CN110463629B - Three-dimensional ecological green aquatic product feeding device - Google Patents

Abstract

The invention relates to the field of feeding devices, in particular to a three-dimensional ecological green aquatic product feeding device which comprises a water tank, a feeding net cage component, a soft-shelled turtle channel component, a feed placing component, a plant purification area and a floating ball component, wherein the feeding net cage component and the soft-shelled turtle channel component are arranged in the water tank, the feeding net cage component is connected with the soft-shelled turtle channel component, the feeding net cage component is detachably arranged at the upper part of the soft-shelled turtle channel component, the feed placing component is arranged in the feeding net cage component, the plant purification area and the floating ball component are arranged on two sides of the water tank, one end of the water tank is connected with the plant purification area, and the other end; according to the invention, food and feed resources are reasonably utilized, the waste of food for feeding turtles is avoided, the loaches are cultured in a three-dimensional manner and absorb and utilize food residue waste materials caused by the turtles for the second time, so that the water body pollution caused by the waste materials is avoided, the turtle breeding and the loach breeding are combined, and the scattered food residues can be synchronously supplied to the loaches for use when the turtles are fed.

Description

Three-dimensional ecological green aquatic product feeding device

Technical Field

The invention relates to the field of feeding devices, in particular to a three-dimensional ecological green aquatic product feeding device.

Background

The existing soft-shelled turtles are omnivorous animals during breeding, and are required to be regularly fed with frozen or animal viscera meat paste and the like in order to better provide nutrition for the soft-shelled turtles.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a three-dimensional ecological green aquatic product feeding device.

In order to achieve the purpose, the invention adopts the following technical scheme: a three-dimensional ecological green aquatic product feeding device comprises a water tank, a feeding net cage component, a soft-shelled turtle channel component, a feed placing component, a plant purification area and a floating ball component, wherein the feeding net cage component and the soft-shelled turtle channel component are arranged in the water tank, the feeding net cage component is connected with the soft-shelled turtle channel component, the feeding net cage component is detachably arranged at the upper part of the soft-shelled turtle channel component, the feed placing component is arranged in the feeding net cage component, the plant purification area and the floating ball component are arranged on two sides of the water tank, one end of the water tank is connected with the plant purification area, and the other end of the plant purification area;

the water tank includes the bottom plate, curb plate one, curb plate two, curb plate three, curb plate four and water tank cavity, the bottom plate, curb plate one, curb plate two, the platelike structure that the curb plate three all adopted the PVC material to constitute with curb plate four, the bottom plate is the rectangle form, the bottom plate edge is vertical fixation curb plate one in proper order, curb plate two, curb plate three and curb plate four, the bottom plate, curb plate one, curb plate two, form the water tank cavity between curb plate three and the curb plate four, water tank cavity upper portion is the opening form, the bottom plate, curb plate one, curb plate two, curb plate three, all link up on the curb plate four and seted up the through-hole, the through-hole is the round.

The feeding net cage component comprises a feeding net cage and net cage fixing components, the feeding net cage is in a rectangular upper part opening shape, the upper part of the feeding net cage is fixed through the net cage fixing components, the net cage fixing components are of a detachable structure and are symmetrically arranged on two sides of the upper part of the feeding net cage, and the net cage fixing components are fixedly connected with the plant purification area;

the turtle channel assembly comprises a left turtle main channel, a left turtle inlet channel I, a left turtle inlet channel II, a right turtle main channel, a right turtle inlet channel I, a right turtle inlet channel II and a connecting channel;

the feed placing assembly comprises a support rod and a material placing plate, the material placing plate is arranged on the support rod, the material placing plate is in a conical shape, and the support rod is telescopic;

the plant purification area comprises transverse plates, transverse plate windows and grid boxes, wherein the transverse plates are rectangular, the transverse plate windows are formed in the middle of the transverse plates, the transverse plate windows are rectangular, the grid boxes are in an upper opening shape, the cross sections of the grid boxes are U-shaped, the grid boxes are plastic boxes, and grid meshes are formed in the inner walls of the grid boxes in a penetrating mode.

The feeding net cage comprises a feeding net bottom plate, a feeding net side plate I, a feeding net side plate II, a feeding net side plate III, a feeding net side plate IV and a feeding net cavity, wherein the feeding net bottom plate is rectangular, the edge of the feeding net bottom plate is sequentially and vertically fixed with the feeding net side plate I, the feeding net side plate II, the feeding net side plate III and the feeding net side plate IV, the feeding net bottom plate, the feeding net side plate I, the feeding net side plate II, the feeding net side plate III and the feeding net side plate IV form the feeding net cavity, the upper part of the feeding net cavity is open, the bottom plate, the side plate I, the side plate II, the side plate III and the side plate IV are made of PP plastic plates, and material leaking holes are formed in the PP plastic plates in a penetrating.

The net cage fixing component comprises a fixing support, bolt holes, connecting bolts and connecting nuts, the fixing support is in a shape of inverted L, the lower portion of the fixing support is fixedly connected with one side of the plant purification area, the bolt holes are formed in the upper portion of the fixing support, the bolt holes are in a shape of circular holes, the connecting bolts penetrate through the bolt holes, the bottoms of the connecting bolts are fixedly connected with the middle of the upper end of the side plate of the feeding net, and the connecting nuts are arranged on the upper portion of the connecting bolts and are abutted to the bottom of the fixing support.

The left turtle main channel is cylindrical, a channel hole is formed in the inner wall of the left turtle main channel in a penetrating mode, the channel hole is oval, the bottom of the left turtle main channel is communicated with the left turtle entering channel I, one end portion of the left turtle entering channel penetrates through the bottom of the side plate I and protrudes out of the side plate I, the left turtle entering channel I is circular, the left turtle entering channel I is communicated with the left turtle main channel, the included angle alpha between the left turtle entering channel I and the horizontal line is 20-25 degrees, the left turtle entering channel II is arranged at the upper portion of the left turtle entering channel I, a channel hole is formed in the inner wall of the left turtle entering channel II in a penetrating mode, a first buckle cover is arranged at one end portion of the left turtle entering channel and is circular, the first buckle cover is in threaded connection with the left turtle entering channel I, the left turtle entering channel II is arranged in parallel to the left turtle entering channel I, the upper portion of the left turtle entering channel II is communicated with the left turtle main channel, the second end part of the left turtle entering channel is provided with a second buckle cover, the second buckle cover is in threaded connection with the second left turtle entering channel, and the second buckle cover is in a round cover shape.

The right turtle main channel is cylindrical, a channel hole is formed in the inner wall of the right turtle main channel in a penetrating mode, the channel hole is oval, the bottom of the right turtle main channel is communicated with the right turtle entering channel I, one end portion of the right turtle entering channel penetrates through the bottom of the side plate I and protrudes out of the side plate I, the right turtle entering channel I is circular, the right turtle entering channel I is communicated with the right turtle main channel, the included angle alpha between the right turtle entering channel I and the horizontal line is 20-25 degrees, the right turtle entering channel II is arranged at the upper portion of the right turtle entering channel I, a channel hole is formed in the inner wall of the right turtle entering channel II in a penetrating mode, a buckle cover III is arranged at one end portion of the right turtle entering channel and is circular, the buckle cover I is in threaded connection with the right turtle entering channel I, the right turtle entering channel II is arranged in parallel to the right turtle entering channel I, the upper portion of the right turtle entering channel II is communicated with the right turtle main channel, the end part of the right turtle entering channel is provided with a buckle cover IV, the buckle cover IV is in threaded connection with the right turtle entering channel, and the buckle cover II is in a round cover shape.

The left turtle main channel is communicated with the right turtle main channel through a connecting channel, the connecting channel is cylindrical, and a channel hole is formed in the side wall of the connecting channel in a penetrating mode.

The upper parts of the left turtle main channel and the right turtle main channel are in an opening shape, the feeding net bottom plate is provided with a first opening and a second opening in a penetrating mode, the first opening and the second opening are in a circular hole shape, the upper part of the left turtle main channel penetrates through the first opening, and the upper part of the right turtle main channel penetrates through the second opening.

The support rod comprises an upper support rod and a lower support rod, the upper support rod is cylindrical, an upper support rod hole is formed in the side wall of the upper support rod in a penetrating mode, the lower support rod is cylindrical, a lower support rod hole is formed in the side wall of the lower support rod in a penetrating mode, the diameter of the lower support rod is larger than that of the upper support rod, a pin penetrates through the lower support rod hole and the upper support rod hole, the section of the discharging plate is in an inverted V shape, the bottom of the discharging plate surrounds and is fixed with an inclined plate edge, and the inclined plate edge and the included angle beta of a.

The connecting block is fixed at the end part of the transverse plate and is rectangular, and the end part of the connecting block is communicated with the transverse plate bolt hole.

The floater subassembly includes the floater, floater fixed block and floater embedded piece, and the floater is hollow cylindrical structure, the fixed floater fixed block in floater one side middle part, and the floater fixed block is the rectangle form, and floater fixed block tip sets up the embedded groove, and the embedded groove is "U" form, and the embedded groove width slightly is greater than the connecting block, and the embedded groove bolt hole is seted up at the embedded groove both ends, the fixed floater embedded piece in floater opposite side middle part, and the floater embedded piece is the rectangle form, and floater embedded piece width slightly is less than embedded groove width, and floater embedded piece tip link up and has seted up floater embedded piece hole, and the bolt passes diaphragm bolt hole and embedded groove bolt hole and fixes embedded groove and connecting block mutually.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, food and feed resources are reasonably utilized, the waste of food for feeding turtles is avoided, the loaches are cultured in a three-dimensional manner, the loaches absorb and utilize food residue waste materials caused by the turtles for the second time, the water body pollution caused by the waste materials is avoided, meanwhile, the turtle breeding and the loach breeding are combined, when the turtles are fed, scattered food residues can be synchronously supplied to the loaches for use, and a safe, ecological and natural living environment can be provided for the loaches without the need of feeding the turtles.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic top view of the present invention.

FIG. 3 is a schematic side view of the present invention.

Fig. 4 is a schematic diagram of the structure at a in fig. 1.

Fig. 5 is a schematic diagram of the structure at B in fig. 1.

Fig. 6 is a schematic view of the structure at C in fig. 1.

Fig. 7 is a schematic structural diagram of a use state of the present invention.

In the above drawings, the names corresponding to the reference numerals are water tank 1, bottom plate 11, side plate I12, side plate II 13, side plate III 14, side plate IV 15, water tank cavity 16, breeding net cage component 2, breeding net cage 21, net cage fixing component 22, breeding net 21, breeding net bottom plate 211, breeding net side plate I212, breeding net side plate II 213, breeding net side plate III 214, breeding net side plate IV 215, breeding net cavity 216, net cage fixing component 22, fixing bracket 221, bolt hole 2211, connecting bolt 222, connecting nut 223, turtle channel component 3, left turtle main channel 31, left turtle inlet channel I32, left turtle inlet channel II 33, right turtle main channel 34, right turtle inlet channel I35, right turtle inlet channel II 36, connecting channel 37, feed placing component 4, bracket rod 41, feed placing plate 42, upper bracket rod 411, lower bracket rod 412, feed placing plate 42, upper bracket rod 411, lower bracket rod 412, feed placing plate 42, feed placing plate 6, feed placing, The cover cylinder 422, the plant purification area 5, the transverse plate 51, the transverse plate window 52, the grid box 53 connecting block 511, the floating ball assembly 6, the floating ball 61, the floating ball fixing block 62 and the floating ball embedding block 63.

Detailed Description

The present invention will be described in further detail with reference to the following examples, which are provided only for illustrating the present invention and are not intended to limit the scope of the present invention.

Please refer to fig. 1-7, which illustrate a three-dimensional green circulation aquaculture device, comprising a water tank 1, a feeding net cage assembly 2, a turtle passage assembly 3, a feed placing assembly 4, a plant purification area 5 and a floating ball assembly 6, wherein the feeding net cage assembly 2 and the turtle passage assembly 3 are arranged in the water tank 1, the feeding net cage assembly 2 is connected with the turtle passage assembly 3, the feeding net cage assembly 2 is detachably arranged at the upper part of the turtle passage assembly 3, the feed placing assembly 4 is arranged in the feeding net cage assembly 2, the plant purification area 5 and the floating ball assembly 6 are arranged at two sides of the water tank 1, one end of the water tank 1 is connected with the plant purification area 5, the other end of the plant purification area 5 is detachably connected with the floating ball assembly 6, the water tank 1 can limit a certain range for feeding turtles, on the other hand, the water tank 1 can be used as a place for breeding loaches, the loaches can directly eat meat paste residues generated by feeding the turtles, the feeding net cage assembly 2 can be used as a feeding place of the turtles, the turtles are prevented from entering the water tank 1 to hurt the loaches, in addition, the residues fed by the turtles can directly enter the water tank 1 through the feeding net cage assembly 2 to be supplied with the loaches as new food, the turtle channel assembly 3 can be used as a channel for the turtles to enter the feeding net cage assembly 2 and prevent the turtles from entering the water tank 1, meanwhile, the loaches are favored to drill holes and can be used as sheltering places for the loaches when the loaches are independently cultured, the feed containing assembly 4 is convenient for the turtles to feed, the plant purifying area 5 is used for purifying water quality and preventing the residual food residues of the turtles diffused from the water tank 1 from polluting a water source, the floating ball assembly 6 is used for providing certain buoyancy for the device to integrally float on the water surface of the pond and providing a good environment for the loaches and the turtles to feed, and the floating ball assembly 6, when a certain buoyancy is provided when a plurality of assemblies of the floating ball assemblies 6 are needed, a plurality of groups of the floating ball assemblies 6 can be connected in parallel.

The water tank 1 comprises a bottom plate 11, a first side plate 12, a second side plate 13, a third side plate 14, a fourth side plate 15 and a water tank cavity 16, wherein the bottom plate 11, the first side plate 12, the second side plate 13, the third side plate 14 and the fourth side plate 15 are all of plate-shaped structures made of PVC materials, the bottom plate 11 is rectangular, the first side plate 12 and the second side plate 13 are sequentially and vertically fixed at the edge of the bottom plate 11, the loach-fish pond water tank comprises three side plates 14 and four side plates 15, a bottom plate 11, a first side plate 12, a second side plate 13, a water tank cavity 16 is formed between the three side plates 14 and the four side plates 15, the upper portion of the water tank cavity 16 is in an opening shape, the bottom plate 11, the first side plate 12, the second side plate 13, the third side plate 14 and the fourth side plate 15 are all communicated with one another to form a through hole 17, the through hole 17 is in a round hole shape, the through hole 17 is uniformly distributed, the size of the through hole 17 is beneficial to the fact that finless eels or loaches cannot pass, the water tank 1 provides survival places for the loaches, the through hole 17 enables water in the water tank to be exchanged with external water, and.

The feeding net cage component 2 comprises a feeding net cage 21 and net cage fixing components 22, the feeding net cage 21 is rectangular and has an open upper part, the upper part of the feeding net cage 21 is fixed through the net cage fixing components 22, the net cage fixing components 22 are detachable structures, the net cage fixing components 22 are symmetrically arranged at two sides of the upper part of the feeding net cage 21, and the net cage fixing components 22 are fixedly connected with the plant purification area 5; when the soft-shelled turtles need to be fed, the feeding net cage 21 is fixed through the net cage fixing component 22, a feeding place is provided for the soft-shelled turtles, the soft-shelled turtles are fed in the water tank 1, uneaten food residues fall into the water tank 1 and are fed by loaches in the water tank 1, and the net cage fixing component 22 is used for rapidly fixing and detaching the feeding net cage 21.

The feeding net cage 21 comprises a feeding net bottom plate 211, a feeding net side plate I212, a feeding net side plate II 213, a feeding net side plate III 214, a feeding net side plate II 213 and a feeding net cavity 216, wherein the feeding net bottom plate 211 is rectangular, the edge of the feeding net bottom plate 211 is sequentially and vertically fixed with the feeding net side plate I212, the feeding net side plate II 213, the feeding net side plate III 214 and the feeding net side plate IV 215, the feeding net bottom plate 211, the feeding net side plate I212, the feeding net side plate II 213, the feeding net side plate III 214 and the feeding net side plate IV 215 form the feeding net cavity 216, the upper part of the feeding net cavity 216 is open, the bottom plate 11, the side plate I12, the side plate II 13, the side plate III 14 and the side plate IV 15 are made of PP plastic plates, material leaking holes 217 are formed in a penetrating mode on the PP plastic plates, the PP plastic plates are high in mechanical strength and durable, the material leaking holes 217 are rectangular, on one hand, residual materials fed by the soft-, on the other hand, the material leaking hole 217 can be selected to have a larger size, so that part of loaches can conveniently shuttle to eat food residues dropped from the soft-shelled turtles in the feeding process.

The net cage fixing component 22 comprises a fixing support 221, bolt holes 2211, connecting bolts 222 and connecting nuts 223, the fixing support 221 is in a shape of inverted L, the lower portion of the fixing support 221 is fixedly connected with one side of the plant purification area 5, the bolt holes 2211 are formed in the upper portion of the fixing support 221, the bolt holes 2211 are circular holes, the connecting bolts 222 penetrate through the bolt holes 2211, the bottom of the connecting bolts 222 is fixedly connected with the middle portion of the upper end of the first feeding net side plate 212, and the connecting nuts 223 are arranged on the upper portion of the connecting bolts 222 and are close to the bottom of the fixing support 221. The detachable structure of the net cage fixing component 22 is convenient for quick detachment and installation of the feeding net cage 21.

The turtle channel component 3 comprises a left turtle main channel 31, a left turtle inlet channel I32, a left turtle inlet channel II 33, a right turtle main channel 34, a right turtle inlet channel I35, a right turtle inlet channel II 36 and a connecting channel 37, wherein the left turtle main channel 31 is cylindrical, the inner wall of the left turtle main channel 31 is provided with a channel hole 311 in a penetrating manner, the channel hole 311 is elliptical, the bottom of the left turtle main channel 31 is communicated with the left turtle inlet channel I32, the end part of the left turtle inlet channel I32 penetrates through the bottom of the side plate I12 and protrudes out of the side plate I12, the left turtle inlet channel I32 is circular, the left turtle inlet channel I32 is communicated with the left turtle main channel 31, the included angle alpha between the left turtle inlet channel I32 and the horizontal line is 20-25 degrees, preferably 21 degrees, the left turtle inlet channel II 33 is arranged at the upper part of the left turtle inlet channel I32, the inner wall of the left turtle inlet channel II 33 is provided with the channel hole 311, the first buckle cover 321 is arranged at the end part of the first left turtle inlet channel 32, the first buckle cover 321 is in a round cover shape, the first buckle cover 321 is in threaded connection with the first left turtle inlet channel 32, the second left turtle inlet channel 33 is arranged in parallel with the first left turtle inlet channel 32, the upper part of the second left turtle inlet channel 33 is communicated with the main left turtle channel 31, the second buckle cover 331 is arranged at the end part of the second left turtle inlet channel 33, the second buckle cover 331 is in threaded connection with the second left turtle inlet channel 33, and the second buckle cover 322 is in a round cover shape.

The right turtle main channel 34 is cylindrical, the inner wall of the right turtle main channel 34 is provided with a channel hole 311 in a penetrating manner, the channel hole 311 is elliptical, the bottom of the right turtle main channel 34 is communicated with a first right turtle inlet channel 35, the end part of the first right turtle inlet channel 35 penetrates through the bottom of the first side plate 12 and protrudes out of the first side plate 12, the first right turtle inlet channel 35 is circular, the first right turtle inlet channel 35 is communicated with the right turtle main channel 34, the included angle alpha between the first right turtle inlet channel 35 and the horizontal line is 20-25 degrees, preferably 21 degrees, the second right turtle inlet channel 36 is arranged at the upper part of the first right turtle inlet channel 35, the inner wall of the second right turtle inlet channel 36 is provided with the channel hole 311 in a penetrating manner, the end part of the first right turtle inlet channel 35 is provided with a third cover 351, the third cover 351 is circular, the first cover 321 is in threaded connection with the first right turtle inlet channel 35, and the second right turtle inlet channel 36 is arranged in parallel with the first right turtle inlet channel 35, the upper part of the right turtle inlet channel II 36 is communicated with the right turtle main channel 34, the end part of the right turtle inlet channel II 36 is provided with a buckle cover IV 361, the buckle cover IV 361 is in threaded connection with the right turtle inlet channel II 36, and the buckle cover II 322 is in a round cover shape. When the turtle is fed, the turtle is attracted by the fishy smell of the food, the turtle enters the breeding net cage 21 from the left turtle main channel 31 and the right turtle main channel 34 to eat after the buckle cover is opened, some turtles eat in the breeding net cage 21 after the turtles hold the food, some turtles climb out of the left turtle main channel 31 and the right turtle main channel 34, so that the food taken out of the mouth of the turtles can be diffused into the water tanks from the left turtle main channel 31 and the right turtle main channel 34 to feed loaches,

the left turtle main channel 31 is communicated with the right turtle main channel 34 through a connecting channel 37, the connecting channel 37 is cylindrical, and a channel hole 311 is formed in the side wall of the connecting channel 37 in a penetrating mode;

the upper parts of the left turtle main channel 31 and the right turtle main channel 34 are open, the first opening 2111 and the second opening 2112 are arranged on the breeding net bottom plate 211 in a penetrating mode, the first opening 2111 and the second opening 2112 are circular holes, the upper part of the left turtle main channel 31 penetrates through the first opening 2111, and the upper part of the right turtle main channel 34 penetrates through the second opening 2112. After the turtle is fed, the cover is buckled, and at the moment, loaches in the water tank 1 enter the left turtle main channel 31 and the right turtle main channel 34 through the openings of the left turtle main channel 31 and the right turtle main channel 34 and are hidden in the left turtle main channel 31 and the right turtle main channel 34, so that on one hand, residual food residues are eaten, and on the other hand, a shelter is provided for the loaches by simulating a natural environment.

The feed placing component 4 comprises a support rod 41 and a material placing plate 42, the support rod 41 is provided with the material placing plate 42, the material placing plate 42 is in a conical shape, the support rod 41 can stretch, and the material placing plate 42 is detachably arranged at the upper part of the support rod 41;

cradling piece 41 includes upper bracket pole 411 and lower bracket pole 412, upper bracket pole 411 is cylindricly, upper bracket pole 411 lateral wall link up and set up upper bracket pole hole 4111, lower bracket pole 412 is cylindricly, lower bracket pole 412 lateral wall link up and set up lower bracket pole hole 4121, lower bracket pole 412 diameter is greater than upper bracket pole 411 diameter, pin 413 passes lower bracket pole hole 4121 and upper bracket pole hole 4111, but cradling piece 41 extending structure is convenient for lift the flitch 42 to suitable height, keep away from pond water on the one hand, on the other hand conveniently supplies with the soft-shelled turtle and eats food.

The section of the material placing plate 42 is in an inverted V shape, an inclined plate edge 421 is fixed at the bottom of the material placing plate 42 in a surrounding mode, an included angle beta between the inclined plate edge 421 and the horizontal line is 35 degrees, and the inclined plate edge 421 prevents food, particularly dead fish blocks and the like from falling along the material placing plate 42.

The middle part of the bottom of the material placing plate 42 is fixed with a cover cylinder 422, the cover cylinder 422 is cylindrical, the depth of the cover cylinder 422 can be selected automatically, and the diameter of the cover cylinder 422 is slightly larger than the diameter of the upper part of the support rod 41 and is consistent. So that the discharge plate 42 can be directly placed on the holder bar 41 or can be directly removed from the holder bar 41.

Plant purification area 5 includes diaphragm 51, diaphragm window 52 and grid case 53, diaphragm 51 is the rectangle form, diaphragm window 52 is seted up at diaphragm 51 middle part, diaphragm window 52 is the rectangle form, grid case 53 is last opening form, grid case 53 cross-section is "U" form, grid case 53 is the plastic box, if select for use the fruit transfer box, grid case 53 inner wall link up and has seted up grid mesh 531, be used for breeding the goldfish algae in the grid case 53, the goldfish algae root system can see through grid mesh 531 downwardly extending to the pond aquatic of grid case 53, timely absorption is from the rich nutrients of water tank 1 exhaust.

The connecting block 511 is fixed at the end part of the transverse plate 51, the connecting block 511 is rectangular, and the transverse plate bolt hole 5111 is formed at the end part of the connecting block 511 in a penetrating way. The connecting block 511 can be fittingly disposed in the fitting groove 621 and fixed, so that the connection between the cross plate 51 and the float assembly 6 is facilitated.

The floating ball assembly 6 comprises a floating ball 61, a floating ball fixing block 62 and a floating ball embedding block 63, the floating ball 61 is of a hollow cylindrical structure, the floating ball fixing block 62 is fixed at the middle part of one side of the floating ball 61, the floating ball fixing block 62 is rectangular, the end part of the floating ball fixing block 62 is provided with an embedding groove 621, the embedding groove 621 is in a U shape, the width of the embedding groove 621 is slightly larger than that of the connecting block 511, the two ends of the embedding groove 621 are provided with embedding groove bolt holes 6211, the floating ball embedding block 63 is fixed at the middle part of the other side of the floating ball 61, the floating ball embedding block 63 is rectangular, the width of the floating ball embedding block 63 is slightly smaller than that of the embedding groove 621, the end part of the floating ball embedding block 63 is communicated with the floating ball embedding block. When a plurality of floating ball assemblies 6 need to be connected, the floating ball embedding block 63 of one of the floating ball assemblies can be placed in the embedding groove 621 of the other floating ball assembly to be fixed through bolts.

Covering a first buckle cover 321 on the end part of a first inlet channel 32 of the left turtle, covering a second buckle cover 331 on the end part of a second inlet channel 33 of the left turtle, covering a third buckle cover 351 on the end part of a first inlet channel 35 of the right turtle, covering a fourth buckle cover 361 on the end part of a second inlet channel 36 of the right turtle, connecting the water tank 1 with the floating ball assembly 6 through the plant purification area 5,

connecting the feeding net cage assembly 2 with the turtle channel assembly 3, and fixing the feeding net cage assembly 2 through a net cage fixing assembly 22; therefore, the water tank 1 is divided into a turtle feeding area and a loach moving area, the turtle feeding area comprises a left channel, a right channel and a feeding net cage component 2, and the loaches move in other areas of the water tank 1, and are independent from each other and do not interfere with each other;

putting the water tank 1, the plant purification area 5 and the floating ball component 6 into a pond, putting the golden fish algae E into the grid box 53, wherein the golden fish algae E plays a certain fixed limiting role in the grid box 53, and purifying water quality by utilizing the characteristic that the golden fish algae does not need to be rooted, through the rapid growth of the golden fish algae and adsorbing sundries such as meat paste sundries, ammonia nitrogen generated by the excrement of the loaches and turtles and the like leaked from the water tank 1;

water in the pond enters the water tank 1 through the through hole 17, and the water tank 1 floats upwards under the action of the floating ball assembly 6;

loaches are placed in the water tank 1, and the loaches move in the water tank 1;

the length of the support rod 41 is adjusted, so that the height of the material placing plate 42 is adjusted, and meat paste or fish blocks for feeding turtles are placed on the material placing plate 42; the turtles may climb up the feed plate 42 to eat.

Opening the first buckle cover 321, the second buckle cover 331, the third buckle cover 351 and the fourth buckle cover 361, leading the turtles to enter the first breeding net cage 21 from the left turtle entrance channel 32, the left turtle entrance channel 33, the right turtle entrance channel 35 and the right turtle entrance channel 36 under the attraction of meat paste, climbing the material placing plate 42 in the breeding net cage 21, and leading the turtles to eat the meat paste or fish blocks on the material placing plate 42;

when the soft-shelled turtles eat meat paste or fish fillets, a part of residual meat paste or fish fillets eaten by the soft-shelled turtles leak into the water tank 1 through the material leaking holes 217 and are eaten by loaches, so that the meat paste is prevented from polluting pond water, and the meat paste is saved;

the soft-shelled turtle leaves the water tank 1 through the first left soft-shelled turtle inlet channel 32, the second left soft-shelled turtle inlet channel 33, the first right soft-shelled turtle inlet channel 35 and the second right soft-shelled turtle inlet channel 36, meat paste which is eaten in the mouth of the soft-shelled turtle enters the water tank 1 through the channel hole 311 and is eaten by loaches;

after the turtles eat the meat paste, covering a first buckle cover 321, a second buckle cover 331, a third buckle cover 351 and a fourth buckle cover 361 with a first left turtle entering channel 32, a second left turtle entering channel 33, a first right turtle entering channel 35 and a second right turtle entering channel 36;

the cage fixing component 22 is disassembled to separate the breeding cage 21 from the left turtle main channel 31 and the right turtle main channel 34;

the loach entrance channel I32, the left turtle entrance channel II 33, the right turtle entrance channel I35, the right turtle entrance channel II 36 and the connecting channel 37, wherein the channel I32, the left turtle entrance channel II 33, the right turtle entrance channel I35, the right turtle entrance channel II 36 and the connecting channel 37 are used as swimming channels and sheltering places for the loaches.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a device is raised to green aquatic products of three-dimensional ecology which characterized in that: the device comprises a water tank, a feeding net cage component, a soft-shelled turtle channel component, a feed placing component, a plant purifying area and a floating ball component, wherein the feeding net cage component and the soft-shelled turtle channel component are arranged in the water tank, the feeding net cage component is connected with the soft-shelled turtle channel component, the feeding net cage component is detachably arranged at the upper part of the soft-shelled turtle channel component, the feed placing component is arranged in the feeding net cage component, the plant purifying area and the floating ball component are arranged on two sides of the water tank, one end of the water tank is connected with the plant purifying area, and the other end of the plant purifying;

the water tank comprises a bottom plate, a first side plate, a second side plate, a third side plate, a fourth side plate and a water tank cavity, wherein the bottom plate, the first side plate, the second side plate, the third side plate and the fourth side plate are all of a plate-shaped structure made of PVC materials;

the feeding net cage component comprises a feeding net cage and net cage fixing components, the feeding net cage is in a rectangular upper part opening shape, the upper part of the feeding net cage is fixed through the net cage fixing components, the net cage fixing components are of a detachable structure and are symmetrically arranged on two sides of the upper part of the feeding net cage, and the net cage fixing components are fixedly connected with the plant purification area;

the turtle channel component comprises a left turtle main channel, a left turtle inlet channel I, a left turtle inlet channel II, a right turtle main channel, a right turtle inlet channel I, a right turtle inlet channel II and a connecting channel;

the feed placing assembly comprises a support rod and a material placing plate, the material placing plate is arranged on the support rod, the material placing plate is in a conical shape, and the support rod is telescopic;

the plant purification area comprises transverse plates, transverse plate windows and grid boxes, wherein the transverse plates are rectangular, the transverse plate windows are formed in the middle of the transverse plates, the transverse plate windows are rectangular, the grid boxes are in an upper opening shape, the cross sections of the grid boxes are U-shaped, the grid boxes are plastic boxes, and grid meshes are formed in the inner walls of the grid boxes in a penetrating mode.

2. The stereoscopic ecological green aquaculture device of claim 1, characterized in that: the feeding net cage comprises a feeding net bottom plate, a feeding net side plate I, a feeding net side plate II, a feeding net side plate III, a feeding net side plate IV and a feeding net cavity, wherein the feeding net bottom plate is rectangular, the edge of the feeding net bottom plate is sequentially and vertically fixed with the feeding net side plate I, the feeding net side plate II, the feeding net side plate III and the feeding net side plate IV, the feeding net bottom plate, the feeding net side plate I, the feeding net side plate II, the feeding net side plate III and the feeding net side plate IV form the feeding net cavity, the upper part of the feeding net cavity is open, the bottom plate, the side plate I, the side plate II, the side plate III and the side plate IV are made of PP plastic plates, and material leaking holes are formed in the PP plastic plates in a penetrating.

3. The stereoscopic ecological green aquaculture device of claim 2, characterized in that: the left turtle main channel is cylindrical, a channel hole is formed in the inner wall of the left turtle main channel in a penetrating mode, the channel hole is oval, the bottom of the left turtle main channel is communicated with the left turtle entering channel I, one end portion of the left turtle entering channel penetrates through the bottom of the side plate I and protrudes out of the side plate I, the left turtle entering channel I is circular, the left turtle entering channel I is communicated with the left turtle main channel, the included angle alpha between the left turtle entering channel I and the horizontal line is 20-25 degrees, the left turtle entering channel II is arranged at the upper portion of the left turtle entering channel I, a channel hole is formed in the inner wall of the left turtle entering channel II in a penetrating mode, a first buckle cover is arranged at one end portion of the left turtle entering channel and is circular, the first buckle cover is in threaded connection with the left turtle entering channel I, the left turtle entering channel II is arranged in parallel to the left turtle entering channel I, the upper portion of the left turtle entering channel II is communicated with the left turtle main channel, the second end part of the left turtle entering channel is provided with a second buckle cover, the second buckle cover is in threaded connection with the second left turtle entering channel, and the second buckle cover is in a round cover shape.

4. The stereoscopic ecological green aquaculture device of claim 3, characterized in that: the right turtle main channel is cylindrical, a channel hole is formed in the inner wall of the right turtle main channel in a penetrating mode, the channel hole is oval, the bottom of the right turtle main channel is communicated with the right turtle entering channel I, one end of the right turtle entering channel penetrates through the three bottoms of the side plates and protrudes out of the three side plates, the right turtle entering channel I is circular, the right turtle entering channel I is communicated with the right turtle main channel, the included angle alpha between the right turtle entering channel I and the horizontal line is 20-25 degrees, the right turtle entering channel II is arranged at the upper portion of the right turtle entering channel I, a channel hole is formed in the inner wall of the right turtle entering channel II in a penetrating mode, a buckle cover III is arranged at one end of the right turtle entering channel and is circular, the buckle cover I is in threaded connection with the right turtle entering channel I, the right turtle entering channel II is arranged in parallel to the right turtle entering channel I, the upper portion of the right turtle entering channel II is communicated with the right turtle main channel, the end part of the right turtle entering channel is provided with a buckle cover IV, the buckle cover IV is in threaded connection with the right turtle entering channel, and the buckle cover II is in a round cover shape.

5. The stereoscopic ecological green aquaculture device of claim 4, characterized in that: the left turtle main channel is communicated with the right turtle main channel through a connecting channel, the connecting channel is cylindrical, and a channel hole is formed in the side wall of the connecting channel in a penetrating mode.

6. The stereoscopic ecological green aquaculture device of claim 5, characterized in that: the upper parts of the left turtle main channel and the right turtle main channel are in an opening shape, the feeding net bottom plate is provided with a first opening and a second opening in a penetrating mode, the first opening and the second opening are in a circular hole shape, the upper part of the left turtle main channel penetrates through the first opening, and the upper part of the right turtle main channel penetrates through the second opening.

7. The stereoscopic ecological green aquaculture device of claim 6, characterized in that: the support rod comprises an upper support rod and a lower support rod, the upper support rod is cylindrical, an upper support rod hole is formed in the side wall of the upper support rod in a penetrating mode, the lower support rod is cylindrical, a lower support rod hole is formed in the side wall of the lower support rod in a penetrating mode, the diameter of the lower support rod is larger than that of the upper support rod, a pin penetrates through the lower support rod hole and the upper support rod hole, the section of the discharging plate is in an inverted V shape, the bottom of the discharging plate surrounds and is fixed with an inclined plate edge, and the inclined plate edge and the included angle beta of a.

8. The stereoscopic ecological green aquaculture device of claim 7, characterized in that: the connecting block is fixed at the end part of the transverse plate and is rectangular, and the end part of the connecting block is communicated with the transverse plate bolt hole.

9. The stereoscopic ecological green aquaculture device of claim 8, characterized in that: the floater subassembly includes the floater, floater fixed block and floater embedded piece, and the floater is hollow cylindrical structure, the fixed floater fixed block in floater one side middle part, and the floater fixed block is the rectangle form, and floater fixed block tip sets up the embedded groove, and the embedded groove is "U" form, and the embedded groove width slightly is greater than the connecting block, and the embedded groove bolt hole is seted up at the embedded groove both ends, the fixed floater embedded piece in floater opposite side middle part, and the floater embedded piece is the rectangle form, and floater embedded piece width slightly is less than embedded groove width, and floater embedded piece tip link up and has seted up floater embedded piece hole, and the bolt passes diaphragm bolt hole and embedded groove bolt hole and fixes embedded groove and connecting block mutually.

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