CN115258053B

CN115258053B - Photovoltaic water quality detection buoy station

Info

Publication number: CN115258053B
Application number: CN202210950974.0A
Authority: CN
Inventors: 邱国英; 张翼飞; 赵维维; 张哲�
Original assignee: Wuxi Jiasheng Funeng Technology Co ltd
Current assignee: Wuxi Jiasheng Funeng Technology Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2023-09-22
Anticipated expiration: 2042-08-09
Also published as: CN115258053A

Abstract

The invention discloses a photovoltaic water quality detection buoy station, a photovoltaic assembly is rotationally connected to a floating plate, a control box is fixedly connected to the floating plate, a storage battery for storing electric energy is installed in the control box, a detection pipeline is fixedly connected to the bottom of the floating plate, a water quality detection electrode is fixedly installed in the detection pipeline, a water diversion part is arranged on the periphery of the detection pipeline, two limit posts are arranged in a sliding penetrating mode of the floating plate, a pressing plate is fixedly connected to the bottom ends of the two limit posts, a containing hole is formed in the limit posts, an auxiliary fixing part is arranged in the containing hole in a sliding mode, a supporting plate is fixedly connected to the top of the limit post, and a warning block stuck with a reflective patch is fixedly installed on the supporting plate.

Description

Photovoltaic water quality detection buoy station

Technical Field

The invention relates to the field of water quality detection, in particular to a photovoltaic water quality detection buoy station.

Background

In order to know the real-time condition of water quality in time, a buoy station is generally adopted for detection, two types of buoy stations are generally adopted in the prior art, one type of buoy station is fixed on the shore, the detection limitation is large, only water quality on the shore can be detected, the site selection difficulty is large, construction is complex, the other type of buoy station which floats on water is adopted, in the prior art, a simple counterweight is generally only added, so that the buoy station is easy to turn over under the impact of external force or water, part of the prior art adopts a fixed mode to fix the buoy station, the buoy station cannot be adjusted according to water level lifting, in the prior art, an external power supply is generally adopted, measures such as an insulating adhesive tape are adopted for waterproofing, but the measures are easy to attenuate along with time, so that the waterproof effect is poor, and the water quality detection buoy station which does not need an external power supply, is stable to install and can be adjusted along with the water level is needed urgently.

Disclosure of Invention

The invention aims to provide a photovoltaic water quality detection buoy station so as to solve the problems in the prior art.

In order to achieve the above object, the present invention provides the following solutions: the invention provides a photovoltaic water quality detection buoy station which comprises a floating plate, wherein a photovoltaic assembly is rotationally connected to the floating plate, a control box is fixedly connected to the floating plate, a storage battery for storing electric energy is installed in the control box, a detection pipeline is fixedly connected to the bottom of the floating plate, a water quality detection electrode is fixedly installed in the detection pipeline, a water diversion part is arranged on the periphery of the detection pipeline, two limit posts are arranged in the floating plate in a sliding penetrating mode, pressing plates are fixedly connected to the bottom ends of the two limit posts, a containing hole is formed in the limit posts, an auxiliary fixing part is arranged in the containing hole in a sliding mode, a supporting plate is fixedly connected to the top of the limit post, and a warning block adhered with a light reflection patch is fixedly installed on the supporting plate.

Preferably, the photovoltaic module comprises a support column rotationally connected with the floating plate, a plurality of connecting rods are fixedly connected to the circumference of the support column, a photovoltaic plate is rotationally connected to one end, far away from the support column, of each connecting rod, a plurality of telescopic electric cylinders are correspondingly rotationally connected to the photovoltaic plate in the circumference of the support column, one end, far away from the support column, of each telescopic electric cylinder is rotationally connected with the photovoltaic plate, and each telescopic electric cylinder is located above each connecting rod; the support column circumference fixedly connected with adjusting gear, adjusting gear is located control box, fixedly connected with adjustment motor in the control box, fixedly connected with control gear on the adjustment motor output shaft, control gear with adjusting gear meshes mutually.

Preferably, the diversion portion comprises a plurality of rotating rods located on the periphery of the detection pipeline, each rotating rod is fixedly connected with a plurality of rotating blades on the periphery, the top ends of the rotating rods are respectively fixedly connected with an output shaft of a rotating motor, and the rotating motor is located in the floating plate.

Preferably, the control cavity has been seted up in the floating plate, control cavity rotation is connected with the carousel, rotating electrical machines all with carousel bottom fixed connection, control cavity roof fixedly connected with spliced pole, the spliced pole run through the carousel just with the carousel rotates to be connected, spliced pole bottom fixed connection has the fixed column, the fixed column with control cavity diapire fixed connection, the tooth's socket has been seted up to the fixed column circumference, fixedly connected with control electrical machines on the carousel, control electrical machines output shaft fixedly connected with rotation gear, rotation gear with the tooth's socket meshes mutually, control cavity bottom has been seted up and has been supplied the annular spout of dwang motion, floating plate bottom rotation is connected with the sealing block, the detection pipeline runs through the sealing block just with the sealing block rotates to be connected, a plurality of the dwang runs through the sealing block just with the sealing block rotates to be connected, the sealing block is located annular spout below.

Preferably, the auxiliary fixing part comprises a sliding block which is positioned in the accommodating hole and is in sliding connection with the accommodating hole, the limiting column penetrates through the pressing plate, a threaded rod is rotationally connected to the top end of the sliding block, the threaded rod penetrates through the supporting plate and is in threaded connection with the supporting plate, the bottom of the sliding block is fixedly connected with a first inserting column, an accommodating groove is formed in the bottom side of the sliding block, the two inserting columns are rotationally connected with the top ends of the two second inserting columns, the two inserting columns are correspondingly arranged, the bottom ends of the second inserting columns are obliquely arranged in the direction away from the first inserting columns, a limiting cylinder is fixedly connected in the accommodating groove, the limiting cylinder is positioned between the two second inserting columns and is in butt joint with the second inserting columns, and a tension spring is arranged in the limiting cylinder and is respectively fixedly connected with the two second inserting columns at two ends of the tension spring.

Preferably, a plurality of water permeable holes are formed in the periphery of the detection pipeline.

Preferably, the floating plate and the sealing block are foam plates, and the pressing plate is a stainless steel plate.

Preferably, the bottom end of the detection pipeline is fixedly connected with a counterweight ball.

The invention discloses the following technical effects: according to the solar photovoltaic power generation system, the photovoltaic module is used for converting solar energy into electric energy and storing the electric energy by using the storage battery, an external power supply is not needed, the problems of water insulation, insulation and the like of a conventional external electric wire are avoided, the photovoltaic module can shade the control box, the control box is prevented from being exposed to the sun, and internal elements are influenced; the water diversion part can enable water to flow, enable surrounding water to gather at the detection pipeline, facilitate water quality measurement, utilize the pressing plate and the auxiliary fixing part to fix, enable the buoy station to be stable, utilize the limiting post to limit the floating plate, enable the floating plate to be only capable of being adjusted up and down according to water level change, not to deviate, and not to turn over due to external force.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a buoy station according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1A;

wherein: 1. a floating plate; 2. a control box; 3. a storage battery; 4. detecting a pipeline; 5. a limit column; 6. a pressing plate; 7. a receiving hole; 8. a supporting plate; 9. a warning block; 10. a support column; 11. a connecting rod; 12. a photovoltaic panel; 13. a telescopic electric cylinder; 14. an adjusting gear; 15. adjusting a motor; 16. a control gear; 17. a rotating lever; 18. rotating the blade; 19. a rotating motor; 20. a control chamber; 21. a turntable; 22. a connecting column; 23. fixing the column; 24. controlling a motor; 25. rotating the gear; 26. a sealing block; 27. a slide block; 28. a threaded rod; 29. a first plug-in post; 30. a receiving groove; 31. the second plug-in column; 32. a limiting cylinder; 33. a tension spring; 34. a water permeable hole; 35. and (5) a counterweight ball.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

Referring to fig. 1-2, the invention provides a photovoltaic water quality detection buoy station, which comprises a floating plate 1, wherein a photovoltaic module is rotationally connected to the floating plate 1, a control box 2 is fixedly connected to the floating plate 1, a storage battery 3 for storing electric energy is installed in the control box 2, a detection pipeline 4 is fixedly connected to the bottom of the floating plate 1, a water quality detection electrode is fixedly installed in the detection pipeline 4, a water diversion part is arranged on the periphery of the detection pipeline 4, two limit posts 5 are arranged in a sliding penetrating manner of the floating plate 1, pressing plates 6 are fixedly connected to the bottom ends of the two limit posts 5, accommodating holes 7 are formed in the limit posts 5, an auxiliary fixing part is arranged in the accommodating holes 7 in a sliding manner, a supporting plate 8 is fixedly connected to the top of the limit post 5, and a warning block 9 attached with a reflective paste is fixedly installed on the supporting plate 8. The photovoltaic module converts solar energy into electric energy to be stored by using the storage battery, an external power supply is not needed, the problems of water insulation and the like of a conventional external electric wire are avoided, the photovoltaic module can shade the sun for the control box 2, and the control box 2 is prevented from insolating, and internal elements are influenced; the water diversion part can enable water to flow, enable surrounding water to gather at the detection pipeline 4, facilitate water quality measurement, enable the buoy station to be stable by fixing the pressing plate 6 and the auxiliary fixing part, limit the floating plate 1 by the limiting column 5, enable the floating plate 1 to be adjusted up and down only according to water level change, avoid deviation and side turning due to external force; the warning block 9 attached with the reflective paste can remind the ship to come and go, so that the ship is prevented from being mistakenly bumped at night, and damage occurs.

According to a further optimization scheme, the photovoltaic module comprises a support column 10 rotationally connected with the floating plate 1, a plurality of connecting rods 11 are fixedly connected to the circumference of the support column 10, a photovoltaic plate 12 is rotationally connected to one end, far away from the support column 10, of each connecting rod 11, a plurality of telescopic electric cylinders 13 are rotationally connected to the corresponding rotation of the support column 10 and the photovoltaic plate 12, one end, far away from the support column 10, of each telescopic electric cylinder 13 is rotationally connected with the photovoltaic plate 12, and each telescopic electric cylinder 13 is located above each connecting rod 11; the support column 10 circumference fixedly connected with adjusting gear 14, adjusting gear 14 is located control box 2, and control box 2 internal fixation is connected with adjusting motor 15, is connected with control gear 16 on the adjusting motor 15 output shaft fixedly, and control gear 16 meshes with adjusting gear 14. The control gear 16 is driven to rotate by the adjusting motor 15, and then the adjusting gear 14 is driven to rotate, so that the supporting column 10 carries all the photovoltaic panels 12 to rotate, the direction is adjusted, the angle of the photovoltaic panels 12 is controlled by controlling the telescopic electric cylinders 13, and the photovoltaic panels 12 are positioned in the direction and the angle with the highest solar energy utilization rate.

Further optimizing scheme, diversion portion is including being located a plurality of dwang 17 of detecting pipeline 4 week side, and every dwang 17 week side fixedly connected with a plurality of rotor blade 18, and dwang 17 top is fixedly connected with the output shaft of rotating electric machine 19 respectively, and rotating electric machine 19 is located floating board 1. The rotating motor 19 drives the rotating rod 17 to rotate, so that the rotating blades 18 are driven to rotate, the water phase rotating rod 17 gathers, water flows to the vicinity of the detection pipeline 4, and water quality is convenient to measure.

According to the further optimization scheme, a control cavity 20 is formed in the floating plate 1, a rotary table 21 is rotationally connected to the control cavity 20, a rotating motor 19 is fixedly connected with the bottom of the rotary table 21, a connecting column 22 is fixedly connected to the top wall of the control cavity 20, the connecting column 22 penetrates through the rotary table 21 and is rotationally connected with the rotary table 21, a fixing column 23 is fixedly connected to the bottom of the connecting column 22, the fixing column 23 is fixedly connected with the bottom wall of the control cavity 20, tooth grooves are formed in the circumference of the fixing column 23, a control motor 24 is fixedly connected to the rotary table 21, a rotating gear 25 is fixedly connected to an output shaft of the control motor 24, the rotating gear 25 is meshed with the tooth grooves, an annular chute for the rotating rod 17 to move is formed in the bottom of the control cavity 20, a sealing block 26 is rotationally connected to the bottom of the floating plate 1, the detection pipeline 4 penetrates through the sealing block 26 and is rotationally connected with the sealing block 26, and a plurality of rotating rods 17 penetrate through the sealing block 26 and are rotationally connected with the sealing block 26, and the sealing block 26 is located below the annular chute. The sealing block 26 is utilized to seal the annular chute, water is prevented from entering the control cavity 20 from the annular chute, the control motor 24 drives the rotating gear 25 to rotate, meanwhile, the rotating gear 25 moves along the circumferential direction of the fixed column 23, the turntable 21 is driven to rotate, the rotating motors 29 rotate along with the turntable 21, and the water diversion part is matched to enable surrounding water to flow and concentrate near the detection pipeline 4, so that water quality measurement is facilitated.

Further optimizing scheme, auxiliary fixation portion is including being located accommodation hole 7 and with accommodation hole 7 sliding connection's slider 27, spacing post 5 runs through clamp plate 6 setting, slider 27 top rotation is connected with threaded rod 28, threaded rod 28 runs through layer board 8 and with layer board 8 threaded connection, slider 27 bottom fixedly connected with first grafting post 29, accommodation groove 30 has been seted up to slider 27 bottom side, the accommodation groove 30 internal rotation is connected with the top of two second grafting posts 31, two second grafting posts 31 correspond the setting, two second grafting posts 31 bottom all incline to the direction of keeping away from first grafting post 29 and set up, fixedly connected with spacing section of thick bamboo 32 in the accommodation groove 30, spacing section of thick bamboo 32 is located between two second grafting posts 31 and with second grafting post 31 butt, be provided with tension spring 33 in the spacing section of thick bamboo 32, tension spring 33 both ends respectively with two second grafting posts 31 fixed connection. Through rotating threaded rod 28, threaded rod 28 drives slider 27 downward movement to make first spliced pole 29 and second spliced pole 31 insert in the mud of submarine, increase its stability, when second spliced pole 31 inserts mud, because the angle of inserting of second spliced pole 31, two second spliced poles 31 can constantly open in the downward movement process, thereby further strengthen the stability of connection.

Further optimizing scheme, a plurality of water permeable holes 34 are formed in the periphery of the detection pipeline 4. Water is convenient to enter the detection pipeline 4 from the water permeable holes 34, and water quality measurement is carried out by using the detection electrode.

In a further optimized scheme, the floating plate 1 and the sealing block 26 are foam plates, and the pressing plate 6 is a stainless steel plate. The pressing plate 6 is guaranteed to sink into the water bottom and is not easy to rust, and the floating plate 1 and the sealing block 26 are foam plates and can be guaranteed to float on the water surface.

Further optimizing scheme, detection pipeline 4 bottom fixedly connected with counter weight ball 35. The stability of the detection pipe 4 is increased and the occurrence of shaking is prevented.

Further, the storage battery 3 is electrically connected with the adjusting motor 15, the rotating motor 19, the control motor 24, the detecting electrode, the telescopic electric cylinder 13 and the photovoltaic panel 12 respectively. The electric energy converted by the photovoltaic panel 12 is stored by the storage battery 3, and then the electric energy is supplied to the respective electric components. The defect that the conventional external power supply needs to insulate and insulate the electric wire is avoided.

Further optimizing scheme is provided with the wiFi module in the floating plate 1, and battery 3 and wiFi module electric connection. The detected information can be sent to the receiving terminal in real time, so that the staff can know the information in time.

The working process of the invention comprises the following steps: when the device is used, the first plug-in column 29 and the second plug-in column 31 are retracted into the accommodating hole 7, then the pressing plate 6 is placed in water, the pressing plate 6 moves downwards under the action of gravity and contacts with the water, the floating plate 1 floats on the water surface, then the threaded rod 28 is rotated, the threaded rod 28 drives the sliding block 27 to move downwards, the first plug-in column 29 and the second plug-in column 31 are driven to move downwards, the first plug-in column 29 is directly inserted into mud on the water bottom, the second plug-in column 31 is inserted into the mud and then is outwards opened in the downward movement process, the sliding block 27 is fixed with the water bottom, the installation is completed, the rotation of the supporting column 10 can be driven by the adjusting motor 15, the direction of the photovoltaic plate 12 can be adjusted by adjusting the telescopic electric cylinder 13, the solar energy absorption efficiency of the photovoltaic plate 12 is guaranteed, during detection, the control motor 24 is started, the control motor 24 drives the rotating gear 25 to rotate, the rotating disk 21 is driven to rotate, the rotating motor 19 is started, the rotating blade 18 is driven to rotate, water flows up, and the water around the water is gathered to the water quality of the water quality 34 is convenient to measure.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The above embodiments are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solutions of the present invention should fall within the protection scope defined by the claims of the present invention without departing from the design spirit of the present invention.

Claims

1. A photovoltaic water quality testing buoy station, its characterized in that: the solar energy power generation device comprises a floating plate (1), wherein a photovoltaic module is rotationally connected to the floating plate (1), a control box (2) is fixedly connected to the floating plate (1), a storage battery (3) for storing electric energy is installed in the control box (2), a detection pipeline (4) is fixedly connected to the bottom of the floating plate (1), a water quality detection electrode is fixedly installed in the detection pipeline (4), a water diversion part is arranged on the periphery of the detection pipeline (4), two limit posts (5) are arranged on the floating plate (1) in a sliding penetrating mode, two pressure plates (6) are fixedly connected to the bottom ends of the limit posts (5), an accommodating hole (7) is formed in the limit posts (5), an auxiliary fixing part is arranged in the accommodating hole (7), a supporting plate (8) is fixedly connected to the top of the limit posts (5), and a warning block (9) with a reflective patch is fixedly installed on the supporting plate (8);

the water diversion part comprises a plurality of rotating rods (17) positioned on the periphery of the detection pipeline (4), a plurality of rotating blades (18) are fixedly connected to the periphery of each rotating rod (17), the top ends of the rotating rods (17) are respectively and fixedly connected with an output shaft of a rotating motor (19), and the rotating motors (19) are positioned in the floating plate (1);

control chamber (20) have been seted up in floating plate (1), control chamber (20) internal rotation is connected with carousel (21), rotation motor (19) all with carousel (21) bottom fixed connection, control chamber (20) roof fixedly connected with spliced pole (22), spliced pole (22) run through carousel (21) and with carousel (21) rotation is connected, spliced pole (22) bottom fixed connection fixed column (23), fixed column (23) with control chamber (20) diapire fixed connection, tooth's socket has been seted up to fixed column (23) circumference, fixedly connected with control motor (24) on carousel (21), control motor (24) output shaft fixedly connected with rotation gear (25), rotation gear (25) with tooth's socket meshes, annular spout that supplies dwang (17) moved is seted up to control chamber (20) bottom, floating plate (1) bottom rotation is connected with sealing block (26), detect pipeline (4) run through sealing block (26) and sealing block (26) are located sealing block (26) and sealing block (17) are located down.

2. A photovoltaic water quality testing buoy station according to claim 1, characterized in that: the photovoltaic module comprises a support column (10) rotationally connected with the floating plate (1), a plurality of connecting rods (11) are fixedly connected to the support column (10) in the circumferential direction, a photovoltaic plate (12) is rotationally connected to one end, far away from the support column (10), of each connecting rod (11), a plurality of telescopic electric cylinders (13) are rotationally connected to the support column (10) in the circumferential direction corresponding to the photovoltaic plate (12), one ends, far away from the support column (10), of the telescopic electric cylinders (13) are rotationally connected with the photovoltaic plate (12), and the telescopic electric cylinders (13) are located above the connecting rods (11); the support column (10) circumference fixedly connected with adjusting gear (14), adjusting gear (14) are located in control box (2), fixedly connected with adjusting motor (15) in control box (2), fixedly connected with control gear (16) on adjusting motor (15) output shaft, control gear (16) with adjusting gear (14) mesh mutually.

3. A photovoltaic water quality testing buoy station according to claim 1, characterized in that: the auxiliary fixing part comprises a sliding block (27) which is positioned in the accommodating hole (7) and is in sliding connection with the accommodating hole (7), the limiting columns (5) are penetrated through the pressing plate (6), a threaded rod (28) is rotationally connected to the top end of the sliding block (27), the threaded rod (28) penetrates through the supporting plate (8) and is in threaded connection with the supporting plate (8), a first inserting column (29) is fixedly connected to the bottom of the sliding block (27), accommodating grooves (30) are formed in the bottom side of the sliding block (27), the top ends of two second inserting columns (31) are connected in the accommodating grooves (30) in an rotating mode, the two second inserting columns (31) are correspondingly arranged, the bottom ends of the two second inserting columns (31) are obliquely arranged in a direction away from the first inserting columns (29), limiting cylinders (32) are fixedly connected in the accommodating grooves (30), the two second inserting columns (31) are positioned between the two second inserting columns (31) and are in contact with the two second inserting columns (33), and the two pulling force connecting columns (33) are fixedly connected with the two pulling force connecting columns (33).

4. A photovoltaic water quality testing buoy station according to claim 1, characterized in that: a plurality of water permeable holes (34) are formed in the periphery of the detection pipeline (4).

5. A photovoltaic water quality testing buoy station according to claim 1, characterized in that: the floating plate (1) and the sealing block (26) are foam plates, and the pressing plate (6) is a stainless steel plate.

6. A photovoltaic water quality testing buoy station according to claim 1, characterized in that: and the bottom end of the detection pipeline (4) is fixedly connected with a counterweight ball (35).