CN110663621A

CN110663621A - Aquaculture device

Info

Publication number: CN110663621A
Application number: CN201910809548.3A
Authority: CN
Inventors: 林志平
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-29
Filing date: 2019-08-29
Publication date: 2020-01-10

Abstract

The invention provides an aquaculture device, which structurally comprises a temperature-increasing culture mechanism, an oxygen increasing pipe, an oxygen increasing device, a protective frame, a controller and a power line, wherein the temperature-increasing culture mechanism is connected with the oxygen increasing device through the oxygen increasing pipe, the controller is fixedly arranged at the front end of the temperature-increasing culture mechanism, the invention generates a large amount of heat in an air duct through a heating backheating mechanism and a hot air supplier through an electric heating rod, meanwhile, a fan slowly runs to drive fan blades to rotate to generate smaller wind energy to drive the heat energy in the air duct to slowly move towards an air inlet hole, so that the hot air is heated to the interior of a heating return pipe through the air inlet hole, the heat energy in the heating return pipe can transfer the heat energy to water in a first culture groove and a second culture groove through a heat conduction image, the water temperature in the first culture groove and the second culture groove is kept at a certain temperature, and the temperature in the culture grooves can be effectively prevented from being too low or frozen, and the survival rate of the cultivation is reduced.

Description

Aquaculture device

Technical Field

The invention relates to the technical field of aquaculture, in particular to an aquaculture device.

Background

Aquaculture is the production activity of breeding, cultivating and harvesting aquatic animals and plants under artificial control, generally including the overall process of growing aquatic products from offspring under artificial feeding management to need can be fine carry out good control to the environment and the quality of water in the culture tank, in order to guarantee the survival rate of aquatic products, but prior art has following defect:

when the biological product is cultured, because the water body in the culture tank is the non-circulated dead water, when the weather is cold, the culture water can slowly become cold or even freeze along with the reduction of the temperature, thereby freezing the biological product, influencing the survival of the biological product and greatly reducing the survival rate of the biological product.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an aquaculture device, which solves the problem that when a biological product is cultured, as the water body in a culture tank is non-circulative dead water, the culture water can be slowly cooled or even frozen along with the reduction of the temperature in cold weather, so that the aquatic product is frozen to death, the survival of the aquatic product is influenced, and the survival rate of the aquatic product is greatly reduced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an aquaculture device structurally comprises a temperature-increasing culture mechanism, an oxygen increasing pipe, an oxygen increasing device, a protective frame, a controller and a power line, wherein the temperature-increasing culture mechanism is connected with the oxygen increasing device through the oxygen increasing pipe, the controller is fixedly installed at the front end of the temperature-increasing culture mechanism and welded with the power line, and the protective frame is installed above the temperature-increasing culture mechanism.

Preferably, the temperature-increasing breeding mechanism comprises a heating heat-returning mechanism, a first breeding groove, a baffle plate, a second breeding groove and a hot air feeder, the baffle plate is arranged between the first breeding groove and the second breeding groove, the heating heat-returning mechanism is arranged on the first breeding groove and the second breeding groove, and the right side of the heating heat-returning mechanism is communicated with the left side of the hot air feeder.

As preferred, heating backheat mechanism is including heating the return pipe, connecting the arc, the frame of giving vent to anger, filter net rack, inlet port, the heating return pipe is integrated casting moulding with the inlet port, the heating return pipe is connected through the electric welding with being connected the mutual intercommunication of arc, it welds with the frame left side of giving vent to anger mutually to connect the arc right side, filter net rack installs on the frame of giving vent to anger, it is the type structure to connect the arc.

As preferred, the steam feed ware is including heating mechanism, protection casing, fan, filter screen, wind channel, it installs inside the wind channel to heat the mechanism, the wind channel is located inside the protection casing, filter screen fixed mounting is on protection casing right side, the fan is installed in the wind channel inboard, it is located protection casing upper place to heat the mechanism, the protection casing is the cuboid structure of fretwork.

Preferably, the heating mechanism comprises an electric connector, an indicator light, a control box, an electric heating rod and an electric connection plate, the electric connector is electrically connected with the control box, the indicator light is installed at the front end of the control box, the electric heating rod is located between the control box and the electric connection plate and is electrically connected with the electric connection plate, and the electric connection plate is of a cuboid structure.

(III) advantageous effects

The invention provides an aquaculture device. The method has the following beneficial effects:

according to the invention, the heating backheating mechanism and the hot air feeder are arranged, a large amount of heat is generated in the air channel through the electric heating rod, meanwhile, the fan rotates slowly to drive the fan blades to rotate, and generate smaller wind energy to drive the heat energy in the air channel to move slowly to the air inlet, so that the hot air is fed into the heating return pipe through the air inlet, the heat energy in the heating return pipe can be transferred to the water in the first breeding tank and the second breeding tank in a heat conduction mode, and the water temperature in the first breeding tank and the second breeding tank is kept at a certain temperature, thereby effectively avoiding the problem that the survival rate of breeding is reduced due to the fact that the temperature in the breeding tanks is too low or is frozen.

Drawings

FIG. 1 is a schematic view of an aquaculture apparatus according to the present invention;

FIG. 2 is a front view of the temperature-increasing cultivation mechanism of the present invention;

FIG. 3 is a schematic three-dimensional structure diagram of a heating and heat-regenerating mechanism according to the present invention;

FIG. 4 is a front view of the hot gas supplier of the present invention;

fig. 5 is a schematic three-dimensional structure of the heating mechanism of the present invention.

In the figure: the device comprises a temperature-increasing culture mechanism-1, an oxygen increasing pipe-2, an oxygen increasing device-3, a protective frame-4, a controller-5, a power line-6, a heating and heat-returning mechanism-11, a first culture tank-12, a baffle-13, a second culture tank-14, a hot gas supplier-15, a heating return pipe-111, a connecting arc pipe-112, an air outlet frame-113, a filter screen frame-114, an air inlet hole-115, a heating mechanism-151, a protective casing-152, a fan-153, a filter screen-154, an air duct-155, an electric connector-15A, an indicator light-15B, a control box-15C, an electric heating rod-15D and an electric connection plate-15E.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, an aquaculture device according to an embodiment of the present invention includes a temperature-increasing aquaculture mechanism 1, an oxygen-increasing tube 2, an oxygen-increasing device 3, a protective frame 4, a controller 5, and a power cord 6, wherein the temperature-increasing aquaculture mechanism 1 is connected to the oxygen-increasing device 3 through the oxygen-increasing tube 2, the controller 5 is fixedly mounted at a front end of the temperature-increasing aquaculture mechanism 1, the controller 5 is welded to the power cord 6, and the protective frame 4 is mounted above the temperature-increasing aquaculture mechanism 1.

The temperature-increasing culture mechanism 1 comprises a heating heat return mechanism 11, a first culture groove 12, a baffle plate 13, a second culture groove 14 and a hot air supply device 15, wherein the baffle plate 13 is arranged between the first culture groove 12 and the second culture groove 14, the heating heat return mechanism 11 is installed on the first culture groove 12 and the second culture groove 14, and the right side of the heating heat return mechanism 11 is communicated with the left side of the hot air supply device 15.

Wherein, the heating and heat-returning mechanism 11 comprises a heating return pipe 111, a connecting arc pipe 112, an air outlet frame 113, a filter screen frame 114 and an air inlet hole 115, the heating return pipe 111 and the air inlet hole 115 are cast into a whole, the heating return pipe 111 and the connecting arc pipe 112 are mutually communicated and connected by electric welding, the right side of the connecting arc pipe 112 is welded with the left side of the air outlet frame 113, the filter screen frame 114 is installed on the air outlet frame 113, the connecting arc pipe 112 is in a U-shaped structure, when hot air enters the heating return pipe 111 from the air inlet hole 115, the hot air can be automatically and uniformly diffused to distribute the hot air to each position of the heating return pipe 111, so that the heat is transferred to the first culture tank 12 and the second culture tank 14, thereby heating the water in the first culture tank 12 and the second culture tank 14, and then transferring the residual heat to the air outlet frame 113 through the connecting arc pipe 112, and finally discharged through the filter screen frame 114, thereby realizing that the hot gas can circulate.

Wherein, hot gas supply device 15 is including heating mechanism 151, protection casing 152, fan 153, filter screen 154, wind channel 155, it installs inside wind channel 155 to heat mechanism 151, wind channel 155 is located protection casing 152, filter screen 154 fixed mounting is on protection casing 152 right side, fan 153 is installed in wind channel 155 inboard, it is located protection casing 152 inside top to heat mechanism 151, protection casing 152 is the cuboid structure of fretwork, breeds the inslot 14 when inside to first breed groove 12 and second when needs, through starting heating mechanism 151 for it produces heat energy to heat mechanism 151, produces wind energy by fan 153, blows to first breed inslot 12 and second breed inslot 14 inside to heat the produced heat energy of mechanism 151, and filter screen 154 can filter the impurity of outside, avoids the outside impurity in the wind channel to enter into 155.

The heating mechanism 151 includes an electrical connector 15A, an indicator light 15B, a control box 15C, an electrical bar 15D, and an electrical connection board 15E, where the electrical connector 15A is electrically connected to the control box 15C, the indicator light 15B is installed at the front end of the control box 15C, the electrical bar 15D is located between the control box 15C and the electrical connection board 15E and is electrically connected to the electrical connection board 15E, and the electrical connection board 15E is in a rectangular parallelepiped structure, and when the electrical connector 15A is powered on, the control box 15C will start to operate under the control of the controller 5, so that the control box 15C controls the electrical bar 15D to be powered on, and when the electrical bar 15D is in operation, a large amount of heat is generated, and a large amount of heat is collected inside the air duct 155.

The specific working process is as follows:

when the aquatic products are cultured, the aquatic products can be cultured in the first culture tank 12 and the second culture tank 14, when the weather is cold, the controller 5 can be started, the temperature-increasing culture mechanism 1 is controlled by the controller 5, so that the heating mechanism 151 and the fan 153 operate simultaneously, the electric connector 15A is connected with electric energy, the controller 5 directly controls the control box 15C to operate, the control box 15C provides electric energy for the electric heating rod 15D, the electric heating rod 15D generates a large amount of heat in the air duct 155, meanwhile, the fan 153 operates slowly, the fan blades are driven to rotate, small wind energy is generated, the heat energy in the air duct 155 is driven to slowly move towards the air inlet hole 115, the hot air is heated into the heating return pipe 111 through the air inlet hole 115, the heat energy in the heating return pipe 111 can be transferred to the water in the first culture tank 12 and the second culture tank 14 in a heat conduction mode, make the temperature in first breed groove 12 and the second breed groove 14 keep on certain temperature, flow along with steam by turning left right, steam will pass through the slow transmission to the aquatic of outer wall, cause heating return pipe 111 to turn left slowly by the right and become cold air, then discharge cold air toward connecting arc pipe 112, lead out through the filter screen frame 114 on the frame 113 of giving vent to anger, thereby make and realize the slow circulation that circulates of steam, and filter screen frame 114 can filter the impurity of outside, avoid impurity to enter into the frame 113 of giving vent to anger inside, cause the phenomenon of jam.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An aquaculture apparatus, characterized in that: the structure of the automatic oxygen increasing device comprises a temperature increasing breeding mechanism (1), an oxygen increasing pipe (2), an oxygen increasing device (3), a protective frame (4), a controller (5) and a power line (6), wherein the temperature increasing breeding mechanism (1) is connected with the oxygen increasing device (3) through the oxygen increasing pipe (2), the controller (5) is fixedly installed at the front end of the temperature increasing breeding mechanism (1), the controller (5) is welded with the power line (6), and the protective frame (4) is installed above the temperature increasing breeding mechanism (1).

2. An aquaculture apparatus according to claim 1, wherein: the heating breeding mechanism (1) comprises a heating heat regeneration mechanism (11), a first breeding groove (12), a baffle plate (13), a second breeding groove (14) and a hot air supply device (15), wherein the baffle plate (13) is arranged between the first breeding groove (12) and the second breeding groove (14), the heating heat regeneration mechanism (11) is installed on the first breeding groove (12) and the second breeding groove (14), and the right side of the heating heat regeneration mechanism (11) is communicated with the left side of the hot air supply device (15).

3. An aquaculture apparatus according to claim 2, wherein: heating backheat mechanism (11) is including heating return pipe (111), connection arc pipe (112), frame (113), filter screen frame (114), inlet port (115) of giving vent to anger, heating return pipe (111) and inlet port (115) casting moulding as an organic whole, heating return pipe (111) and connection arc pipe (112) communicate each other, connect arc pipe (112) right side and the frame (113) left side of giving vent to anger and weld mutually, filter screen frame (114) are installed on frame (113) of giving vent to anger.

4. An aquaculture apparatus according to claim 1, wherein: hot gas feed ware (15) are including heating mechanism (151), protection casing (152), fan (153), filter screen (154), wind channel (155), it installs inside wind channel (155) to heat mechanism (151), wind channel (155) are located inside protection casing (152), filter screen (154) fixed mounting is in protection casing (152) right side, fan (153) are installed in wind channel (155) inboardly, it is located protection casing (152) top to heat mechanism (151).

5. An aquaculture apparatus according to claim 4, wherein: heating mechanism (151) include electricity connect (15A), pilot lamp (15B), control box (15C), electric heat bar (15D), connect electroplax (15E), electricity connect (15A) and control box (15C) electricity to be connected, pilot lamp (15B) are installed in control box (15C) front end, electric heat bar (15D) are located control box (15C) and connect between electroplax (15E).