CN214316587U - Intelligent kelp breeding device - Google Patents

Abstract

The utility model provides an intelligent kelp breeding device, include: the system comprises a culture bin, a water circulation device, a temperature adjusting device, a culture seedling clamping device and a plurality of sensing devices; the temperature adjusting device, the breeding seedling clamping device, the plurality of sensing devices and the system application device are arranged in the breeding bin; the water circulation device is connected with the culture bin; the sensing devices are used for sensing the temperature in the culture bin and the density of kelp seedlings climbing on the culture seedling clamping device; not only is convenient for recovering the kelp, but also can adjust the growth density of the kelp and reasonably utilize resources.

Description

Intelligent kelp breeding device

Technical Field

The invention relates to marine product culture equipment, in particular to an intelligent kelp culture device.

Background

The kelp belongs to algae in the subarctic zone, is a special local species of the North Pacific ocean, and also has some kelp distribution in the Atlantic ocean. Most of the kelp is distributed in northern hemisphere, and the southern hemisphere is also distributed a little, and usually grows on the submarine rock in the sub-tidal zone. Kelp growth is mainly affected by factors such as temperature, light, nutrient salts and phytohormones. Since the artificial raft culture of the kelp is carried out in China since the 50 th century, autumn seedlings, summer seedlings, early autumn seedlings, cross summer seedlings, spring seedlings and biennial seedlings are tested and produced in sequence, and the seedling production is deeply explored.

Kelp, also known as "kelp". The kelp seaweed is a large-scale marine brown seaweed plant growing in low-temperature seawater, belongs to a seaweed plant, contains nutrient elements such as iodine, iron, calcium, protein, vitamins, mannitol and the like required by a human body, has multiple functions of preventing and treating constipation, expelling toxin and beautifying, and the like, is widely applied to various fields, and is more and more popular. The existing kelp culture mode is mainly to directly expose kelp in seawater, and a plurality of problems are often encountered.

Firstly, as no barrier is arranged around, the kelp is easily swallowed by fishes and shrimps in the seawater, and the quantity of the kelp is reduced; secondly, attachments climbing on the kelp cannot be taken away due to small mobility of the seawater, and certain influence is also caused on the yield of the kelp; thirdly, kelp is easily damaged by blister disease after it is exposed to rainy season or a large amount of fresh water is injected into an estuary area because of uncontrollable seawater; fourthly, due to the reason that weather cannot be controlled, in summer with suddenly increased sunlight, the kelp is easily not adapted to cause local necrosis or spot white rot and the like, and the yield of the kelp is reduced due to the factors that the environment cannot be controlled; and the kelp needs to be taken up and squat for a plurality of times to recover the kelp, so that workers can feel tired easily.

The seedling separation is to clamp the kelp seedlings on a seedling separation rope at a certain distance so that the kelp seedlings gradually grow fixedly. The growth and development of the kelp can be influenced by overlarge pressure of the kelp clamped on the seedling raising rope, and the kelp is easy to fall off seedlings after being loosened.

The physiological habits of the kelp in all stages are different, the requirements on illumination and water flow are different, when the growth density of the kelp is too high, part of the kelp is rotten and dies due to long-term lack of illumination and water flow, and when the growth density is low, resources are wasted, so that the resources cannot be reasonably utilized.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a kelp intelligence breeding device, include: the device comprises a fertilizer bin, a culture bin, a circulating device, a temperature adjusting device, a culture seedling clamping device, a sensing device and a system application device;

the fertilizer bin is supported above the outer side of the culture bin through a bracket, the circulating device is connected with the culture bin, the temperature adjusting device is tightly attached to the outer wall of the culture bin, and the culture seedling clamping device is arranged inside the culture bin;

the sensing devices comprise a plurality of sensing devices which are respectively and uniformly distributed in the breeding bin and are used for sensing the temperature and the density in the breeding bin;

the breeding and seedling clamping device comprises a height adjusting device and a seedling rope;

the height adjusting device is fixed inside the kelp culture bin;

the seedling rope is connected with the height adjusting device through a movable connecting piece;

the system application device is respectively connected with the circulating device, the temperature adjusting device, the breeding seedling clamping device and the sensing device.

Preferably, the height adjusting means includes:

relay, motor, support frame raft frame;

the support frames are symmetrically fixed at two end parts of the culture bin and are connected with the motor through the relay;

the support frame is movably connected with the raft frame;

the seedling rope is connected with the raft frame through a movable connecting piece.

Preferably, the support frame is H-shaped and comprises two pillars and a cross rod;

the support column is vertical to the ground of the culture bin;

sliding rails are arranged on the support and the cross rod;

the cross rod is vertical to the pillars, and two ends of the cross rod are respectively clamped in the slide rails of the two pillars;

the two ends of the raft frame are clamped on the slide rails of the cross rods.

Preferably, the raft comprises a plate;

the movable connecting piece is fixed on the plate.

Preferably, the circulating device comprises a water inlet pipe and a water outlet pipe;

the inlet tube is arranged on one side of the interior of the breeding bin, and the outlet tube is arranged on the other side of the breeding bin.

Preferably, the temperature regulating device comprises a heat preservation device;

the heat preservation device is tightly attached to the breeding bin.

Preferably, the sensing device includes: a temperature sensor and a position sensor;

the temperature sensor is arranged in the breeding bin and is arranged below the water inlet pipe;

the position sensors are uniformly distributed on the seedling ropes.

Preferably, the system application device includes: a processor, a communication device, and a memory;

the processor is respectively connected with the circulating device, the temperature adjusting device, the breeding seedling clamping device, the temperature sensor and the position sensor, and is used for receiving data collected by the temperature sensor and the position sensor and analyzing the data to determine whether to start or adjust the circulating device, the temperature adjusting device and the breeding seedling clamping device;

the communication equipment is used for transmitting the data collected by the temperature sensor and the position sensor and the result of analyzing and determining whether to start or adjust the data collected by the temperature sensor and the position sensor, which are received by the processor, to a server;

wherein the communication device comprises Wi-Fi.

The memory is used for storing the received data collected by the temperature sensor and the position sensor and analyzing and determining whether to start or adjust the result of the data collected by the temperature sensor and the position sensor.

Preferably, the system application device further comprises: a client APP;

the client APP is connected with the server after logging in through a user, information on the server is read, monitoring information is synchronized simultaneously, and then the monitoring information is displayed.

Preferably, the fertilizer bin comprises a storage part, a conveying pipe and a discharge hole;

one end of the transmission conduit is connected with the storage part, and the other end of the transmission conduit extends into the culture bin;

one end of the interior of the feeding bin is connected with a discharging port.

Preferably, a pressure sensitive sensor is also included;

the pressure-sensitive sensor is arranged at the joint of the kelp and the seedling rope;

the pressure surface sensor is connected with a system application device.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model provides an intelligent kelp breeding device, include: the device comprises a fertilizer bin, a culture bin, a circulating device, a temperature adjusting device, a culture seedling clamping device, a sensing device and a system application device; the fertilizer bin is supported above the outer side of the culture bin through a bracket, the circulating device is connected with the culture bin, the temperature adjusting device is tightly attached to the outer wall of the culture bin, and the culture seedling clamping device is arranged inside the culture bin; the sensing devices comprise a plurality of sensing devices which are respectively and uniformly distributed in the breeding bin and are used for sensing the temperature and the density in the breeding bin; the breeding and seedling clamping device comprises a height adjusting device and a seedling rope; the height adjusting device is transversely supported inside the kelp culture bin; the seedling rope is connected with the height adjusting device through a movable connecting piece; the system application device is respectively connected with the circulating device, the temperature adjusting device, the breeding seedling clamping device and the sensing device; the recovery of the kelp is convenient, the growth density of the kelp can be adjusted, and the resources are reasonably utilized.

2. The utility model discloses still adopted pressure sensor, monitoring clamping pressure, the timely adjustment adds the power degree of holding, has solved the problem of taking off the seedling.

Drawings

FIG. 1 is a schematic view of the overall structure of the intelligent kelp breeding device of the invention;

wherein, the fertilizer bin 1, the transmission conduit 11, the discharge port 12, the bracket 13, the breeding bin 2, the fixed support 21, the illumination device 22, the circulating device 3, the system application device 4, the temperature adjusting device 5, the breeding seedling clamping device 6 and the sensing device 7.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "vertical", "horizontal", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example 1:

the utility model discloses a kelp intelligence breeding device, as shown in figure 1, include: the device comprises a fertilizer bin 1, a culture bin 2, a circulating device 3, a temperature adjusting device 5, a culture seedling clamping device 6, a sensing device 7 and a system application device 4;

the fertilizer bin 1 is supported above the outer side of the culture bin 2 through a fixing support 21, the circulating device 3 is connected with the culture bin 2, the temperature adjusting device 5 is tightly attached to the outer wall of the culture bin 2, and the culture seedling clamping device 6 is arranged inside the culture bin 2;

the sensing devices 7 are uniformly distributed in the breeding bin 2 and used for sensing the temperature and the density in the breeding bin 2;

the breeding and seedling clamping device 6 comprises a height adjusting device and a seedling rope;

the height adjusting device is fixed inside the kelp culture bin 2;

the seedling rope is connected with the height adjusting device through a movable connecting piece;

the system application device 4 is respectively connected with the circulating device 3, the temperature adjusting device 5, the breeding and seedling clamping device 6 and the sensing device 7.

Preferably, the height adjusting means includes: the relay, the motor, the support frame and the raft frame;

the support frames are symmetrically fixed at two end parts of the culture bin and are connected with the motor through the relay;

the support frame is movably connected with the raft frame;

the seedling rope is connected with the raft frame through a movable connecting piece.

The support frame is H-shaped and comprises two pillars and a cross rod;

the support column is vertical to the ground of the culture bin;

sliding rails are arranged on the support and the cross rod;

the cross rod is vertical to the pillars, and two ends of the cross rod are respectively clamped in the slide rails of the two pillars;

the two ends of the raft frame are clamped on the slide rails of the cross rods or the slide rails of the struts.

The movable connecting piece is in communication connection with the control terminal through communication equipment;

the control terminal controls the movable connecting piece to move in the horizontal direction to adjust the density of the kelp;

the communication device herein may use a relay.

The movable connecting piece comprises a slide rail and a slide block;

the slide rail is arranged on the raft frame, and the slide block is matched with the slide rail for use;

and the sliding block is controlled by a relay to move on the sliding rail.

Preferably, the raft comprises a plate;

the plate is provided with a slide rail.

Preferably, the circulating device 3 comprises a water inlet pipe and a water outlet pipe;

the inlet tube is located breed inside one side in storehouse 2, the opposite side in storehouse 2 of breeding sets up the outlet pipe.

Preferably, the temperature adjusting device 5 comprises a heat preservation device;

the heat preservation device is tightly attached to the culture bin 2.

Preferably, the sensing device 7 comprises: a temperature sensor and a position sensor;

the temperature sensor is arranged in the breeding bin 2 and is arranged below the water inlet pipe;

the position sensors are uniformly distributed on the seedling ropes.

Preferably, the system application device 4 includes: a control terminal and a communication device;

the control terminal is respectively connected with the circulating device 3, the temperature adjusting device 5, the breeding seedling clamping device 6, the temperature sensor, the position sensor and the movable connecting piece through the communication equipment, and is used for receiving data collected by the temperature sensor and the position sensor, analyzing the data and determining whether to start or adjust the height adjusting device and the movable connecting piece in the circulating device 3, the temperature adjusting device 5 and the breeding seedling clamping device 6;

the control terminal receives the temperature collected by the temperature sensor to control the temperature adjusting device 5, the height adjusting device and the movable connecting piece in the seedling clamping device 6, the control process can be realized by adopting the prior art, a single chip microcomputer with the model number of C8051F340 or an Arduino control mainboard,

the method specifically comprises the following steps: when the temperature is within the preset threshold range, the temperature adjusting device does not need to be adjusted; otherwise, adjusting the temperature adjusting device until reaching the preset threshold range.

After the control terminal receives the kelp position information collected by the position sensor, the position information is analyzed and calculated to obtain the coverage area of the kelp, and then the density degree of the kelp is determined, when the density degree is smaller than the set density threshold range, the seedling clamping device 6 for cultivation does not need to be adjusted, otherwise, the growth density of the kelp in the horizontal direction is adjusted through a sliding block in a movable connecting piece, meanwhile, the position of the kelp in the vertical direction is adjusted through the height of a cross rod on a relay starting motor adjusting support frame, and finally the growth density of the kelp is adjusted.

The communication equipment is used for transmitting the data collected by the temperature sensor and the position sensor and the result of analyzing and determining whether to start or adjust the data collected by the temperature sensor and the position sensor, which are received by the processor, to the server.

The system application device 4 further comprises a memory;

the memory is used for storing the received data collected by the temperature sensor and the position sensor and analyzing and determining whether to start or adjust the result of the data collected by the temperature sensor and the position sensor.

Further comprises an illumination device 22 and an illumination sensor;

the illumination devices 22 are uniformly distributed above the interior of the culture bin 2 through fixed supports;

the illuminance sensors are uniformly distributed in the culture bin 2 and used for collecting illuminance and transmitting the collected illuminance to the processor;

the control terminal judges whether the received light illumination is within the set illumination threshold value, if so, the illumination device 22 does not need to be adjusted, otherwise, the illumination is adjusted by controlling the starting number of the illumination device 22.

Preferably, the system application device further comprises: a client APP;

the client APP is connected with the server after logging in through a user, information on the server is read, monitoring information is synchronized simultaneously, and then the monitoring information is displayed.

Preferably, the fertilizer bin 1 comprises a storage part, a conveying pipe 11 and a discharge hole 12;

one end of the transmission conduit 11 is connected with the storage part, and the other end of the transmission conduit extends into the culture bin 2;

one end of the feed inlet of the culture bin 2 is connected with a feed outlet 12.

Preferably, a pressure sensitive sensor is also included;

the pressure-sensitive sensor is arranged at the joint of the kelp and the seedling rope;

the pressure surface sensor is connected with the system application device 4.

The utility model provides a kelp intelligence breeding device breeds the high adjusting device who presss from both sides among the seedling device 6 and makes things convenient for the kelp to retrieve, can also adjust kelp growth density, the rational utilization resource.

The utility model discloses still adopted pressure sensor, monitoring clamping pressure, the timely adjustment adds the power degree of holding, has solved the problem of taking off the seedling.

Example 2:

as shown in fig. 1, the intelligent kelp cultivation device of the utility model comprises a fertilizer bin 1, a cultivation bin 2, a circulating device 3, a system application device 4, a temperature regulation device 5, a cultivation seedling clamping device 6 and a temperature sensor;

the circulating device 3 comprises a water inlet pipe and a water outlet pipe; the fertilizer bin 1 comprises a conveying conduit 11, a discharge hole 12 and a bracket 13;

the fertilizer accumulation bin 1 is supported above the outer side of the kelp culture bin 2 through a bracket 13, the water inlet pipe is arranged on one side inside the kelp culture bin 2, the water outlet pipe is arranged below the inner part of the other side of the kelp culture bin 2, the heat preservation device 5 is tightly attached to the outer wall of the kelp culture bin 2, the culture seedling clamping device 6 is arranged inside the kelp culture bin 2, and the temperature sensor is arranged inside the kelp culture bin 2 and is arranged below the water inlet pipe; a conveying guide pipe 11 is arranged on the fertilizer bin 1, the conveying guide pipe 11 extends into the kelp culture bin 2, and a discharge hole 12 is formed in the conveying guide pipe 11; a fixed support 21 is arranged at the top of the kelp culture bin 2, and a daylight illumination device 22 is arranged below the fixed support 21;

the breeding and seedling clamping device 6 comprises a height adjusting device and a seedling rope;

the height adjusting device includes: relay, motor, support frame raft frame;

the support frames are symmetrically fixed at two end parts of the culture bin and are connected with the motor through the relay;

the support frame is movably connected with the raft frame;

the seedling rope is movably connected with the raft frame through a movable connecting piece.

The support frame is H-shaped and comprises two pillars and a cross rod;

the support column is vertical to the ground of the culture bin;

sliding rails are arranged on the support and the cross rod;

the cross rod is vertical to the pillars, and two ends of the cross rod are respectively clamped in the slide rails of the two pillars;

two ends of the raft frame are clamped on the slide rails of the cross rods;

the movable connecting piece comprises a sliding block and a sliding rail matched with the sliding block.

The sliding connecting piece is connected with the control terminal through communication equipment;

the control terminal obtains data collected by the position sensor through the communication equipment, and analyzes the data to determine whether to adjust the sliding connection piece to adjust the horizontal distance between the seedling ropes.

In order to more effectively improve the culture effect of the kelp culture device, the utility model also comprises that the temperature adjusting device 5 is made of PEF heat-insulating material and is used for ensuring the water temperature in the culture bin 2; the temperature sensor is connected with a system application device 4 on the outer surface of the culture bin 2.

The working principle is as follows: in order to facilitate the manufacture of a better environment and more intensively recover kelp, the utility model provides a kelp culture device, firstly, kelp seedlings are clamped on a seedling rope, then the seedling rope is fixed on a raft frame through a movable connecting piece, two ends of the raft frame are clamped on slide rails of cross rods of a support frame, the raft frame and the seedling rope part of a kelp seedling clamping device 6 are driven to move downwards through a relay control motor to drive the seedling rope to move downwards to the seawater inside of a culture bin 2 until the seedling rope is immersed;

set up pressure sensor in kelp seedling and seedling rope adds and holds position department for gather and add the pressure that holds the position, and then judge according to the pressure value whether suitable with the power degree of holding, and then avoid taking off the seedling. The sea water gets into through the inlet tube and breeds 2 in the storehouse, the seedling rope that will have the kelp is placed in the sea water, the below that storehouse 2 was bred to the kelp is equipped with the outlet pipe and is used for the drainage to play the purpose that rivers cross, the top of breeding storehouse 2 is equipped with lighting device 22, the simulation provides the light energy of sunlight, one side top of breeding storehouse 2 still is equipped with fertilizer storehouse 1, inside rethread transmission pipe 11 breeds storehouse 2 with the leading-in kelp of fertilizer, make the kelp seedling can not be because of lacking the nutrition and output reduces in the growth process.

The temperature adjusting device 5 comprises a heat preservation device; the heat preservation device is tightly attached to the culture bin 2.

The temperature sensor is arranged in the culture bin 2, is arranged below the water inlet pipe and is used for collecting the temperature in the culture bin and transmitting the temperature to the system application device 4;

the position sensors are uniformly distributed on the seedling ropes and used for collecting position information of the kelp and transmitting the position information to the system application device 4;

the system application device 4 comprises a control terminal, a communication device and a memory;

the control terminal is respectively connected with the circulating device, the temperature adjusting device, the breeding seedling clamping device, the temperature sensor and the position sensor through communication equipment, and is used for receiving data collected by the temperature sensor and the position sensor, analyzing the data and determining whether to start or adjust the circulating device, the temperature adjusting device and the breeding seedling clamping device;

the communication equipment is used for transmitting the data collected by the temperature sensor and the position sensor and received by the processor and the results of analyzing and determining whether to start or adjust the circulating device, the temperature adjusting device and the breeding and seedling clamping device to a server;

the memory is used for storing the received data collected by the temperature sensor and the position sensor and the result of whether the circulating device, the temperature adjusting device and the breeding and seedling clamping device are started or adjusted or not determined by the control terminal.

Wherein the communication device comprises Wi-Fi.

The system application apparatus 4 further includes: a client APP;

the client APP is connected with the server after logging in through a user, information on the server is read, monitoring information is synchronized simultaneously, and then the monitoring information is displayed.

The fertilizer bin 1 comprises a storage part, a conveying conduit 11 and a discharge hole 12;

one end of the transmission conduit 11 is connected with the storage part, and the other end of the transmission conduit extends into the culture bin 2;

one end of the feed inlet of the culture bin 2 is connected with a feed outlet 12.

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention are included in the scope of the claims of the present invention which are filed as the application.

Claims (10)

1. The utility model provides a kelp intelligence breeding device which characterized in that includes: the system comprises a culture bin, a water circulation device, a temperature adjusting device, a culture seedling clamping device and a plurality of sensing devices;

the temperature adjusting device, the breeding seedling clamping device, the plurality of sensing devices and the system application device are arranged in the breeding bin; the water circulation device is connected with the culture bin;

the sensing devices are used for sensing the temperature in the culture bin and the density of kelp seedlings climbing on the culture seedling clamping device.

2. The device of claim 1, wherein the breeding seedling clamping device comprises a height adjusting device, a movable connecting piece and a seedling rope;

the height adjusting device is fixed inside the culture bin; the seedling rope is connected with the height adjusting device through the movable connecting piece;

the kelp seedling is clamped on the cultivation seedling clamping device.

3. The apparatus of claim 2, wherein the height adjustment means comprises: the relay, the motor, the support frame and the raft frame;

the support frames are symmetrically fixed at two end parts of the culture bin and are connected with the motor through the relay;

the support frame is movably connected with the raft frame;

the seedling rope is connected with the raft frame through a movable connecting piece.

4. The device of claim 3, wherein said support frame is H-shaped, comprising two posts and a cross bar;

the support column is vertical to the ground of the culture bin;

sliding rails are arranged on the support and the cross rod;

the cross rod is vertical to the pillars, and two ends of the cross rod are respectively clamped in the slide rails of the two pillars;

the two ends of the raft frame are clamped in the slide rails of the cross rods.

5. The apparatus of claim 3, wherein the raft comprises a plate;

the movable connecting piece is fixed on the plate.

6. The apparatus of claim 2, wherein the water circulation device comprises a water inlet pipe, a water outlet pipe and a water pump;

the water inlet pipe is arranged on one side inside the culture bin, and the water outlet pipe is arranged on the other side of the culture bin;

the water pump is respectively connected with the water inlet pipe and the water outlet pipe.

7. The apparatus of claim 6, wherein the temperature regulating means comprises a temperature maintaining means and a heating means;

the heat preservation device is tightly attached to the culture bin;

the heating device is positioned inside the culture bin.

8. The apparatus of claim 7, wherein the sensing means comprises: a temperature sensor and a position sensor;

the temperature sensor is arranged in the breeding bin and is arranged below the water inlet pipe;

the position sensors are uniformly distributed on the seedling ropes.

9. The apparatus of claim 8, further comprising a system application;

the system application device is respectively connected with the temperature sensor and the position sensor and is used for adjusting the heating device in the temperature adjusting device and the height adjusting device in the seedling culturing and clamping device according to the temperature in the culturing bin sensed by the temperature sensor and the density of the kelp seedlings climbing on the seedling culturing and clamping device sensed by the position sensor.

10. The apparatus of claim 9, wherein the system application means comprises: a control terminal and a communication device;

the control terminal is respectively connected with the circulating device, the temperature adjusting device, the culture seedling clamping device, the temperature sensor and the position sensor through the communication equipment, and is used for receiving the temperature in the culture bin sensed by the temperature sensor and the density of the kelp seedlings climbing on the culture seedling clamping device sensed by the position sensor, and controlling the heating device in the temperature adjusting device, and the height adjusting device and the movable connecting piece in the culture seedling clamping device.

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