CN108739607B - Fish tank structure for researching fish adaptability under simulated strong convection weather - Google Patents

Abstract

The invention belongs to the technical field of simulation experiment equipment, and provides a fish tank structure for researching fish adaptability in simulated strong convection weather, which comprises a tank body, a cover body arranged on the tank body, a thunderstorm rainfall mechanism arranged on the cover body, a torrent manufacturing mechanism arranged on the side surface of the tank body, a supporting mechanism arranged on the lower surface of the tank body, a safety groove arranged on the lower surface of the tank body, and a control mechanism arranged on the supporting mechanism and used for controlling the thunderstorm rainfall mechanism, the torrent manufacturing mechanism and the supporting mechanism; can build a comparatively cruel living environment to fish, and then study its adaptability and adaptation time to adverse circumstances, can obtain the partial parameter of abnormal nature phenomenon to fish influence in the laboratory.

Description

Fish tank structure for researching fish adaptability under simulated strong convection weather

Technical Field

The invention relates to the technical field of simulation experiment equipment, in particular to a fish tank structure for researching fish adaptability in simulated strong convection weather.

Background

In recent years, the weather changes are endless, great influences are caused to the breeding industry, particularly, the breeding industry is used for breeding fishes, the fishes are always fatal, the firmness of net cages needs to be ensured, the loss caused by natural disasters can be reduced to the greatest extent only by the fact that the bred fishes have strong adaptability, and therefore not only varieties with good adaptability need to be selected, but also strong-adaptability fries need to be bred to guarantee benefits of fishermen.

An authorized bulletin No. CN207428248U discloses a fish collecting device with strong applicability, which comprises a machine body, a base, a power turbine, a telescopic loop bar, a working frame, a pull rope, a mesh enclosure and other main components. The bottom fixedly connected with base of organism, the bottom and the power turbine fixed connection of base, one side of organism upper surface and the bottom fixed connection of flexible loop bar, the upper surface of organism is located one side fixed mounting of flexible loop bar has the spud pile, the top of flexible loop bar is connected with the lower fixed surface of work frame, the spout has been seted up to the bottom of work frame, the inside swing joint of spout has the slider, the bottom and the stay cord connecting block fixed connection of slider, the top fixed connection of first connecting rod and pneumatic cylinder case is passed through to the bottom of stay cord connecting block. The fish collecting device with strong applicability utilizes the plurality of fish inlets and the collecting net cover to achieve the effect of efficiently collecting fish, prevent the fish from escaping backwards and swim, and improve the fish collecting efficiency of the device; but it does not simulate strong convection weather and cannot perform simulation experiments on fish.

A sea ranching porgy fish domestication method is disclosed in an authorization notice number CN103190369B, and belongs to the technical field of fish culture. The method comprises the following steps: placing a domestication machine containing a sound reproduction system and a bait supply into a large net cage, putting the juvenile sea bream into the large net cage after the adaptation of the water temperature, carrying out artificial domestication in the large net cage, and regularly feeding pheromone baits twice at a fixed point in the morning and at the evening by domestication factors; after several days of domestication, moving the domestication machine, domesticating again to increase the domestication effect, then releasing and continuing domestication; although the fish tank has a certain domestication effect, extreme weather is not simulated, and the fish tank is not beneficial to massive survival under the extreme weather, so that a fish tank structure capable of simulating the adaptability of fishes under strong convection weather is needed to obtain the adaptability of the fishes to harsh natural environment, so that the adaptability parameters of different kinds of fishes under abnormal natural phenomena are obtained as references, and the loss of farmers can be reduced as much as possible under the abnormal weather.

Disclosure of Invention

In view of the above, the present invention provides a fish tank structure for simulating and researching fish adaptability in strong convection weather, which can create a harsh living environment for fish, further research the adaptability and adaptation time of the fish tank structure to a severe environment, and can obtain partial parameters of the fish affected by abnormal natural phenomena in a laboratory.

In order to solve the problems, the invention provides a fish tank structure for simulating the research on the adaptability of fishes in strong convection weather, which comprises a tank body, a cover body arranged on the tank body, a thunderstorm rainfall mechanism arranged on the cover body, a torrent manufacturing mechanism arranged on the side surface of the tank body, a supporting mechanism arranged on the lower surface of the tank body, a safety groove arranged on the lower surface of the tank body, and a control mechanism arranged on the supporting mechanism and used for controlling the thunderstorm rainfall mechanism, the torrent manufacturing mechanism and the supporting mechanism;

thunderstorm rainfall mechanism is including setting up spray panel on the lid sets up spray panel rear portion's shower, with the pressure boost pipe that the shower is linked together and communicates the cell body lateral wall sets up the filter screen of pressure boost pipe entrance sets up miniature pump on the pressure boost pipe sets up flash light on the spray panel, and sets up a plurality of waterproof audio amplifier on the spray panel.

The torrent is made the mechanism and is including setting up a plurality of first torrent holes on the cell body side set up a plurality of second torrent holes on the first torrent hole is to the lateral cell body lateral wall, set up the first torrent pipe at a plurality of first torrent hole rear portions, set up the second torrent pipe at a plurality of second torrent hole rear portions, first torrent pipe and second torrent pipe all communicate with the surge bin, set up torrent stirring vane in the surge bin, set up on the surge bin and with the torrent motor that torrent stirring vane is connected.

The supporting mechanism comprises a supporting substrate, a transverse sliding rod arranged on the supporting substrate, a transverse screw rod arranged on the supporting substrate and matched with the transverse sliding rod, a transverse motor arranged at the end part of the transverse screw rod, a transverse supporting block arranged on the transverse screw rod and matched with the transverse sliding rod, a steering motor arranged on the transverse supporting block, a supporting telescopic rod arranged on an output shaft of the steering motor, and a supporting panel arranged at the upper end of the supporting telescopic rod.

The safety groove is a groove or a hole arranged at the bottom of the groove body.

The control mechanism comprises an intelligent data processing terminal arranged on the supporting substrate and a power supply connected with the intelligent data processing terminal.

Still be provided with the deoxidization mechanism on the lid, the deoxidization mechanism is including setting up deoxidization pipe on the lid, with the piston cylinder that deoxidization pipe exit end is linked together sets up the piston lid of piston cylinder upper end sets up piston rod on the piston lid sets up in the piston cylinder and with the piston that the piston rod is connected sets up on the piston lid and with the piston telescopic link that the piston rod is connected sets up first check valve on the piston to and set up second check valve on the deoxidization pipe.

And the oxygen removing pipe is provided with a barometer.

An operation method of a fish tank structure for researching fish adaptability in simulated strong convection weather comprises the following steps:

s1: the fish to be tested is put in the tank body for adaptation, and is continuously cultured for 2-5 days according to a conventional feeding mode;

s2: firstly, simulating a rainfall state, continuously reducing the rainfall for 20-30min, and observing whether the fishes hide or eat;

s3: keeping rainfall state simulation, simulating thunder through a waterproof sound box, simulating lightning through a flash lamp, lasting for 20-30min, and observing whether fishes hide, are hurted in a hurry and eat;

s4: keeping thunderstorm and precipitation states, and obtaining torrent with different wave heights and flow rates by adjusting the rotating speed of a torrent motor on a torrent manufacturing mechanism for 30-40min to observe the survival rate of the fishes;

s5: closing the torrent motor to simulate the adaptive capacity of the fishes when the riverbed or the seabed changes through the supporting mechanism, and lasting for 5-10 min;

s6: stopping simulating the change of the river bed or the sea bed obtained by the supporting mechanism, manufacturing a low-pressure low-oxygen-content water body by the oxygen removing mechanism, reducing the air pressure to be 0.9-0.98 times of the normal atmospheric pressure for 10-30min, and observing the adaptability of the fish.

S7: and after the actions are finished, observing the number of the remaining healthy fishes, repeating the steps from S1 to S6 twice, and screening the fishes with strong adaptability.

Aiming at the phenomenon that a farmer has great loss due to abnormal weather in the prior art, the invention observes the adaptive capacity of fishes by simulating strong convection weather in a laboratory, takes the adaptive capacity as reference, enables the farmer to select the fishes with stronger adaptation to breed according to the data, and avoids the phenomenon that the farmer has no return to blood in the process of breeding due to extreme weather, adopts a trough body as a bearing base body, and arranges fishes in the trough body, thereby carrying out experiments, in order to better simulate the meteorological conditions, a thunderstorm mechanism arranged on a cover body can simulate the states of rainstorm and thunderstorm, a torrent manufacturing mechanism arranged on the cover body can simulate the real torrent state, and in order to simulate the change of a river bed or a seabed, a supporting mechanism is arranged at the lower part of the trough body, the left-right movement and rotation of the trough body are realized, and in order to more truly simulate the extreme abnormal weather, still be provided with the oxygen removal mechanism on the lid and reduce the oxygen content of water, come the simulation real living environment, obtain adaptability and adaptation time's experimental parameters to this provides the reference for the raiser, can breed the fish that adaptability is strong and adaptation time is short when breeding, when avoiding meeting with strong convection current weather, because the loss that the adaptability is poor causes.

In addition, the thunderstorm rainfall mechanism who adopts is including setting up the panel that sprays on the lid, make to spray and set up cavity chamber in the middle of the panel, and set up the shower at the panel rear portion that sprays, set up the booster pipe that one end intercommunication cell body other end intercommunication shower on the lateral wall, be used for realizing the circulation of rivers, and the filter screen that sets up can avoid fish to miss the phenomenon wherein, and the intensity of precipitation can be adjusted to the miniature pump that sets up, and ensure the effect of precipitation, and the flash light that sets up can simulate the effect of lightning, and the audio of thunder can be simulated to a plurality of waterproof audio amplifier that set up, simulate real thunderstorm weather.

In addition, the adopted torrent manufacturing mechanism comprises a plurality of first torrent holes arranged on one side surface of the tank body, a plurality of second torrent holes arranged on the side wall of the tank body opposite to the first torrent holes, one of the second torrent holes is an inlet, the other is an outlet, so as to manufacture circulating torrent, in order to ensure the effect of manufacturing the torrent, a buffer bin is arranged between the first torrent pipe and the second torrent pipe, then torrent stirring blades are arranged in the buffer bin, and the regulation of the rotating speed is realized through a torrent motor, so that the regulation of the torrent flow speed is realized; in addition, the adopted supporting mechanism comprises a supporting base plate, the integral stability of the device is realized, a transverse sliding rod is arranged on the supporting base plate, a transverse screw rod matched with the transverse sliding rod is arranged on the base plate, a transverse motor is arranged at the end part of the transverse screw rod and provides power for the transverse screw rod, a transverse supporting block which is arranged on the transverse screw rod and matched with the transverse sliding rod can drive the transverse supporting block to move when the transverse screw rod rotates, a steering motor is arranged on the transverse supporting block to realize the rotating function, a supporting telescopic rod arranged on an output shaft of the rotating motor can ensure the up-and-down expansion of the trough body, and a supporting panel arranged at the upper end part of the supporting telescopic rod can provide a stable supporting platform for the trough body; the arranged safety groove is a groove or a hole arranged at the bottom of the groove body; can provide stable sheltering places for fishes.

In addition, the adopted control mechanism comprises an intelligent data processing terminal arranged on the supporting substrate, the intelligent data processing terminal is a PLC (programmable logic controller), a personal computer or an intelligent mobile phone, and the arranged power supply can provide stable power supply with the intelligent data processing terminal; and for further realization simulation, still be provided with deoxidization mechanism on the lid, thereby be used for making the oxygen deficiency environment under the strong convection weather and carry out further test to fish, and it can only be followed the cell body and is given vent to anger to the first check valve that sets up, and the second check valve that sets up, it can give vent to anger at the in-process that the piston resets downwards, thereby realized the process of bleeding in the cell body, realize the negative pressure phenomenon in the cell body, and in order to guarantee sealed effect, set up the sealing washer on the lid, can ensure the effect of oxygen deficiency, obtain pressure recovery through opening the lid after the oxygen deficiency environment finishes, of course still can set up the valve on lid or cell body, realize pressure recovery and cell body isolated through the switching valve.

Drawings

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

FIG. 2 is a schematic top view of the supporting mechanism of the present invention;

FIG. 3 is a schematic bottom view of the spray panel of the present invention;

FIG. 4 is a schematic structural diagram of a torrent production mechanism according to the present invention;

FIG. 5 is a schematic overall structure diagram of a third embodiment of the present invention;

fig. 6 is a schematic structural view of the oxygen removing mechanism of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 6 of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention, are within the scope of the invention.

Example one

A fish tank structure for simulating the research on fish adaptability in strong convection weather comprises a tank body 1, a cover body 3 arranged on the tank body 1, a thunderstorm rainfall mechanism arranged on the cover body 3, a torrent manufacturing mechanism arranged on the side surface of the tank body 1, a supporting mechanism arranged on the lower surface of the tank body 1, a safety groove 26 arranged on the lower surface of the tank body 1, and a control mechanism 19 arranged on the supporting mechanism and used for controlling the thunderstorm rainfall mechanism, the torrent manufacturing mechanism and the supporting mechanism;

thunderstorm rainfall mechanism is including setting up spray panel 4 on the lid 3 sets up spray panel 4 rear portion's shower 6, with shower 6 is linked together and communicates the booster pipe 7 of 1 lateral wall of cell body, sets up the filter screen 9 of booster pipe 7 entrance sets up miniature pump 8 on the booster pipe 7 sets up spray flash light 5 on the panel 4, and set up and be in spray a plurality of waterproof audio amplifier 2 on the panel 4.

Torrent manufacturing mechanism is including setting up a plurality of first torrent holes 10 on 1 side of cell body set up a plurality of second torrent holes 24 on the contralateral cell body lateral wall in first torrent hole 10 set up the first torrent pipe 11 at a plurality of first torrent holes 10 rear portions, set up the second torrent pipe 23 at a plurality of second torrent holes 24 rear portions, first torrent pipe 10 and second torrent pipe 24 all communicate with surge bin 20, set up torrent stirring vane 21 in surge bin 20, set up on surge bin 20 and with torrent motor 22 that torrent stirring vane 21 is connected.

The supporting mechanism comprises a supporting base plate 18, a transverse sliding rod 14 arranged on the supporting base plate 18, a transverse screw rod 25 arranged on the supporting base plate 18 and matched with the transverse sliding rod 14, a transverse motor 13 arranged at the end part of the transverse screw rod 25, a transverse supporting block 15 arranged on the transverse screw rod 25 and matched with the transverse sliding rod 14, a steering motor 16 arranged on the transverse supporting block 15, a supporting telescopic rod 17 arranged on the steering motor 16, and a supporting panel 12 arranged at the upper end of the supporting telescopic rod 17.

The safety groove 26 is a groove arranged at the bottom of the groove body.

The control mechanism 19 includes an intelligent data processing terminal disposed on the support substrate, and a power supply connected to the intelligent data processing terminal.

Example two

The difference from the first embodiment is that: the safety groove 26 is a hole arranged at the bottom of the groove body.

The holes adopted in the embodiment can provide sheltering places for fishes and improve the survival ability and the adaptability of the fishes.

EXAMPLE III

As shown in fig. 5 and 6, it differs from the second embodiment in that: the cover body 3 is further provided with an oxygen removing mechanism 27, the oxygen removing mechanism 27 comprises an oxygen removing pipe 271 arranged on the cover body 3, a piston cylinder 273 communicated with the outlet end of the oxygen removing pipe 271, a piston cover 274 arranged at the upper end of the piston cylinder 273, a piston rod 276 arranged on the piston cover 274, a piston 278 arranged in the piston cylinder 273 and connected with the piston rod 276, a piston telescopic rod 275 arranged on the piston cover 274 and connected with the piston rod 276, a first one-way valve 277 arranged on the piston 278, and a second one-way valve 272 arranged on the oxygen removing pipe 271.

An air pressure gauge 279 is arranged on the oxygen removing pipe 271.

The piston telescopic rod adopted in the embodiment is an electric telescopic rod, and the adopted first one-way valve and the adopted second one-way valve are both mechanical one-way valves.

Example four

An operation method of a fish tank structure for researching fish adaptability in simulated strong convection weather comprises the following steps:

s1: the fish to be tested is put in the tank body for adaptation, and is continuously cultured for 2-5 days according to a conventional feeding mode;

s2: firstly, simulating a rainfall state, continuously reducing the rainfall for 20-30min, and observing whether the fishes hide or eat;

s3: keeping rainfall state simulation, simulating thunder through a waterproof sound box, simulating lightning through a flash lamp, lasting for 20-30min, and observing whether fishes hide, are hurted in a hurry and eat;

s4: keeping thunderstorm and precipitation states, and obtaining torrent with different wave heights and flow rates by adjusting the rotating speed of a torrent motor on a torrent manufacturing mechanism for 30-40min to observe the survival rate of the fishes;

s5: closing the torrent motor to simulate the adaptive capacity of the fishes when the riverbed or the seabed changes through the supporting mechanism, and lasting for 5-10 min;

s6: stopping simulating the change of the river bed or the sea bed obtained by the supporting mechanism, manufacturing a low-pressure low-oxygen-content water body by the oxygen removing mechanism, reducing the air pressure to be 0.9-0.98 times of the normal atmospheric pressure for 10-30min, and observing the adaptability of the fish.

S7: and after the actions are finished, observing the number of the remaining healthy fishes, repeating the steps from S1 to S6 twice, and screening the fishes with strong adaptability.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (5)

1. The utility model provides a research fish adaptability's fish bowl structure under simulation strong convection current weather which characterized in that: the device comprises a tank body, a cover body arranged on the tank body, a thunderstorm rainfall mechanism arranged on the cover body, a torrent manufacturing mechanism arranged on the side surface of the tank body, a supporting mechanism arranged on the lower surface of the tank body, a safety groove arranged on the lower surface of the tank body, and a control mechanism arranged on the supporting mechanism and used for controlling the thunderstorm rainfall mechanism, the torrent manufacturing mechanism and the supporting mechanism;

the thunderstorm rainfall mechanism comprises a spraying panel arranged on the cover body, a spraying pipe arranged at the rear part of the spraying panel, a pressure increasing pipe communicated with the spraying pipe and communicated with the side wall of the groove body, a filter screen arranged at the inlet of the pressure increasing pipe, a micro water pump arranged on the pressure increasing pipe, a flash lamp arranged on the spraying panel and a plurality of waterproof sound boxes arranged on the spraying panel;

the torrent manufacturing mechanism comprises a plurality of first torrent holes arranged on one side face of the tank body, a plurality of second torrent holes arranged on the side wall of the tank body opposite to the first torrent holes, a first torrent pipe arranged at the rear part of the plurality of first torrent holes, and a second torrent pipe arranged at the rear part of the plurality of second torrent holes, wherein the first torrent pipe and the second torrent pipe are communicated with a buffer bin, torrent stirring blades are arranged in the buffer bin, and a torrent motor arranged on the buffer bin and connected with the torrent stirring blades;

the supporting mechanism comprises a supporting substrate, a transverse sliding rod arranged on the supporting substrate, a transverse screw rod arranged on the supporting substrate and matched with the transverse sliding rod, a transverse motor arranged at the end part of the transverse screw rod, a transverse supporting block arranged on the transverse screw rod and matched with the transverse sliding rod, a steering motor arranged on the transverse supporting block, a supporting telescopic rod arranged on an output shaft of the steering motor, and a supporting panel arranged at the upper end of the supporting telescopic rod.

2. A fish tank structure for simulating fish adaptability in strong convection weather as claimed in claim 1, wherein: the safety groove is a groove or a hole arranged at the bottom of the groove body.

3. A fish tank structure for simulating fish adaptability in strong convection weather as claimed in claim 2, wherein: the control mechanism comprises an intelligent data processing terminal arranged on the supporting substrate and a power supply connected with the intelligent data processing terminal.

4. A fish tank structure for simulating fish adaptability in strong convection weather as claimed in claim 3, wherein: still be provided with the deoxidization mechanism on the lid, the deoxidization mechanism is including setting up deoxidization pipe on the lid, with the piston cylinder that deoxidization pipe exit end is linked together sets up the piston lid of piston cylinder upper end sets up piston rod on the piston lid sets up in the piston cylinder and with the piston that the piston rod is connected sets up on the piston lid and with the piston telescopic link that the piston rod is connected sets up first check valve on the piston to and set up second check valve on the deoxidization pipe.

5. A fish tank structure simulating fish adaptability in strong convection weather as claimed in claim 4, characterized in that: and the oxygen removing pipe is provided with a barometer.

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