CN108414024A - A kind of underwater monitoring device used for aquiculture - Google Patents

Abstract

The invention discloses a kind of underwater monitoring devices used for aquiculture, including solar panels, control cabinet, buoyancy plate, motor, dissolved oxygen sensor, the bottom of the solar panels is provided with supporting rack, the control cabinet is installed in the middle part of support frame as described above, visual window is installed in front of the control cabinet, the control cabinet is internally provided with wireless communications chips, controller is installed above the wireless communications chips, it is provided with GPS chip below the wireless communications chips, the side of the wireless communications chips is provided with display screen, it is provided with button below the display screen.Advantageous effect is：The present invention passes through into the detection of trip temperature and oxygen content, improving raising quality of the fisherman to the shoal of fish under water, being observed the underwater shoal of fish by camera, the shooting area of camera is improved by motor, improve the practicability of equipment.

Description

A kind of underwater monitoring device used for aquiculture

Technical field

The present invention relates to underwater monitoring equipment fields, more particularly to a kind of underwater monitoring device used for aquiculture.

Background technology

Current underwater monitoring device is more and more universal, is especially applied in the fish productions such as aquaculture, can The upgrowth situation for understanding underwater economic animal in time, understand the health status of underwater economic animal, situation of looking for food, disease conditions and Underwater habitat etc. provides many facilities to numerous aquaculturists and maritime researcher.Currently, to the observation master of the shoal of fish The equipment to be relied on is underwater camera, and still, underwater camera can not be monitored water temperature and underwater oxygen content, can only By camera to carrying out shooting monitoring under water, in addition existing camera cannot be rotated without rotating device, camera shooting The shooting area of head has limitation.

Invention content

The purpose of the present invention is that solve the above-mentioned problems and provides a kind of underwater monitoring device used for aquiculture.

The present invention is achieved through the following technical solutions above-mentioned purpose：

A kind of underwater monitoring device used for aquiculture, including solar panels, control cabinet, buoyancy plate, motor, dissolved oxygen sensing The bottom of device, the solar panels is provided with supporting rack, and the control cabinet, the control cabinet are equipped in the middle part of support frame as described above Front visual window is installed, the control cabinet is internally provided with wireless communications chips, the top of the wireless communications chips Controller is installed, GPS chip is provided with below the wireless communications chips, the side of the wireless communications chips is provided with Display screen is provided with button below the display screen, battery is provided with below the button, the bottom of support frame as described above is set It is equipped with the buoyancy plate, the side of support frame as described above is provided with light-controlled lamp, and the bottom of the buoyancy plate is provided with connecting rod, the company The bottom of bar is equipped with shell, and the outside of the shell is provided with temperature sensor, and the side of the temperature sensor is provided with The inside of the dissolved oxygen sensor, the shell is equipped with the motor, and the bottom of the motor is provided with rotary head, described Camera is installed, the side of the camera is provided with headlamp in front of rotary head.

In above structure, the buoyancy plate is placed on to the top of the water surface, the solar panels convert light energy into electric energy It is stored in the battery, running parameter is arranged by the button, the controller control device work passes through the temperature Sensor can detect water temperature, and fisherman can be made to judge feeding amount according to water temperature, can be detected by the dissolved oxygen sensor Oxygen content in water, the headlamp provide light for the shooting of the camera, can make institute by the rotation of the motor It states rotary head to be rotated, to make the camera be rotated, increases the shooting area of the camera, it is described wireless The picture of shooting and detection information can be sent to monitor terminal by communication chip, can be to equipment by monitor terminal fisherman Instruction is sent, the control of equipment is realized to underwater remote monitoring by the controller, it can be right by the GPS chip Equipment is positioned, and when night or dark, the light-controlled lamp brightens, and people can just be immediately seen from a distant place and set Standby position.

In order to further increase the shooting area of camera, connected with bolt between the solar panels and support frame as described above It connects, is connected between support frame as described above and the control cabinet, the visual window is embedded in the control cabinet.

In order to further increase the shooting area of camera, it is connected between support frame as described above and the buoyancy plate, It is connected with gluing between the light-controlled lamp and the buoyancy plate, is connected by the connecting rod between the shell and the control cabinet It connects.

In order to further increase the shooting area of camera, bolt is used between the wireless communications chips and the control cabinet Connection, is connected between the display screen and the control cabinet with gluing, the button is embedded in the control cabinet.

In order to further increase the shooting area of camera, connected with bolt between the temperature sensor and the shell It connects, is connected between the dissolved oxygen sensor and the shell.

In order to further increase the shooting area of camera, it is connected between the motor and the connecting rod, it is described It is connected by bearing between motor and the shell, is connected with gluing between the rotary head and the motor.

In order to further increase the shooting area of camera, connected with gluing between the camera and the rotary head, It is connected with gluing between the headlamp and the rotary head.

Advantageous effect is：The present invention passes through into the detection of trip temperature and oxygen content, improving fisherman to the shoal of fish under water Raising quality, the underwater shoal of fish can be observed by camera, the shooting area of camera is improved by motor, is carried The high practicability of equipment.

Description of the drawings

Fig. 1 is the internal structure schematic diagram of shell in a kind of underwater monitoring device used for aquiculture of the present invention；

Fig. 2 is a kind of front view of underwater monitoring device used for aquiculture of the present invention；

Fig. 3 is the internal structure schematic diagram of control cabinet in a kind of underwater monitoring device used for aquiculture of the present invention.

The reference numerals are as follows：

1, solar panels；2, supporting rack；3, light-controlled lamp；4, buoyancy plate；5, visual window；6, control cabinet；7, connecting rod；8, outer Shell；9, temperature sensor；10, rotary head；11, camera；12, headlamp；13, motor；14, dissolved oxygen sensor；15, wireless Communication chip；16, GPS chip；17, controller；18, display screen；19, button；20, battery.

Specific implementation mode

In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as pair The limitation of the present invention.In addition, term " first ", " second " etc. are used for description purposes only, it is not understood to indicate or imply phase To importance or implicitly indicate the quantity of indicated technical characteristic.The feature for defining " first ", " second " etc. as a result, can To express or implicitly include one or more this feature.In the description of the present invention, unless otherwise indicated, " multiple " It is meant that two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also be electrical connection to be mechanical connection；It can be directly connected, can also indirectly connected through an intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood by concrete condition Concrete meaning in the present invention.

The invention will be further described below in conjunction with the accompanying drawings：

As shown in Figure 1-Figure 3, a kind of underwater monitoring device used for aquiculture, including solar panels 1, control cabinet 6, buoyancy plate 4, the bottom of motor 13, dissolved oxygen sensor 14, solar panels 1 is provided with supporting rack 2, and supporting rack 2 is to fixed solar panels 1, the middle part of supporting rack 2 is equipped with control cabinet 6, and for control cabinet 6 to protect inner components, the front of control cabinet 6 is equipped with can Form 5, for visual window 5 to observe the running parameter on display screen 18, control cabinet 6 is internally provided with wireless communications chips 15, For wireless communications chips 15 to the transmission of data, the tops of wireless communications chips 15 is equipped with controller 17, controller 17 to Control device works, and the lower section of wireless communications chips 15 is provided with GPS chip 16, and GPS chip 16 is to position, wireless telecommunications core The side of piece 15 is provided with display screen 18, display screen 18 to show that running parameter, the lower section of display screen 18 are provided with button 19, For button 19 running parameter is arranged, the lower section of button 19 is provided with battery 20, battery 20 to store electric energy, supporting rack 2 Bottom is provided with buoyancy plate 4, and for buoyancy plate 4 to make supporting rack 2 be placed on the water surface, the side of supporting rack 2 is provided with light-controlled lamp 3, Light-controlled lamp 3 is to send out light when dark, the bottom of buoyancy plate 4 is provided with connecting rod 7, and connecting rod 7 is to fixing shell 8, even The bottom of bar 7 is equipped with shell 8, and shell 8 is to protect inner components, the outside of shell 8 to be provided with temperature sensor 9, temperature Degree sensor 9 is to detect temperature, and the side of temperature sensor 9 is provided with dissolved oxygen sensor 14, and dissolved oxygen sensor 14 is used To detect the oxygen content in water, the inside of shell 8 is equipped with motor 13, motor 13 to make rotary head 10 rotate, motor 13 Bottom is provided with rotary head 10, and rotary head 10 is equipped with camera 11 to fixing camera 11, the front of rotary head 10, camera shooting First 11 to shoot underwater picture, and the side of camera 11 is provided with headlamp 12, headlamp 12 to camera 11 illumination.

In above structure, buoyancy plate 4 is placed on to the top of the water surface, solar panels 1 convert light energy into power storage and exist In battery 20, running parameter is arranged by button 19, the work of 17 control device of controller can be detected by temperature sensor 9 Water temperature can make fisherman judge feeding amount according to water temperature, and the oxygen content in water can be detected by dissolved oxygen sensor 14, illumination Lamp 12 provides light for the shooting of camera 11, rotary head 10 can be made to be rotated by the rotation of motor 13, to make to take the photograph As first 11 are rotated, the shooting area of camera 11 is increased, wireless communications chips 15 can be by the picture of shooting and inspection Measurement information is sent to monitor terminal, can be sent and be instructed to equipment by monitor terminal fisherman, by controller 17 to equipment Control is realized to underwater remote monitoring, can be positioned to equipment by GPS chip 16, in night or dark When, light-controlled lamp 3 brightens, and people can just be immediately seen the position of equipment from a distant place.

In order to further increase the shooting area of camera, it is connected with, supports between solar panels 1 and supporting rack 2 It is connected between frame 2 and control cabinet 6, visual window 5 is embedded in control cabinet 6, and bolt is used between supporting rack 2 and buoyancy plate 4 Connection, is connected with gluing between light-controlled lamp 3 and buoyancy plate 4, is connected by connecting rod 7 between shell 8 and control cabinet 6, wireless telecommunications It is connected between chip 15 and control cabinet 6, is connected with gluing between display screen 18 and control cabinet 6, button 19 is embedded in control It in case 6 processed, is connected between temperature sensor 9 and shell 8, is connected between dissolved oxygen sensor 14 and shell 8, Be connected between motor 13 and connecting rod 7, connected by bearing between motor 13 and shell 8, rotary head 10 and motor 13 it Between connected with gluing, connected with gluing between camera 11 and rotary head 10, connected with gluing between headlamp 12 and rotary head 10 It connects.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the above embodiments and description only describe the originals of the present invention Reason, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes and improvements It all fall within the protetion scope of the claimed invention.

Claims (7)

1. a kind of underwater monitoring device used for aquiculture, it is characterised in that：Including solar panels, control cabinet, buoyancy plate, motor, The bottom of dissolved oxygen sensor, the solar panels is provided with supporting rack, and the control cabinet is equipped in the middle part of support frame as described above, Visual window is installed, the control cabinet is internally provided with wireless communications chips, the wireless telecommunications in front of the control cabinet Controller is installed above chip, GPS chip is provided with below the wireless communications chips, the wireless communications chips Side is provided with display screen, and button is provided with below the display screen, and battery, the support are provided with below the button The bottom of frame is provided with the buoyancy plate, and the side of support frame as described above is provided with light-controlled lamp, and the bottom of the buoyancy plate is provided with The bottom of connecting rod, the connecting rod is equipped with shell, and the outside of the shell is provided with temperature sensor, the temperature sensor Side is provided with the dissolved oxygen sensor, and the inside of the shell is equipped with the motor, and the bottom of the motor is provided with Rotary head is equipped with camera in front of the rotary head, and the side of the camera is provided with headlamp.

2. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：The solar panels with It is connected between support frame as described above, is connected between support frame as described above and the control cabinet, the visual window is inlayed In the control cabinet.

3. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：Support frame as described above and institute It states and is connected between buoyancy plate, connected with gluing between the light-controlled lamp and the buoyancy plate, the shell and the control It is connected by the connecting rod between case processed.

4. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：The wireless telecommunications core It is connected between piece and the control cabinet, is connected with gluing between the display screen and the control cabinet, the button edge In the control cabinet.

5. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：The temperature sensor It is connected between the shell, is connected between the dissolved oxygen sensor and the shell.

6. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：The motor with it is described Be connected between connecting rod, connected by bearing between the motor and the shell, the rotary head and the motor it Between connected with gluing.

7. one kind underwater monitoring device used for aquiculture according to claim 1, it is characterised in that：The camera and institute It states and is connected with gluing between rotary head, connected with gluing between the headlamp and the rotary head.