the bottom of spliced pole (101), and gas injection mouth (104) are installed on the front of buoyancy ball (102).

3. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: the outer surface of the telescopic pull rod (2) is provided with a lantern ring (201), and the top of the lantern ring (201) is connected with a display screen (202) through a bolt.

4. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: waterproof block terminal (301) is installed at the top of supporting box (3), the internally mounted of waterproof block terminal (301) has storage battery (302), the surface mounting of waterproof block terminal (301) has heating panel (304), supporting box (3) internally mounted has motor (303), the output of motor (303) runs through one side inner wall of supporting box (3) and is connected with dwang (401), equipment board (305) are installed through the screw in the front of waterproof block terminal (301).

5. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: the front and the back of the closed box (5) are provided with water sealing plates (502) through bolts, and the water sealing plates (502) are provided with observation windows (503).

6. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: control valves (601) are installed at two ends of the water service pipe (6), a metering electromagnetic valve (602) is installed at the bottom of the water service pipe (6), a sewer pipe (603) is installed at the bottom end of the metering electromagnetic valve (602), and a threaded connecting port (604) is installed at the bottom end of the sewer pipe (603) in a embedded mode.

7. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: a sealing cover (701) is installed at the top of the sample storage bottle (7), an external thread bayonet (702) is installed at the top of the sealing cover (701), and the external thread bayonet (702) is in threaded connection with the inner side of the threaded connecting port (604).

8. The water source detection device convenient for sampling for water source detection of the reservoir as claimed in claim 1, wherein: and a water quality detection probe (801) is arranged at the bottom of the water quality detector (8) which penetrates through the bottom of the closed box (5).

9. A water source detection device for reservoir water source detection for sampling according to any one of claims 1 to 8, wherein the novel sewage treatment automation control device comprises the following steps:

s1, according to any one of claims 1 to 8, firstly, a user places a support plate (1) on the water surface of a reservoir, a buoyancy ball (102) provides a floating force for the device in the water, when insufficient buoyancy occurs, the user connects an inflation device with an air injection port (104) to provide the buoyancy ball (102) with the upper buoyancy of an air increasing device, then the user adjusts a sleeve in a telescopic pull rod (2) to lengthen the length of the telescopic pull rod (2), the user pushes the support plate (1) to move by operating the telescopic pull rod (2), the support plate (1) is supported by the buoyancy ball (102) in an increasing way, the support plate (1) can be ensured to float on the water surface stably, and then the user controls the device to operate through a display screen (202);

s2, according to any claim of 1 to 8, storing electric power by a storage battery pack (302), supplying electric power to the device when the device is operated, ensuring that the device can still normally operate when floating on the water surface, operating a motor (303) to drive a rotating rod (401) to rotate, rotating the rotating rod (401) to drive an outer winding wheel (402) to rotate, rotating the winding wheel (402) to unwind a rope (403), unwinding the rope (403) to enable a connecting seat (501) to move downwards, supporting the closed box (5) by the connecting seat (501), and ensuring the stability of the closed box (5);

s3, according to any claim of 1 to 8, the closed box (5) sinks to the water bottom, then the closed box (5) supports the water quality detector (8) and the sample storage bottle (7) inside, the device is guaranteed to keep stability when detecting water, after the water quality detection probe (801) moves to the water area needing to be detected, the surrounding water quality is detected, then the detected result is transmitted to the water quality detector (8), then the detected result is transmitted to the display screen (202) by the water quality detector (8), the user knows the detected result through the display screen (202), then the user controls by operating the display screen (202), the control valves (601) at the two ends of the water pipe (6) are opened, so that the control valves (601) and the interior of the water pipe (6) are communicated, and water conveniently passes through the control valves (601), then enters the interior of the water service pipe (6), one of the metering electromagnetic valves (602) on the water service pipe (6) of the control user is opened, so that the sewer pipe (603) is communicated with the water service pipe (6), the sewer pipe (603) guides water downwards and conveys the water to the interior of the sample storage bottle (7);

s4, according to any one of claims 1 to 8, after the operation is completed, a user pulls the supporting plate (1) back to the shore by recovering the telescopic pull rod (2), then the user takes the closed box (5) out of the water, then the water sealing plate (502) is detached from the closed box (5) by detaching the bolt, then the user separates the sewer pipe (603) from the external thread bayonet (702) by rotating the threaded connecting port (604), the user can take out the sample storage bottle (7) containing the sample conveniently, and the user can collect the sample conveniently.