CN111474312A

CN111474312A - Solar water body oxygenation detection device

Info

Publication number: CN111474312A
Application number: CN202010387770.1A
Authority: CN
Inventors: 廖晓建
Original assignee: Jiandelingxin New Energy Technology Co ltd
Current assignee: Smart Factory Technology Services Suqian Co ltd
Priority date: 2020-05-09
Filing date: 2020-05-09
Publication date: 2020-07-31
Anticipated expiration: 2040-05-09
Also published as: CN111474312B; GB202012979D0

Abstract

The invention discloses a solar water oxygenation detection device, which comprises a box body, wherein five photovoltaic panels are fixedly connected on the front, back, left and right upper surfaces outside the box body, a working cavity is formed in the box body, a power supply is arranged in the box body and fixedly connected with the box body, a guide rail with a right opening is arranged on the inner wall of the left side of the working cavity, a circular sliding block is arranged in the guide rail in a vertically sliding manner, a steering gear is fixedly connected outside the guide rail on the right side of the circular sliding block, a water pumping cross rod is fixedly connected to the right end of the steering gear, and a sleeve is sleeved outside the water pumping cross rod. The workload of sampling personnel is reduced.

Description

Solar water body oxygenation detection device

Technical Field

The invention relates to the field of photovoltaic panels, in particular to a solar water body oxygenation detection device.

Background

In the process of cultivating aquatic products in modern artificial aquaculture industry, water quality is often required to be monitored, most of the existing modes for detecting water quality are manual sampling, after the aquatic products are sampled after the aquatic products reach a specified water area by rowing, water samples are sent back to a laboratory for detection, and manual errors can occur when the water quality at different water depths is detected.

Disclosure of Invention

The embodiment designs a solar water oxygenation detection device, which comprises a box body, wherein five photovoltaic panels are fixedly connected with the front, back, left and right upper surfaces outside the box body, a working cavity is formed in the box body, a power supply is arranged in the box body and fixedly connected with the box body, a guide rail with a right opening is arranged on the inner wall of the left side of the working cavity, a circular sliding block is arranged in the guide rail in a vertically sliding manner, the right side of the circular sliding block extends out of the guide rail and is fixedly connected with a steering gear, the right end of the steering gear is fixedly connected with a pumping cross rod, a sleeve is sleeved outside the pumping cross rod, a fixed rod is arranged on the upper side of the guide rail, the left end of the fixed rod is fixedly connected with the box body, a fixed gear is fixedly connected on the right side of the fixed rod, a steering motor is fixedly connected, the right end of the steering rod is fixedly connected with an active rocker, the upper end of the active rocker is hinged with an auxiliary transmission rocker, and the auxiliary transmission rocker is fixedly connected with the sleeve; the water pumping cross rod right rear end is rotatably provided with a suspension rod, the suspension rod rear side is provided with a motor cavity with a forward opening, a winch is rotatably arranged between the suspension rod and the motor cavity, a lifting motor is fixedly connected inside the right end of the motor cavity, the front end of the lifting motor is in power connection with the winch, a water storage slot with a forward opening is formed in the winch, a water collecting bottle with a backward opening is rotatably arranged in the water storage slot, the front end of the water collecting bottle is fixedly connected with the suspension rod rear end, a ventilation valve is fixedly connected above the front end of the water collecting bottle, a hose is wound outside the winch, the rear end of the hose is vertically downward, a metal filter head is fixedly connected below the rear end of the hose, a water pumping rod with two through ends is fixedly connected inside the front end of the winch, the upper end of the water pumping rod is fixedly connected with the front end of the hose and is mutually through, the front side of the lower end of the water pumping rod, a pumping centrifugal wheel is fixedly connected inside the upper end of the pumping rod, a pumping motor is fixedly connected inside the front end of the winch, the pumping motor is electrically connected with the power supply, and the front end of the pumping motor is in power connection with the pumping centrifugal wheel; a detection box is fixedly connected to the inner wall of the left lower part of the working cavity, and a detection slot with an upward opening is formed in the left end of the detection box;

the photovoltaic panel charges the power supply, the power supply starts the lifting motor, the lifting motor rotates to drive the winch to rotate, the hose is further driven to rotate, the lower part of the hose moves downwards under the action of the gravity of the metal filter head, when the metal filter head reaches a preset depth below the water surface, the pumping motor is started, the pumping centrifugal wheel is further driven to work, the water is gradually pumped into the pumping rod from the lower end of the hose, the ventilation valve starts to ventilate, the water is pumped into the water collecting bottle, when the water collecting bottle is full of water, the operation of the pumping motor is stopped, the steering motor is started, the steering motor rotates anticlockwise to drive the steering rod to rotate anticlockwise, the upper end of the driving rocker is further driven to swing anticlockwise around the steering rod, and the auxiliary transmission rocker is further driven to move forwards, and then driving the sleeve to move forwards, further driving the pumping cross rod to move forwards, further driving the water collecting bottle to move forwards, further driving the steering gear, the sliding rod and the circular sliding block to move forwards, wherein the circular sliding block moves forwards along the guide rail, when the upper end of the steering gear is meshed with the fixed gear, the fixed gear cannot rotate, further the steering gear starts to rotate clockwise, further the pumping cross rod is driven to rotate clockwise, further the winch is driven to rotate clockwise around the pumping cross rod, when the steering gear is driven to slide to the lower end of the guide rail, the steering gear is disengaged from the fixed gear, at the moment, the opening of the water collecting bottle turns vertically downwards, and the water collecting bottle continues to move downwards until the water collecting bottle is inserted into the detection slot.

Preferably, the lower end of the box body is fixedly connected with a plastic plate, the lower end of the power supply is provided with a waterproof plate, the left end and the right end of the waterproof plate are fixedly connected with the box body, the center of the inner wall of the lower end of the working cavity is provided with an oxygen charging pipe which is communicated up and down, the left side of the oxygen charging pipe is provided with an oxygen charging motor, the oxygen charging motor is electrically connected with the power supply, the inner wall of the lower side of the working cavity is fixedly connected with the inner wall of the working cavity, the oxygen charging pipe is internally provided with an air charging hole which is communicated up and down, the middle part of the air charging hole is provided with a one-way filter head, the lower end of the oxygen charging pipe is fixedly connected with a T-shaped rod, the lower end of the T-shaped rod is fixedly connected with a water diversion disc, an oxygen diversion net is fixedly connected between the upper end of the water diversion disc, it is equipped with main oxygenation bevel gear to oxygenate motor left end power connection, vice oxygenation bevel gear with the main meshing of oxygenation bevel gear mutually starts the oxygenation motor, the oxygenation motor rotates and drives main oxygenation bevel gear rotates, and then drives vice oxygenation bevel gear rotates, and then drives the eccentric rod rotates, and then drives oxygenation centrifugal fan work, and then blows air downwards, and the air drives T type pole is opened downwards, and then air downstream gets into the aquatic through driving oxygen reposition of redundant personnel net to oxygenate the water, when oxygenating motor during the stop work, oxygen reposition of redundant personnel net drainage prevents that aquatic impurity refluence from getting into in the middle of the one-way filter head, the one-way filter head is in the closed condition makes in the middle of rivers can' T get into the working chamber, and then protection device.

Preferably, a propulsion motor is fixedly connected to the inner wall of the lower side of the front end in the working cavity, a main propulsion rod is arranged at the front end of the propulsion motor in a power connection mode, a main propulsion wheel is fixedly connected to the outside of the main propulsion rod, two upper transmission rods are arranged on the left side and the right side of the main propulsion wheel and are bilaterally symmetrical with the main propulsion wheel as a symmetry center, a fixed plate is arranged at the rear end of each upper transmission rod, the front end of each fixed plate is rotatably connected with the corresponding upper transmission rod, the lower end of each fixed plate is fixedly connected with the box body, an upper driven wheel is fixedly connected to the front end of each upper transmission rod, an upper driving wheel is fixedly connected to the rear end of each upper transmission rod, and an upper driving belt is rotatably arranged between each upper driving wheel; the front end of the box body is provided with two vertical through holes which are vertically communicated, the two vertical through holes are bilaterally symmetrical by taking the main propulsion wheel as a symmetrical center, the lower surface of the front end of the plastic plate is fixedly connected with two motor brackets, the two motor brackets are bilaterally symmetrical by taking the main propulsion wheel as a symmetrical center, the front end of each motor bracket is rotatably provided with a transmission rod, the transmission rod is fixedly connected with a lower driving wheel, a lower transmission belt is rotatably arranged between the lower driving wheel and the upper driven wheel, and the front end of the transmission rod is fixedly connected with a propulsion fan blade; the propulsion motor is started and rotates to drive the main propulsion rod to rotate, so that the main propulsion wheel is driven to rotate, the upper transmission belt is driven to rotate, the upper driving wheel is driven to rotate, the upper transmission rod is driven to rotate, the upper driven wheel is driven to rotate, the lower transmission belt is driven to rotate, the lower transmission wheel is driven to rotate, the transmission rod is driven to rotate, the propulsion fan blades are driven to rotate, the motor support is further driven to move, the plastic plate is further driven to move, and the box body is further driven to move.

Preferably, a rectification motor is arranged on the upper surface of the rear end of the box body and electrically connected with the power supply, a driven bevel gear is dynamically connected to the rear end of the rectification motor, the driven bevel gear is meshed below the driven bevel gear, a guide transmission plate is fixedly connected to the lower end of the driven bevel gear, a rectification plate is fixedly connected to the front end of the guide transmission plate, when the box body needs to be turned, the rectification motor is started, rotates to drive the driving bevel gear to rotate, further drives the driven bevel gear to rotate, further drives the guide transmission plate to rotate, further drives the rectification plate to rotate, and controls the box body to turn under the reactive force of water flow.

Preferably, a water storage cavity with a backward opening is arranged in the water collecting bottle, a water filling port which is communicated with the front and the back is arranged on the inner wall of the rear side of the water storage cavity, two elastic pieces are arranged on the inner wall of the middle part of the water filling port in a front-back sliding manner, the two elastic pieces use the upper driving wheel center as a symmetry center, a spring is fixedly connected to the front end of each elastic piece, the front end of the spring is fixedly connected with the water collecting bottle, a one-way round valve is arranged on the inner wall of the rear end of the water filling port in a rotating manner, the water collecting bottle is inserted backwards into the water storage slot until the winch contacts the one-way round valve, the water collecting bottle continuously moves backwards, the center of the one-way round valve moves forwards under the pressure of the winch, the center of the one-way round valve is separated from the center of the one-way round valve, the winch is inserted into the water storage slot, preventing the water from overflowing.

Preferably, the left end and the right end of the plastic plate are fixedly connected with two air bags, the two air bags take the main propulsion wheel as a symmetrical center, and when the air bags are placed in water, the air bags float on the water surface under the buoyancy of the water, so that the plastic plate is driven to float on the water surface; the right side of the working cavity is provided with a ventilation hole which is communicated left and right, when the oxygenation motor works to oxygenate the water, the ventilation hole can ensure the air circulation and provide enough oxygen; the utility model discloses a detection device, including detection slot, detection case, water collecting bottle, water storage cavity, rubber valve, water collecting bottle, detection plug, detection slot, detection box, rubber valve can prevent that rivers from flowing backward and damaging equipment.

The invention has the beneficial effects that: the photovoltaic water sampling device is provided with the water pumping motor and the detection box, so that two functions of water taking and detection can be completed at one time, and the workload of sampling personnel is reduced.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a solar water oxygenation detection device according to the invention;

FIG. 2 is a schematic view of the structure in the direction "F-F" of FIG. 1;

FIG. 3 is an enlarged schematic view of "C" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "G-G" of FIG. 3;

FIG. 6 is an enlarged schematic view of "E" of FIG. 5;

FIG. 7 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 8 is a schematic view of the structure in the direction "D-D" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a solar water oxygenation detection device, which comprises a box body 11, wherein five photovoltaic panels 34 are fixedly connected with the front, back, left and right upper surfaces outside the box body 11, a working cavity 14 is formed in the box body 11, a power supply 12 is arranged in the box body 11, the power supply 12 is fixedly connected with the box body 11, a guide rail 31 with a right opening is arranged on the inner wall of the left side of the working cavity 14, a circular slider 44 is arranged in the guide rail 31 in a vertically sliding manner, a steering gear 45 is fixedly connected to the right side of the circular slider 44, which extends out of the guide rail 31, a water pumping cross bar 30 is fixedly connected to the right end of the steering gear 45, a sleeve 53 is sleeved outside the water pumping cross bar 30, a fixed rod 42 is arranged on the upper side of the guide rail 31, the left end of the fixed rod 42 is fixedly connected with the box body 11, a, the steering motor 32 is electrically connected with the power supply 12, a steering rod 46 is connected to the right end of the steering motor 32 in a power mode, an active rocker 47 is fixedly connected to the right end of the steering rod 46, an auxiliary transmission rocker 55 is hinged to the upper end of the active rocker 47, and the auxiliary transmission rocker 55 is fixedly connected with the sleeve 53; the right rear end of the pumping cross rod 30 is rotatably provided with a suspension rod 52, the rear side of the suspension rod 52 is provided with a motor cavity 54 with a forward opening, a winch 33 is rotatably arranged between the suspension rod 52 and the motor cavity 54, the right end of the motor cavity 54 is internally and fixedly connected with a lifting motor 25, the front end of the lifting motor 25 is in power connection with the winch 33, a water storage slot 59 with a forward opening is arranged in the winch 33, a water collection bottle 51 with a backward opening is rotatably arranged in the water storage slot 59, the front end of the water collection bottle 51 is fixedly connected with the rear end of the suspension rod 52, a vent valve 74 is fixedly connected above the front end of the water collection bottle 51, a hose 40 is wound outside the winch 33, the rear end of the hose 40 is vertically downward, a metal filter head 19 is fixedly connected below the rear end of the hose 40, a pumping rod 56 with two through ends is fixedly connected inside the front end of the winch 33, and the upper end of the pumping rod 56 is fixedly connected with the front end, the front side of the lower end of the water pumping rod 56 is in contact with and communicated with the water collecting bottle 51, a water pumping centrifugal wheel 73 is fixedly connected inside the upper end of the water pumping rod 56, a water pumping motor 57 is fixedly connected inside the front end of the winch 33, the water pumping motor 57 is electrically connected with the power supply 12, and the front end of the water pumping motor 57 is in power connection with the water pumping centrifugal wheel 73; a detection box 28 is fixedly connected to the inner wall of the lower left of the working cavity 14, and a detection slot 48 with an upward opening is formed in the left end of the detection box 28;

the photovoltaic panel 34 charges the power source 12, the power source 12 starts the lifting motor 25, the lifting motor 25 rotates to drive the winch 33 to rotate, and further drive the hose 40 to rotate, and further the lower part of the hose 40 moves downward under the action of the gravity of the metal filter head 19, when the metal filter head 19 reaches a predetermined depth below the water surface, the water pumping motor 57 is started, and further the water pumping centrifugal wheel 73 is driven to work, and further the water is pumped into the water pumping rod 56 from the lower end of the hose 40, the ventilation valve 74 starts ventilation, and further the water is pumped into the water collecting bottle 51, when the water collecting bottle 51 is full of water, the operation of the water pumping motor 57 is stopped, the steering motor 32 is started, the steering motor 32 rotates counterclockwise to drive the steering rod 46 to rotate counterclockwise, and further drive the upper end of the driving rocker 47 to swing counterclockwise around the steering rod 46, the auxiliary transmission rocker 55 is driven to move forward, the sleeve 53 is driven to move forward, the pumping cross bar 30 is driven to move forward, the water collecting bottle 51 is driven to move forward, the steering gear 45, the sliding rod 43 and the circular slider 44 are driven to move forward, the circular slider 44 moves forward along the guide rail 31, when the upper end of the steering gear 45 is engaged with the fixed gear 41, the fixed gear 41 cannot rotate, the steering gear 45 starts to rotate clockwise, the pumping cross bar 30 is driven to rotate clockwise, the winch 33 is driven to rotate clockwise around the pumping cross bar 30, when the steering gear 45 is driven to slide to the lower end of the guide rail 31, the steering gear 45 is disengaged from the fixed gear 41, and the opening of the water collecting bottle 51 is turned vertically downwards, the water collection bottle 51 continues to move downward until the water collection bottle 51 is inserted into the inspection socket 48.

Beneficially, the lower end of the box 11 is fixedly connected with a plastic plate 27, the lower end of the power supply 12 is provided with a waterproof plate 13, the left and right ends of the waterproof plate 13 are fixedly connected with the box 11, an oxygen charging pipe 68 which is through from top to bottom is arranged in the middle of the inner wall of the lower end of the working chamber 14, an oxygen charging motor 69 is arranged on the left side of the oxygen charging pipe 68, the oxygen charging motor 69 is electrically connected with the power supply 12, the oxygen charging motor 69 is fixedly connected with the inner wall of the lower side of the working chamber 14, an air charging hole 21 which is through from top to bottom is formed in the oxygen charging pipe 68, a one-way filter head 20 is arranged in the middle of the air charging hole 21, a T-shaped rod 22 is fixedly connected at the lower end of the oxygen charging pipe 68, a water diversion tray 23 is fixedly connected at the lower end of the T-shaped rod 22, an oxygen diversion net 24 is fixedly connected between the upper, the centrifugal rod 75 is connected with the oxygen charging pipe 68 in a rotating way, the upper end of the centrifugal rod 75 is fixedly connected with an auxiliary oxygen charging bevel gear 78, the left end of the oxygen charging motor 69 is connected with a main oxygen charging bevel gear 76 in a power way, the auxiliary oxygen charging bevel gear 78 is meshed with the main oxygen charging bevel gear 76, the oxygen charging motor 69 is started, the oxygen charging motor 69 rotates to drive the main oxygen charging bevel gear 76 to rotate, and further drives the auxiliary oxygen charging bevel gear 78 to rotate, and further drives the centrifugal rod 75 to rotate, and further drives the oxygen charging centrifugal fan 77 to work, and further blows air downwards, and the air drives the T-shaped rod 22 to be opened downwards, and further the air moves downwards to enter water through driving the oxygen shunt network 24, so as to charge the water body with oxygen, when the oxygen charging motor 69 stops working, the oxygen shunt network 24 filters water to prevent impurities in the water from flowing backwards to the one, the one-way filter head 20 is closed so that water flow cannot enter the working chamber 14, thereby protecting the device.

Beneficially, a propulsion motor 64 is fixedly connected to the inner wall of the lower side of the front end in the working cavity 14, a main propulsion rod 67 is arranged at the front end of the propulsion motor 64 in a power connection manner, a main propulsion wheel 66 is fixedly connected to the outside of the main propulsion rod 67, two upper transmission rods 63 are arranged on the left and right sides of the main propulsion wheel 66, the two upper transmission rods 63 are bilaterally symmetrical with the main propulsion wheel 66 as a symmetrical center, a fixed plate 81 is arranged at the rear end of each upper transmission rod 63, the front end of the fixed plate 81 is rotatably connected with the upper transmission rod 63, the lower end of the fixed plate 81 is fixedly connected with the box body 11, an upper driven wheel 79 is fixedly connected to the front end of each upper transmission rod 63, an upper driving wheel 80 is fixedly connected to the rear end of each upper transmission rod 63, and an upper transmission belt 16 is rotatably arranged; the front end of the box body 11 is provided with two vertical through holes 17 which are vertically communicated, the two vertical through holes 17 are bilaterally symmetrical by taking the main propelling wheel 66 as a symmetrical center, the lower surface of the front end of the plastic plate 27 is fixedly connected with two motor brackets 37, the two motor brackets 37 are bilaterally symmetrical by taking the main propelling wheel 66 as a symmetrical center, the front end of each motor bracket 37 is rotatably provided with a transmission rod 35, the transmission rod 35 is fixedly connected with a lower driving wheel 36, a lower transmission belt 18 is rotatably arranged between the lower driving wheel 36 and the upper driven wheel 79, and the front end of the transmission rod 35 is fixedly connected with a propelling fan blade 26; the propulsion motor 64 is started, the propulsion motor 64 rotates to drive the main propulsion rod 67 to rotate, so that the main propulsion wheel 66 is driven to rotate, the upper transmission belt 16 is driven to rotate, the upper driving wheel 80 is driven to rotate, the upper transmission rod 63 is driven to rotate, the upper driven wheel 79 is driven to rotate, the lower transmission belt 18 is driven to rotate, the lower transmission wheel 36 is driven to rotate, the transmission rod 35 is driven to rotate, the propulsion fan blades 26 are driven to rotate, the motor support 37 is driven to move, the plastic plate 27 is driven to move, and the box body 11 is driven to move.

Beneficially, a rectifying motor 70 is disposed on the upper surface of the rear end of the box 11, the rectifying motor 70 is electrically connected to the power supply 12, a driven bevel gear 72 is dynamically connected to the rear end of the rectifying motor 70, the driven bevel gear 72 is engaged with the lower portion of the driven bevel gear 72, a guiding transmission plate 39 is fixedly connected to the lower end of the driven bevel gear 72, a rectifying plate 38 is fixedly connected to the front end of the guiding transmission plate 39, when the box 11 needs to be steered, the rectifying motor 70 is started, the rectifying motor 70 rotates to drive the driving bevel gear 71 to rotate, and further drive the driven bevel gear 72 to rotate, and further drive the guiding transmission plate 39 to rotate, and further drive the rectifying plate 38 to rotate, and the box 11 is controlled to steer under the reactive force of water flow.

Beneficially, a water storage cavity 58 with a backward opening is arranged in the water collecting bottle 51, a water filling port 82 which is through from front to back is arranged on the inner wall of the rear side of the water storage cavity 58, two elastic pieces 60 are arranged on the inner wall of the middle of the water filling port 82 in a front-back sliding manner, the two elastic pieces 60 use the center of the upper driving wheel 80 as a symmetry center, a spring 62 is fixedly connected to the front end of each elastic piece 60, the front end of the spring 62 is fixedly connected with the water collecting bottle 51, a one-way round valve 61 is arranged on the inner wall of the rear end of the water filling port 82 in a rotating manner, the water collecting bottle 51 is inserted into the water storage slot 59 backwards until the winch 33 contacts the one-way round valve 61, the water collecting bottle 51 continues to move backwards, the center of the one-way round valve 61 moves forwards under the pressure of the winch 33, the center of the one-way round valve 61 is, further, the spring 62 is compressed, and the center of the one-way round valve 61 is tightly attached to the winch 33 at this time, so that the water flow is prevented from overflowing.

Beneficially, the two air bags 29 are fixedly connected to the left and right ends of the plastic plate 27, the two air bags 29 take the main propulsion wheel 66 as a symmetric center, and when the air bags 29 are placed in water, the air bags 29 float on the water surface by the buoyancy of the water, so as to drive the plastic plate 27 to float on the water surface; the right side of the working cavity 14 is provided with a ventilation hole 15 which is through from left to right, when the oxygenation motor 69 works to oxygenate the water, the ventilation hole 15 can ensure the air circulation and provide enough oxygen; the detection slot 48 is internally provided with a detection hole 49 with an upward opening, the detection hole 49 is fixedly connected with a detection plug 50, the left lower end of the box body 11 is provided with a discharge port 83 which is communicated up and down, the right end of the discharge port 83 is communicated with the detection box 28, a rubber valve 84 is arranged in the discharge port 83 in a rotating mode, when the water collecting bottle 51 is inserted into the detection slot 48, the water collecting bottle 51 continuously moves downwards until the detection plug 50 is inserted into the water storage cavity 58, water in the water collecting bottle 51 flows into the detection box 28 under the action of gravity, so that water quality is detected, waste water after detection is finished can pass through the discharge port 83 to be discharged downwards, and the rubber valve 84 in the discharge port 83 can prevent the water from flowing backwards to damage equipment.

The following describes in detail the use steps of a solar water oxygenation detection apparatus herein with reference to fig. 1 to 8:

initially, the metal filter head 19 is in the uppermost limit position, the water collecting bottle 51 is inserted into the water storage chamber 58 and is in the rearmost limit position, and the spring 62 is in a compressed state;

when the solar water oxygenating device is used, the photovoltaic panel 34 absorbs solar energy to charge the power supply 12, when a water body needs to be oxygenated, the oxygenating motor 69 is started, the oxygenating motor 69 rotates to drive the main oxygenating bevel gear 76 to rotate, further the auxiliary oxygenating bevel gear 78 to rotate, further the centrifugal rod 75 is driven to rotate, further the oxygenating centrifugal fan 77 is driven to work, further air is blown downwards, the T-shaped rod 22 is driven by the air to be opened downwards, further the air moves downwards to enter the water through the oxygen shunt network 24, so that the water body is oxygenated, when the oxygenating motor 69 stops working, the oxygen shunt network 24 can prevent impurities in the water from entering the one-way filter head 20, the one-way filter head 20 is in a closed state, so that the water flow cannot enter the working chamber 14, and further the device is protected from being damaged; when the water quality at a preset position needs to be detected, the photovoltaic panel 34 charges the power supply 12, the power supply 12 starts the lifting motor 25, the lifting motor 25 rotates to drive the winch 33 to rotate, so as to drive the hose 40 to rotate, so that the lower part of the hose 40 moves downwards under the action of the gravity of the metal filter head 19, when the metal filter head 19 reaches a preset depth below the water surface, the water pumping motor 57 is started, so as to drive the water pumping wheel 73 to work, so as to gradually pump water into the water pumping rod 56 from the lower end of the hose 40, the air vent valve 74 starts to ventilate, so as to pump the water into the water collecting bottle 51, when the water collecting bottle 51 is filled with water, the operation of the water pumping motor 57 is stopped, the steering motor 32 is started, and the steering motor 32 rotates anticlockwise so as to drive the steering rod 46 to rotate anticlockwise, further driving the upper end of the driving rocker 47 to swing counterclockwise around the steering rod 46, further driving the auxiliary transmission rocker 55 to move forward, further driving the sleeve 53 to move forward, further driving the pumping cross bar 30 to move forward, further driving the water collecting bottle 51 to move forward, further driving the steering gear 45, the sliding rod 43, the circular slider 44 to move forward, wherein the circular slider 44 moves forward along the guide rail 31, when the upper end of the steering gear 45 is engaged with the fixed gear 41, the fixed gear 41 cannot rotate, further the steering gear 45 starts to rotate clockwise, further driving the pumping cross bar 30 to rotate clockwise, further driving the winch 33 to rotate clockwise around the pumping cross bar 30, when the steering gear 45 is driven to slide to the lower end of the guide rail 31, the steering gear 45 is disengaged from the fixed gear 41, at this time, the opening of the water collecting bottle 51 turns to be vertically downward, and the water collecting bottle 51 continues to move downward until the water collecting bottle 51 is inserted into the detection slot 48;

when the water collecting bottle 51 is inserted into the detection slot 48, the water collecting bottle 51 continues to move downwards until the detection plug 50 is inserted into the water storage cavity 58, water in the water collecting bottle 51 flows into the detection box 28 under the action of gravity, so that the water quality is detected, waste water after detection is finished can be discharged downwards through the discharge port 83, and the rubber valve 84 in the discharge port 83 can prevent the equipment from being damaged by water flow backflow; after the detection is completed, the steering motor 32 rotates clockwise to drive the driving rocker 47 to rotate clockwise, and further drive the auxiliary transmission rocker 55 to move upward, and further drive the steering gear 45 to move upward, when the steering gear 45 is meshed with the fixed gear 41, the fixed gear 41 is fixed, the steering gear 45 rotates counterclockwise, and further drive the pumping cross bar 30 to rotate counterclockwise, and further drive the water collecting bottle 51 to return to the horizontal position, the auxiliary transmission rocker 55 moves backward, and further drive the water collecting bottle 51 to move backward, the water collecting bottle 51 continues to move backward, the center of the one-way round valve 61 is moved forward by the pressure of the winch 33, and further the center of the one-way round valve 61 is separated, the winch 33 is inserted into, and meanwhile, the one-way round valve 61 pushes the elastic piece 60 forward, further compressing the spring 62, at this time, the center of the one-way round valve 61 is tightly attached to the winch 33, so as to prevent the water from overflowing, and at this time, the water collecting bottle 51 returns to the initial position;

when the box body 11 needs to move back and forth, the propulsion motor 64 is started, the propulsion motor 64 rotates to drive the main propulsion rod 67 to rotate, further drives the main propulsion wheel 66 to rotate, further drives the upper driving belt 16 to rotate, further drives the upper driving wheel 80 to rotate, further drives the upper driving rod 63 to rotate, further drives the upper driven wheel 79 to rotate, further drives the lower driving belt 18 to rotate, further drives the lower driving wheel 36 to rotate, further drives the driving rod 35 to rotate, further drives the propulsion fan blades 26 to rotate, further drives the motor bracket 37 to move, further drives the plastic plate 27 to move, further drives the box body 11 to move, when the box body 11 needs to turn, the rectification motor 70 is started, the rectification motor 70 rotates to drive the driving bevel gear 71 to rotate, further drives the driven bevel gear 72 to rotate, thereby driving the guide driving plate 39 to rotate and further driving the rectifying plate 38 to rotate, and controlling the box body 11 to turn under the reaction force of the water flow.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a solar energy water body oxygenating detection device, includes the box, its characterized in that: the photovoltaic power generation box is characterized in that five photovoltaic panels are fixedly connected to the front, rear, left and right upper surfaces outside the box body, a working cavity is formed in the box body, a power supply is arranged in the box body and fixedly connected with the box body, a guide rail with a rightward opening is arranged on the inner wall of the left side of the working cavity, a circular slider is arranged in the guide rail in a vertically sliding mode, a steering gear is fixedly connected to the right side of the circular slider and extends out of the guide rail, a pumping cross rod is fixedly connected to the right end of the steering gear, a sleeve is sleeved outside the pumping cross rod, a fixed rod is arranged on the upper side of the guide rail, the left end of the fixed rod is fixedly connected with the box body, a fixed gear is fixedly connected to the right side of the fixed rod, a steering motor is fixedly connected to the center of the inner wall of the left side of the working, the auxiliary transmission rocker is fixedly connected with the sleeve; the water pumping cross rod right rear end is rotatably provided with a suspension rod, the suspension rod rear side is provided with a motor cavity with a forward opening, a winch is rotatably arranged between the suspension rod and the motor cavity, a lifting motor is fixedly connected inside the right end of the motor cavity, the front end of the lifting motor is in power connection with the winch, a water storage slot with a forward opening is formed in the winch, a water collecting bottle with a backward opening is rotatably arranged in the water storage slot, the front end of the water collecting bottle is fixedly connected with the suspension rod rear end, a ventilation valve is fixedly connected above the front end of the water collecting bottle, a hose is wound outside the winch, the rear end of the hose is vertically downward, a metal filter head is fixedly connected below the rear end of the hose, a water pumping rod with two through ends is fixedly connected inside the front end of the winch, the upper end of the water pumping rod is fixedly connected with the front end of the hose and is mutually through, the front side of the lower end of the water pumping rod, a pumping centrifugal wheel is fixedly connected inside the upper end of the pumping rod, a pumping motor is fixedly connected inside the front end of the winch, the pumping motor is electrically connected with the power supply, and the front end of the pumping motor is in power connection with the pumping centrifugal wheel; the inner wall of the left lower part of the working cavity is fixedly connected with a detection box, and a detection slot with an upward opening is arranged in the left end of the detection box.

2. The solar energy water oxygenation detection apparatus of claim 1, wherein: the lower end of the box body is fixedly connected with a plastic plate, the lower end of the power supply is provided with a waterproof plate, the left and right ends of the waterproof plate are fixedly connected with the box body, the inner wall of the lower end of the working cavity is centrally provided with an oxygen charging pipe which is communicated up and down, the left side of the oxygen charging pipe is provided with an oxygen charging motor, the oxygen charging motor is electrically connected with the power supply, the oxygen charging motor is fixedly connected with the inner wall of the lower side of the working cavity, the oxygen charging pipe is internally provided with an air charging hole which is communicated up and down, the middle part of the air charging hole is provided with a one-way filter head, the lower end of the oxygen charging pipe is fixedly connected with a T-shaped rod, the lower end of the T-shaped rod is fixedly connected with a water diversion disc, an oxygen diversion net is fixedly connected between the upper end of the water diversion disc and the oxygen charging pipe, the left end of the oxygenation motor is in power connection with a main oxygenation bevel gear, and the auxiliary oxygenation bevel gear is meshed with the main oxygenation bevel gear.

3. A solar energy water body oxygenation detection apparatus as claimed in claim 2, wherein: a propulsion motor is fixedly connected to the inner wall of the lower side of the front end in the working cavity, a main propulsion rod is arranged at the front end of the propulsion motor in a power connection mode, a main propulsion wheel is fixedly connected to the outside of the main propulsion rod, two upper transmission rods are arranged on the left side and the right side of the main propulsion wheel and are bilaterally symmetrical with the main propulsion wheel as a symmetry center, a fixed plate is arranged at the rear end of each upper transmission rod, the front end of each fixed plate is rotatably connected with the corresponding upper transmission rod, the lower end of each fixed plate is fixedly connected with the box body, an upper driven wheel is fixedly connected to the front end of each upper transmission rod, an upper driving wheel is fixedly connected to the rear end of each upper transmission rod, and an upper driving belt is rotatably arranged between each upper; the front end of the box body is provided with two vertical through holes which are vertically communicated, the two vertical through holes are bilaterally symmetrical by taking the main propulsion wheel as a symmetrical center, the lower surface of the front end of the plastic plate is fixedly connected with two motor supports, the two motor supports are bilaterally symmetrical by taking the main propulsion wheel as a symmetrical center, the front end of each motor support is rotatably provided with a transmission rod, the transmission rod is fixedly connected with a lower transmission wheel, a lower transmission belt is rotatably arranged between the lower transmission wheel and the upper driven wheel, and the front end of the transmission rod is fixedly connected with propulsion fan blades.

4. The solar energy water oxygenation detection apparatus of claim 1, wherein: the box rear end upper surface is equipped with the rectifier motor, the rectifier motor with power electric connection, rectifier motor rear end power is connected with driven bevel gear, driven bevel gear below meshing is equipped with driven bevel gear, the driven bevel gear lower extreme links firmly and is equipped with the guide driving plate, the guide driving plate front end links firmly and is equipped with the rectifier plate.

5. The solar energy water oxygenation detection apparatus of claim 4, wherein: the water collecting bottle is internally provided with a water storage cavity with a backward opening, the inner wall of the rear side of the water storage cavity is provided with a water filling port which is communicated from front to back, the inner wall of the middle part of the water filling port is provided with two elastic pieces which slide from front to back, the two elastic pieces use the upper driving wheel center as a symmetrical center, the front end of each elastic piece is fixedly connected with a spring, the front end of each spring is fixedly connected with the water collecting bottle, and the inner wall of the rear end of the water filling port is rotatably provided with a.

6. The solar energy water oxygenation detection apparatus of claim 4, wherein: the left end and the right end of the plastic plate are fixedly connected with two air bags, and the two air bags take the main propelling wheel as a symmetrical center; the right side of the working cavity is provided with a ventilation hole which is communicated left and right; the detection slot is internally provided with a detection hole with an upward opening, the detection hole is fixedly connected with a detection plug, the left lower end of the box body is provided with a discharge port which is communicated from top to bottom, the right end of the discharge port is communicated with the detection box, and a rubber valve is rotationally arranged in the discharge port.