CN112772542B

CN112772542B - Aquaculture debris fishing device

Info

Publication number: CN112772542B
Application number: CN202110165252.XA
Authority: CN
Inventors: 李敬荣
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-06
Filing date: 2021-02-06
Publication date: 2023-09-26
Anticipated expiration: 2041-02-06
Also published as: CN112772542A

Abstract

The invention relates to an aquaculture sundry salvaging device which comprises a collecting frame, a mounting plate, an intelligent control plate, a vacuum booster pump and a buoyancy mechanism, wherein the upper surface of the collecting frame is fixedly connected with the mounting plate, the surface of the mounting plate is clamped with the intelligent control plate, the inside of the collecting frame is connected with the vacuum booster pump through a fixing frame, the upper part of the vacuum booster pump is fixedly connected with a conveying pipeline, the lower part of the vacuum booster pump is fixedly communicated with a plurality of suction pipes, preferably even suction pipes, the bottom ends of the suction pipes penetrate through the surface of the collecting frame and are fixedly communicated with the top ends of the telescopic pipes, the bottom ends of the telescopic pipes are fixedly communicated with the top ends of gooseneck, the bottom ends of the gooseneck are fixedly connected with a water surface suction pipe, the two side surfaces of the collecting frame are respectively fixedly connected with an adjusting rod, the bottom ends of the adjusting rod are fixedly connected with the buoyancy mechanism, the buoyancy mechanism are fixedly connected through lifting plates, and the surface of the lifting plate is fixedly connected with the surface of the gooseneck.

Description

Aquaculture debris fishing device

Technical Field

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

Background

Aquaculture is a production activity of propagating, cultivating and harvesting aquatic animals and plants under human control. Generally includes the whole process of growing aquatic products from offspring under artificial feeding management. Aquatic resource proliferation may also be included in a broad sense. The aquaculture has the modes of coarse cultivation, fine cultivation, high-density fine cultivation and the like. The rough culture is to put the fries in the middle and small natural water areas and to culture the aquatic products by the natural baits, such as fish culture in lakes and reservoirs, shellfish culture in shallow sea, and the like. The intensive culture is to culture aquatic products in a small water body by a bait casting and fertilizing method, such as fish culture in a pond, fish culture in a net cage, rail culture and the like. The high-density fine culture adopts methods of running water, temperature control, oxygenation, feeding of high-quality baits and the like, and the high-density culture is carried out in a small water body, so that high yield, such as running water high-density fish culture, shrimp culture and the like, is obtained.

In the aquaculture process, the fed feed is easy to generate excessive energy, so that water is seriously nutrient, water pollution and aquaculture yield are influenced, and therefore, the aquaculture sundry salvaging device is needed to be provided.

Disclosure of Invention

The invention provides an aquaculture sundry fishing device aiming at the problems in the prior art so as to solve the technical problems.

In order to achieve the above purpose, the present invention is realized by the following technical scheme: the utility model provides an aquaculture debris fishing device, includes collection frame, mounting panel, intelligent control panel, vacuum booster pump and buoyancy mechanism, the upper portion fixed surface of collection frame connects the mounting panel, the surface joint of mounting panel has the intelligent control panel, the inside of collection frame passes through the mount and connects the vacuum booster pump, the upper portion fixed connection pipeline of vacuum booster pump, the lower part fixed intercommunication a plurality of suction tube, preferably even number suction tube of vacuum booster pump, the bottom of suction tube passes the top of collection frame fixed intercommunication flexible pipe, the bottom of flexible pipe is fixed to the top of intercommunication gooseneck, the bottom fixed connection surface of water suction pipe of gooseneck, the both sides surface of collection frame is fixed connection regulation pole respectively, the bottom fixed connection buoyancy mechanism of regulation pole, through lifter plate fixed connection between the buoyancy mechanism, the surface fixed connection gooseneck of lifter plate, the bottom of one side fixed connection slide plate of buoyancy mechanism, the upper portion sliding connection track plate of slide plate, the bottom surface of collection frame is fixed connection on the top of track plate;

one end of the conveying pipeline far away from the vacuum booster pump penetrates through the surface of the collecting frame to fixedly communicate with one side of the water ring vacuum pump, the other side of the water ring vacuum pump is communicated with one end of the U-shaped pipeline, the other end of the U-shaped pipeline is communicated with the fixed pipeline, the bottom of the fixed pipeline is communicated with the inside of the filtering shell, the upper part of the filtering shell is symmetrically and fixedly connected with the supporting plate, the surface of one side of the supporting plate opposite to the inner wall of the filtering shell is symmetrically and fixedly connected with a first inclined plate, a first filtering box is fixedly connected between the first inclined plates, a second filtering box is arranged under the two supporting plates, the two sides of the second filter box are fixedly connected with the inner wall surface of the filter shell through the second inclined plate respectively, and a filter outlet is formed in the filter shell below the second filter box.

Still further, buoyancy mechanism includes the pressing board of fixed connection regulation pole bottom, the bottom of pressing board is through supporting base fixed connection transverse plate, the bottom of one side surface vertical fixed connection slide one, horizontal fixed connection lifter plate of transverse plate, the sliding hole has been seted up on the opposite side surface of transverse plate, the inside sliding connection buoyancy pole of sliding hole, the top fixed connection of buoyancy pole shelters from the piece, the bottom surface symmetry fixed connection light sensor of the top pressing board of sheltering from the piece, the upper portion of the bottom fixed connection round platform body of buoyancy pole, the lower part fixed connection ball body of round platform body, shelter from the piece through the buoyancy ascending effect of round platform body and ball body, set up between two light sensor.

Furthermore, a water outlet is communicated with the fixed pipeline at the upper part of the inclined plate.

Furthermore, the fixed pipeline edge between the two water outlets on the same side is fixedly connected with a hinged base, and the hinged base is connected with the inclined plate I through two hinged rods.

Further, the first inclined plate adjacent to the supporting plate is hinged with the second inclined plate at the vertical bottom of the supporting plate through the reinforcing rod.

Further, an electromagnetic switch valve is arranged at the bottom of the filtering outlet.

Furthermore, the intelligent control panel is electrically connected with the vacuum booster pump, the water ring vacuum pump, the adjusting rod, the light sensor and the electromagnetic switch valve in sequence.

In summary, the invention provides an aquaculture sundry salvaging device, which is used for sucking excessive food floating on the water surface by communicating a water surface suction pipe through a vacuum booster pump, communicating a water ring vacuum pump through a conveying pipeline, conveying the food to the inside of a filter shell through vacuum suction, filtering the food out of the first filter boxes on two sides once, filtering the food out of the second filter boxes again, recycling the food, saving fish food, relieving the problem of nutrition of water quality, and improving the high-energy yield of aquaculture.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram illustrating the structural analysis of the buoyancy mechanism at A in FIG. 1;

FIG. 3 is a schematic view of the internal structure of the collection frame of FIG. 1;

FIG. 4 is a schematic view of the internal structure of the filter housing of FIG. 1;

in the figure: the collecting frame 1, the intelligent control board 11, the mounting plate 12, the vacuum booster pump 2, the conveying pipeline 21, the suction pipe 22, the telescopic pipe 23, the gooseneck 24, the water surface suction pipe 25, the buoyancy mechanism 3, the pressing plate 31, the supporting base 32, the transverse plate 33, the sliding hole 34, the buoyancy rod 35, the shielding plate 36, the light sensor 37, the round table floating body 38, the round ball floating body 39, the adjusting rod 4, the water ring vacuum pump 41, the U-shaped pipeline 42, the fixed pipeline 43, the water outlet 44, the hinged base 45, the hinged rod 46, the slide plate 5, the track plate 51, the lifting plate 52, the filter housing 6, the supporting plate 61, the inclined plate 62, the filter box 63, the filter box 64, the inclined plate 65, the filter outlet 66, the reinforcing rod 67 and the electromagnetic switch valve 68.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 and 3, the invention relates to an aquaculture sundry fishing device, which comprises a collecting frame 1, a mounting plate 12, an intelligent control plate 11, a vacuum booster pump 2 and a buoyancy mechanism 3, wherein the upper surface of the collecting frame 1 is fixedly connected with the mounting plate 12, the surface of the mounting plate 12 is clamped with the intelligent control plate 11, the inside of the collecting frame 1 is connected with the vacuum booster pump 2 through a fixing frame, the upper part of the vacuum booster pump 2 is fixedly connected with a conveying pipeline 21, the lower part of the vacuum booster pump 2 is fixedly communicated with a plurality of suction pipes 22, the number of the suction pipes is 4, the bottom ends of the suction pipes 22 penetrate through the surface of the collecting frame 1 and are fixedly communicated with the top ends of telescopic pipes 23, the bottom ends of the telescopic pipes 23 are fixedly communicated with the top ends of goosenecks 24, the bottom ends of the goosenecks 24 are fixedly connected with water surface suction pipes 25, the two side surfaces of the collecting frame 1 are respectively fixedly connected with adjusting rods 4, the bottom ends of the adjusting rods 4 are fixedly connected with the buoyancy mechanism 3, the buoyancy mechanism 3 is fixedly connected with the lifting plate 52, the surface of the lifting plate 52 is fixedly connected with the surface of the goosenecks 24, one side of the buoyancy mechanism 3 is fixedly connected with the bottom of the slide plate 5, the upper part of the slide plate 5 is slidingly connected with the surface of the track plate 51, the top of the surface of the track plate 1 is fixedly connected with the bottom of the collecting frame 1.

Through four suction pipes 22, flexible pipe 23 and gooseneck 24 that control vacuum booster pump 2 and its intercommunication by intelligent control board 11, absorb the recovery by surface of water suction pipe 25 to the remaining foodstuff of surface of water, lift plate 52 oscilaltion is adjusted through buoyancy mechanism 3, flexible effect is carried out by flexible pipe 23, control surface of water suction pipe 25 descends to the height that is close to the surface of water, suction foodstuff is carried out, buoyancy mechanism 3 through slide one 5 and track board 51 sliding fit, realize the firm supporting role to lifter plate 52 and gooseneck 24, increase the efficiency that the foodstuff was retrieved.

As shown in fig. 1 and 4, the conveying pipeline 21 communicated with the upper part of the vacuum booster pump 21 is communicated with the vacuum booster pump 2, the intelligent control board 11 controls the water ring vacuum pump 41 to boost and extract the recovered foodstuff again, the foodstuff enters the filter housing 6 through the U-shaped pipeline 42, the structure of the U-shaped pipeline 42 is arranged to reduce the flow rate of foodstuff recovery, the foodstuff flows into the fixed pipeline 43, slowly enters the two first filter boxes 63 arranged on the upper layer inside the filter housing 6, is filtered by the first filter boxes 63, and then is filtered out again by the second filter boxes 64, and excessive water is output through the filter outlet 66, and the first filter boxes 63 are supported by the first inclined plates 62 on the two sides of the filter boxes, so that the first inclined plates 62 are fixedly connected with the inner wall surface of the filter housing 6 through the connecting support plates 61, and the fixed action of the first inclined plates 62 is reinforced.

As shown in fig. 3, the buoyancy mechanism 3 includes a pressing plate 31 fixedly connected to the bottom end of an adjusting rod 4, the telescopic adjustment function of the adjusting rod 4 is achieved to control the lifting of the pressing plate 31, the bottom of the pressing plate 31 is fixedly connected to a transverse plate 33 through a supporting base 32, the upper part of one side surface of the transverse plate 33 is vertically and fixedly connected to a first sliding plate 5, the side part of the transverse plate 33 is horizontally and fixedly connected to a lifting plate 52, the other side surface of the transverse plate 33 is provided with a sliding hole 34, the inside of the sliding hole 34 is slidably connected with a buoyancy rod 35, the top end of the buoyancy rod 35 is fixedly connected with a shielding plate 36, the bottom surface of the top pressing plate 31 of the shielding plate 36 is symmetrically and fixedly connected with a light sensor 37, the transverse plate 33 is pushed to move downwards through the adjusting rod 4, the bottom of the buoyancy rod 35 is sequentially provided with a circular truncated cone floating body 38 and a spherical floating body 39, the top of the buoyancy rod 35 moves upwards due to the action of the buoyancy, the shielding plate 36 arranged at the top of the buoyancy rod 35 is transferred between the two light sensors 37, and the control panel 11 detects and controls the starting of the vacuum booster pump 2 to perform recovery of food on the water surface through the intelligent suction pipe 25;

as shown in fig. 2, as the adjusting rod 4 moves downwards to adjust the water surface suction pipe 25 to move downwards, the height of the moved water surface suction pipe 2 is consistent with the height of the transverse plate 33, so that the purpose is achieved that when the round platform floating body 38 and the round ball floating body 39 float, the water surface suction pipe 25 is beneficial to recovering residual foodstuff due to the height difference between the round platform floating body 38 and the round ball floating body 3 and the water surface, more water is prevented from being sucked, the filtering burden is increased, the round ball floating body 39 is arranged at the bottom of the round platform floating body 38, the contact area with the water surface is increased, and the vertically upwards floating balance effect of the round platform floating body 38 is increased.

Further, the fixed pipe 43 at the upper part of the first inclined plate 62 is provided with a water outlet 44 in communication, the recycled foodstuff is conveyed to the first inclined plate 62 through the water outlet 44, and the first inclined plate 62 flows into the first filter box 63 to slow down the flow rate and increase the filtering efficiency.

Furthermore, the fixed pipe 43 between the two water outlets 44 on the same side is fixedly connected with the hinge base 45, the hinge base 45 is connected with the inclined plate one 62 through the two hinge rods 46, and the hinge rods 46 play a role of reinforcing the inclined plate one 62 due to the gravity of filtered water during filtering through the arrangement of the hinge rods 46.

Further, the adjacent inclined plate one 62 of the support plate 61 is hinged to the inclined plate two 65 of the vertical bottom thereof by the reinforcing rod 67, and the reinforcing rod 67 plays a role of increasing support during filtration.

Further, an electromagnetic switch valve 68 is arranged at the bottom of the filtering outlet 66, and the intelligent control board 11 controls the electromagnetic switch valve 68 to open and close to release water.

Further, the intelligent control board 11 is electrically connected with the vacuum booster pump 2, the water ring vacuum pump 41, the adjusting rod 4, the light sensor 37 and the electromagnetic switch valve 68 in sequence, and the intelligent control board 11 is a 5G DTU data terminal.

In summary, the invention provides an aquaculture sundry salvaging device, which is communicated with a water surface suction pipe through a vacuum booster pump to suck excessive food floating on the water surface, is communicated with a water ring vacuum pump through a conveying pipeline, is conveyed into a filter shell through vacuum suction, is filtered out of the food once through a first filter box on two sides, is filtered out of the food again through a second filter box, and is used for recycling the food, saving fish food, relieving the problem of nutrition of water quality and improving the high-energy yield of aquaculture.

Claims

1. The utility model provides an aquaculture debris fishing device, its characterized in that, including collecting frame (1), mounting panel (12), intelligent control panel (11), vacuum booster pump (2) and buoyancy mechanism (3), the upper portion fixed surface of collecting frame (1) connects mounting panel (12), the surface joint of mounting panel (12) has intelligent control panel (11), the inside of collecting frame (1) is passed through the mount and is connected vacuum booster pump (2), the upper portion fixed connection pipeline (21) of vacuum booster pump (2), the fixed intercommunication of lower part of vacuum booster pump (2) a plurality of suction tube (22), the top of collection frame (1) fixed surface intercommunication flexible pipe (23) is passed to the bottom of suction tube (22), the top of flexible pipe (23) fixed surface of water of intercommunication gooseneck (24), the bottom fixed surface of water of gooseneck (24) is connected suction pipe (25), the both sides surface of collecting frame (1) are fixed connection regulation pole (4) respectively, the bottom fixed surface of regulation pole (4) is connected buoyancy mechanism (3), through lifter plate (52) between buoyancy mechanism (3) fixed surface connection of lifting plate (24), one side of the buoyancy mechanism (3) is fixedly connected with the bottom of the first sliding plate (5), the upper part of the first sliding plate (5) is slidably connected with the surface of the track plate (51), and the top end of the track plate (51) is fixedly connected with the bottom surface of the collecting frame (1);

one end of the conveying pipeline (21) far away from the vacuum booster pump (2) penetrates through one side of the surface fixed communicating water ring vacuum pump (41) of the collecting frame (1), the other side of the water ring vacuum pump (41) is communicated with one end of the U-shaped pipeline (42), the other end of the U-shaped pipeline (42) is communicated with the fixed pipeline (43), the bottom of the fixed pipeline (43) is communicated with the inside of the filter shell (6), the upper part of the filter shell (6) is symmetrically and fixedly connected with the supporting plate (61), one side surface of the supporting plate (61) opposite to the inner wall of the filter shell (6) is symmetrically and fixedly connected with the inclined plate I (62), a first filter box (63) is fixedly connected between the inclined plates I (62), a second filter box (64) is arranged under the two supporting plates (61), two sides of the second filter box (64) are fixedly connected with the inner wall surface of the filter shell (6) through the inclined plate II (65), and a filter outlet (66) is formed in the filter shell (6) below the second filter box (64);

the buoyancy mechanism (3) comprises a pressing plate (31) fixedly connected with the bottom end of an adjusting rod (4), the bottom of the pressing plate (31) is fixedly connected with a transverse plate (33) through a supporting base (32), one side surface of the transverse plate (33) is vertically and fixedly connected with the bottom of a sliding plate I (5), the horizontal surface of the transverse plate (33) is fixedly connected with a lifting plate (52), a sliding hole (34) is formed in the other side surface of the transverse plate (33), a buoyancy rod (35) is connected in the sliding hole (34) in a sliding mode, the top end of the buoyancy rod (35) is fixedly connected with a shielding plate (36), the bottom surface of the top pressing plate (31) of the shielding plate (36) is fixedly connected with a light sensor (37), the bottom end of the buoyancy rod (35) is fixedly connected with the upper portion of a circular truncated cone floating body (38), the lower portion of the circular truncated cone floating body (38) is fixedly connected with a circular truncated cone floating body (39), and the shielding plate (36) is arranged between the two light sensors (37) through the buoyancy lifting effect of the circular truncated cone floating body (38).

2. An aquaculture debris salvaging device according to claim 1, characterized in that the fixed pipe (43) at the upper part of the first inclined plate (62) is provided with a water outlet (44) in communication.

3. An aquaculture debris fishing device according to claim 2, characterized in that the fixed pipe (43) between the two outlets (44) on the same side is fixedly connected with a hinged base (45), said hinged base (45) being connected with a tilting plate (62) by means of two hinged bars (46).

4. A fishing device for aquaculture debris according to any one of claims 1 to 3, wherein the adjacent inclined plate (62) of the support plate (61) is hinged to its vertically lower inclined plate (65) by means of a reinforcement bar (67).

5. An aquaculture debris fishing device according to claim 1, characterized in that the bottom of the filtering outlet (66) is provided with an electromagnetic switch valve (68).

6. The aquaculture sundry fishing device according to claim 5, wherein the intelligent control board (11) is electrically connected with the vacuum booster pump (2), the water ring vacuum pump (41), the adjusting rod (4), the light sensor (37) and the electromagnetic switch valve (68) in sequence.